Дисертації з теми "Estrogen Therapeutic use"
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Jetson, Rachael Rene. "Design and Development of Potential Therapeutic Agents for Use in Hormone Responsive Cancers." University of Toledo Health Science Campus / OhioLINK, 2013. http://rave.ohiolink.edu/etdc/view?acc_num=mco1384270219.
Повний текст джерелаDennis, Maxine Elizabeth. "Oestrogen and atherosclerosis." University of Western Australia. School of Pathology and Laboratory Medicine, 2009. http://theses.library.uwa.edu.au/adt-WU2009.0134.
Повний текст джерелаBenz, David James. "Estrogenic and androgenic regulation of human osteoblast-like cells is mediated by specific steroid receptors." Diss., The University of Arizona, 1991. http://hdl.handle.net/10150/185442.
Повний текст джерелаAmaral, Sandra Margarida Caldas. "Estrogen receptor dependent genetic and epigenetic factors of tamoxifen resistance." Doctoral thesis, Faculdade de Ciências Médicas. Universidade Nova de Lisboa, 2009. http://hdl.handle.net/10362/5038.
Повний текст джерелаPapich, Sandra G. (Sandra Gene). "Estrogen Replacement Therapy and its Association with Life Satisfaction of Women over Fifty." Thesis, University of North Texas, 1991. https://digital.library.unt.edu/ark:/67531/metadc500948/.
Повний текст джерелаHatchell, Esme Claire. "Insight into estrogen action in breast cancer via the study of a novel nuclear receptor corepressor : SLIRP." University of Western Australia. School of Medicine and Pharmacology, 2008. http://theses.library.uwa.edu.au/adt-WU2008.0206.
Повний текст джерелаVisser, Jacobus Albertus Koch. "Phytoestrogenic extracts of Cyclopia modulate molecular targets involved in the prevention and treatment of breast cancer." Thesis, Stellenbosch : Stellenbosch University, 2014. http://hdl.handle.net/10019.1/86718.
Повний текст джерелаENGLISH ABSTRACT: Phytoestrogen containing extracts of Cyclopia, an indigenous South African fynbos plant used to prepare honeybush tea, may serve as a source of new estrogen analogues. It would be of great benefit if these new analogues would not only prevent the development and progression of breast cancer which, globally, is responsible for the highest number of cancer associated deaths among females, but also have a reduced side-effect profile when compared to current treatments and, in addition, also alleviate menopause associated symptoms. In this study three extracts, P104, SM6Met, and cup-of-tea, from two species of Cyclopia, C. genistoides and C. subternata, were evaluated for their potential to modulate molecular targets involved in prevention and treatment of breast cancer. We show that the phytoestrogenic extracts of Cyclopia antagonise estrogen-induced cell proliferation both in vitro as well as in vivo. Furthermore, our study presents various molecular mechanisms whereby the Cyclopia extracts may be eliciting this effect. Importantly, we show, for the first time, that the Cyclopia extracts behave as ERα antagonists and ERβ agonists which, with respect to the known role of the ER subtypes in breast cancer, where the ERα subtype is associated with the stimulation of cell proliferation and the occurrence of breast cancer, while ERβ ameliorates the action of ERα in breast cancer and could act as an inhibitor of breast cancer development, may be beneficial for the prevention or treatment of breast cancer. In addition, we also show that the extracts of Cyclopia behave as selective estrogen receptor degraders by down-regulating ERα protein levels while stabilising ERβ protein levels, which not only provides a possible molecular explanation for the observed ERα antagonism and ERβ agonism, but, in addition, may be beneficial as higher ERα levels are associated with malignant breast cancer tumours, while higher ERβ levels are associated with benign tumours. Furthermore, we show that the Cyclopia extracts affect the nuclear localization and distribution of both ER subtypes in a manner that provides an additional molecular explanation for the observed ERα antagonism and ERβ agonism. Investigation of the molecular processes involved in the promotion and progression of breast cancer, such as the distribution of cells between the phases of the cell cycle, cancer cell invasion, and the regulation of genes governing these processes provides evidence that the Cyclopia extracts are not as proliferative as estrogen. In addition, Cyclopia extracts display anti-inflammatory properties, which may be beneficial as inflammation is an enabling characteristic in cancer development and progression. Furthermore, this study, for the first time, shows that the phytoestrogenic extracts of Cyclopia are absorbed, are not toxic, and display biological ERα antagonist activity in vivo by retarding uterine growth. Thus, we propose that the Cyclopia extracts act as selective estrogen receptor subtype modulators with potential to be developed as a nutraceutical for the treatment or prevention of breast cancer.
AFRIKAANSE OPSOMMING: Fitoëstrogeen-bevattende ekstrakte van Cyclopia, ‘n inheemse Suid Afrikaanse fynbosplant wat gebruik word vir die voorbereiding van heuningbostee, mag as ‘n bron van nuwe estrogeen-analoë dien. Dit sal baie voordelig wees indien hierdie nuwe analoë nie net die ontwikkeling en progressie van borskanker sal voorkom nie, aangesien borskanker wêreldwyd verantwoordelik is vir die grootste getal kankerverwante sterftes onder vroue, maar ook ‘n verminderde newe-effek profiel vertoon in vergelyking met huidige behandelings en ook, boonop, simptome wat met menopouse geassosieer word, sal verlig. In hierdie studie is drie ekstrakte, P104, SM6Met, en cup-of-tea, vanaf twee spesies van Cyclopia, C. genistoides en C. subternata, geëvalueer vir hul potensiaal om die molekulêre teikens betrokke by die voorkoming en behandeling van borskanker te moduleer. Ons wys dat die fitoëstrogeniese ekstrakte van Cyclopia antagoniseer estrogeen-geïnduseerde selproliferasie beide in vitro as ook in vivo. Verder bied ons studie ook verkskeie molekulêre meganismes aan oor hoe die Cyclopia ekstrakte hierdie effek mag ontlok. ‘n Belangrike bevinding is dat ons vir die eerste keer wys dat die Cyclopia ekstrakte hulself as ERα -antagoniste en ERβ-agoniste gedra wat, met betrekking tot die erkende rol van die ER-subtipes in borskanker, waar die ERα-subtipe geassosieer word met die stimulasie van selproliferasie en die gebeurtenis van borskanker, terwyl ERβ die aksie van ERα onderdruk en as ‘n inhibeerder van borskankerontwikkeling kan dien, voordelig mag wees vir die voorkoming of behandeling van borskanker. Ons wys boonop ook dat die ekstrakte van Cyclopia hulself soos selektiewe estrogeen- reseptor-degradeerders gedra deurdat hul ERα-proteïnvlakke verlaag terwyl hul ERβ-proteïnvlakke stabiliseer. Dit verksaf nie net ‘n moontlike molekulêre verduideliking vir die waargeneemde ERα-antagonisme en ERβ-agonisme nie, maar mag ook voordelig wees in borskanker aangesien hoër ERα-vlakke geasosieer word met kwaadaardige borskankertumors en hoër ERβ-vlakke met nie-kwaadaardige tumors. Verder wys ons dat die Cyclopia ekstrakte die lokalisering en verspreiding van beide ER-subtipes in die selkern op so ‘n wyse beïnvloed dat dit ‘n addisionele molekulêre verduideliking bied vir die ERα-antagonisme en ERβ-agonisme wat waargeneem is. Verdere ondersoek van die molekulêre prosesse betrokke by die promosie en progressie van borskanker, soos die verspreiding van selle tussen die fases van die selsiklus, die beweging van kankerselle na omliggende weefsels, en die regulering van gene wat hierdie prosesse beheer, verskaf bewyse dat die Cyclopia-ekstrakte nie so proliferatief is soos estrogeen nie. Die ekstrakte van Cyclopia vertoon boonop ook anti-inflamatoriese eienskappe, wat voordelig mag wees aangesien inflammasie ‘n bydraende eienskap in kankerontwikkeling en -progressie is. Verder wys hierdie studie vir die eerste keer dat die fitoëstrogeniese ekstrakte van Cyclopia geabsorbeer word, nie toksies is nie, en dat hulle biologiese ERα-antagonis aktiwiteit vertoon deurdat hulle uterus-groei vertraag in vivo. Dus stel ons voor dat die Cyclopia-ekstrakte optree soos selektiewe-estrogeen-reseptor-subtipe-moduleerders met die potensiaal om ontwikkel te word as ‘n nutraseutiese middel vir die behandeling of voorkoming van borskanker.
Wu, Wing Man. "An investigation into the neuroprotective effects of estrogen and progesterone in a model of homocysteine-induced neurodegeration." Thesis, Rhodes University, 2006. http://hdl.handle.net/10962/d1003284.
Повний текст джерелаKampen, Diane L. "The relationship between estrogen and memory in healthy postmenopausal women and women in the early stages of Alzheimer's disease." Thesis, McGill University, 1993. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=41108.
Повний текст джерелаPhillips, Susana M. (Susana Maria). "The relationship between sex steroid levels and memory functions in women." Thesis, McGill University, 1994. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=28513.
Повний текст джерелаMurtagh, Madeleine Josephine. "Intersections of feminist and medical constructions of menopause in primary medical care and mass media: risk, choice and agency." Title page, table of contents and abstract only, 2001. http://web4.library.adelaide.edu.au/theses/09PH/09phm9851.pdf.
Повний текст джерелаPenteado, Sônia Regina Lenharo. "Terapia hormonal e sexualidade em mulheres na pós-menopausa." Universidade de São Paulo, 2004. http://www.teses.usp.br/teses/disponiveis/5/5139/tde-15102014-093313/.
Повний текст джерелаObjectives: To verify the effects of hormone therapy with estrogen and progesterone derivatives when used singly or combined with methyltestosterone, on sexuality and on climacteric symptoms in postmenopausal women. Subjects: The series included sixty-sexually active women, with sexual complaints, in a stable relationship with a partner capable of intercourse, ages ranging from 42 to sixty years (average 52,1 + 4) and menopause time from one to 28 years (average 5,6). Excluded were women with systemic diseases, psychiatric and endocrine disorders, genital dystopias, smokers and those on hormone therapy or medications that affect sexuality. Method: A double blind, randomized, progressive cohort study was performed over a twelve month period. The women were divided into two groups: EP (n=29), medicated with conjugated estrogens (EEC) 0,625 mg + medroxyprogesterone acetate (AMP) 2,5 mg + placebo, and group EP+A (n=31), medicated with EEC 0,625 mg + AMP 2,5 mg + methyltestosterone 2,0 mg. For the study of sexuality, the Hospital das Clínicas Sex Questionnaire was utilized, assessing sexual desire linked exclusively to activities developed with the partner; excitation and orgasmic capacity in activities with the partner; sexual interest not linked exclusively to activities developed with the partner; dyspareunia, vaginal dryness and sexual frequency. For statistical analysis, the General Linear Models for Repeated Measures, Analysis of Variance (ANOVA), Multinomial Logistic Regression Models and Pearson Chi square were employed. A 5% significance level was adopted. Results: In groups EP and EP+A, was observed an increase in the sexual desire score linked exclusively to activities developed with the partner (F=18,334; p<0,001), sexual excitation (F=14,002; p<0,001), orgasmic capacity (F=34,650; p < 0,001) and in sexual frequency (F=7,687; p=0,008), as well as an reduction in vaginal dryness (x2=44,153; p < 0,001), dyspareunia (x2=34,447; p < 0,001) and in the Kupperman menopausal index (F=158,460; p < 0,001). Comparative analysis between groups EP and EP+A revealed a greater sexual interest not linked exclusively to activities with the partner (x2=11,551; p=0,021) and higher Castelli I index (F=8,542; p < 0,001) and Castelli II index (F=11,500; p<0,001) in group EP+A. Neither hirsutism nor alopecia were noticed in either group; Class I acne was observed in two women of group EP and in 13 of group EP+A. Conclusion: Hormone therapy with estrogen and progesterone derivatives used singly or together with methyltestosterone had a positive result on all sexual parameters and on climacteric symptoms analyzed. Association of methyltestosterone to estrogen-progesterone treatment increased sexual interest not linked exclusively to activities with the partner and Castelli I and II indexes. No difference between the two groups in the other parameters studied was demonstrated
"The effect of hormone replacement therapy on lipoprotein (a) and other atherogenic lipids and lipoproteins in postmenopausal Chinese women." Chinese University of Hong Kong, 1996. http://library.cuhk.edu.hk/record=b5888772.
Повний текст джерелаThesis (M.D.)--Chinese University of Hong Kong, 1996.
Includes bibliographical references (leaves 239-279).
LIST OF TABLES --- p.xviii
LIST OF FIGURES --- p.xxi
LIST OF ABBREVIATIONS --- p.xxii
Chapter CHAPTER1 --- INTRODUCTION --- p.1
Problems related to the menopause
Research plan
Chapter CHAPTER2 --- OVERVIEW --- p.15
Introduction
Atherosclerosis and the lipid profile
Coronary artery disease and lipid abnormalities in women
"Exogenous oestrogens, progestogens and coronary artery disease "
Lipoprotein (a)
Chapter CHAPTER3 --- GENERAL METHODOLOGY --- p.134
Recruitment of cases
Pharmacokinetics
Data collection and analysis of samples
Ethical considerations
Chapter CHAPTER4 --- STUDY I -THE SHORT TERM EFFECTS OF ORAL OESTROGEN --- p.157
Crossover analysis of effects of oral oestrogen on lipoprotein (a) and other lipoproteins
Relationship between lipoprotein (a) and other lipids and lipoproteins
Chapter CHAPTER5 --- STUDY II -THE SUSTAINED EFFECTS OF ORAL OESTROGEN --- p.186
Analysis of prolonged effects of oral oestrogen on lipoprotein (a) and other lipids and lipoproteins
Chapter CHAPTER6 --- STUDY III -THE EFFECTS OF COMBINED CYCLICAL HORMONE REPLACEMENT THERAPY --- p.196
Analysis of effect of combined cyclical hormone replacement therapy on lipoprotein (a) and other lipids and lipoproteins
Comparison between sampling during oestrogen alone and combined phase of treatment
Chapter CHAPTER7 --- STUDY IV -THE EFFECTS OF PERCUTANEOUS OESTROGEN --- p.214
Analysis of effect of percutaneous on lipoprotein (a) and other lipids and lipoproteins
Chapter CHAPTER8 --- SUMMARY AND CONCLUSIONS --- p.228
BIBLIOGRAPHY --- p.239
"Modification of anticancer drug sensitivity of human prostate cancer cells by estrogen related compounds." 1998. http://library.cuhk.edu.hk/record=b5889640.
Повний текст джерелаThesis (M.Phil.)--Chinese University of Hong Kong, 1998.
Includes bibliographical references (leaves 117-123).
Abstract also in Chinese.
Acknowledgeements --- p.i
Abbreviations --- p.ii
Abstract --- p.v
List of Figures --- p.viii
List of Tables --- p.xiv
Contents --- p.xv
Contents
Chapter 1. --- Introduction --- p.1
Chapter 1.1 --- Epidemiological Risk Factors --- p.1
Chapter 1.1.1 --- Age --- p.1
Chapter 1.1.2 --- Race --- p.2
Chapter 1.1.3 --- Environmental or Migratory Factor --- p.2
Chapter 1.1.4 --- Diet --- p.2
Chapter 1.1.5 --- Genetics --- p.3
Chapter 1.2 --- Regulation of Normal Prostate Development and Function --- p.4
Chapter 1.3 --- Biochemistry and Development of Prostate Cancer --- p.6
Chapter 1.3.1 --- Androgen-Dependent Prostate Cancer --- p.6
Chapter 1.3.2 --- Androgen-Independent Prostate Cancer --- p.8
Chapter 1.4 --- Classification of Prostate Cancer --- p.9
Chapter 1.4.1 --- Stage A Prostate Cancer --- p.10
Chapter 1.4.2 --- Stage B Prostate Cancer --- p.10
Chapter 1.4.3 --- Stage C Prostate Cancer --- p.11
Chapter 1.4.4 --- Stage D Prostate Cancer --- p.11
Chapter 1.5 --- Methods for Early Detection of Prostate Cancer --- p.12
Chapter 1.6 --- Clinical Treatment of Prostate Cancer --- p.12
Chapter 1.6.1 --- Surgery --- p.12
Chapter 1.6.2 --- Radiotherapy --- p.13
Chapter 1.6.3 --- Chemotherapy --- p.13
Chapter 1.6.4 --- Hormonal Therapy --- p.13
Chapter 1.7 --- Objective --- p.14
Chapter 1.8 --- Estrogen and Its Related Compounds --- p.16
Chapter 1.8.1 --- 17β-Estradiol --- p.16
Chapter 1.8.2 --- Tamoxifen --- p.18
Chapter 1.8.3 --- Aromatase Inhibitor --- p.20
Chapter 1.9 --- Anticancer Drugs --- p.23
Chapter 1.9.1 --- Doxorubicin --- p.23
Chapter 1.9.2 --- cis-Platinum --- p.24
Chapter 1.10 --- Apoptotic Pathways --- p.25
Chapter 1.10.1 --- BCL-2 /BAD Pathway --- p.26
Chapter 1.10.2 --- FADD Pathway --- p.27
Chapter 1.10.3 --- CAS Pathway --- p.27
Chapter 2. --- Materials and Methods --- p.28
Chapter 2.1 --- Materials --- p.28
Chapter 2.2 --- Cell Lines --- p.32
Chapter 2.3 --- Preparation of Drugs --- p.32
Chapter 2.4 --- Drug Sensitivity Assay --- p.33
Chapter 2.5 --- Cell Cycle Analysis --- p.35
Chapter 2.6 --- DNA Fragmentation Assay --- p.36
Chapter 2.7 --- Annexin Binding Assay --- p.37
Chapter 2.8 --- Western Blot Analysis --- p.38
Chapter 2.9 --- Data Analysis --- p.41
Chapter 3. --- Results --- p.42
Chapter 3.1 --- Response of Human Androgen-Independent Prostate Cancer Cells to Doxorubicin and cis-Platinum --- p.42
Chapter 3.2 --- The Effect of 17p-Estradiol on the Growth and Anticancer Drug Sensitivity of Human Androgen-Independent Prostate Cancer Cells --- p.45
Chapter 3.2.1 --- 17β-Estradiol on Cell Growth --- p.45
Chapter 3.2.2 --- 17β-Estradiol on Anticancer Drug Sensitivity --- p.45
Chapter 3.2.3 --- 17β-Estradiol and Doxorubicin on Cell Cycle Progression --- p.51
Chapter 3.2.4 --- 17β-Estradiol and Doxorubicin Induced DNA Fragmentation --- p.57
Chapter 3.2.5 --- 17β-Estradiol and Doxorubicin on Annexin Staining --- p.59
Chapter 3.2.6 --- 17β-Estradiol and Doxorubicin on Apoptotic Protein Expression --- p.62
Chapter 3.3 --- The Effect of Tamoxifen on the Growth and Anticancer Drug Sensitivity of Human Androgen-Independent Prostate Cancer Cells --- p.64
Chapter 3.3.1 --- Tamoxifen on Cell Growth of Human --- p.65
Chapter 3.3.2 --- Tamoxifen on Anticancer Drug Sensitivity --- p.65
Chapter 3.3.3 --- Tamoxifen and Doxorubicin on Cell Cycle Progression --- p.71
Chapter 3.3.4 --- Tamoxifen and Doxorubicin Induced DNA Fragmentation --- p.76
Chapter 3.3.5 --- Tamoxifen and Doxorubicin on Annexin Staining --- p.78
Chapter 3.3.6 --- Tamoxifen and Doxorubicin on Apoptotic Protein Expression --- p.79
Chapter 3.4 --- The Effect of Aromatase Inhibtiors on the Growth and Anticancer Drug Sensitivity of Human Androgen-Independent Prostate Cancer Cells --- p.81
Chapter 3.4.1 --- Aromatase Inhibitors on Cell Growth --- p.81
Chapter 3.4.2 --- Aromatase Inhibitors on Anticancer Drug Sensitivity --- p.83
Chapter 3.4.3 --- 4-AcA and Doxorubicin on Cell Cycle Progression --- p.93
Chapter 3.4.4 --- 4-AcA and Doxorubicin Induced DNA Fragmentation --- p.99
Chapter 3.4.5 --- 4-AcA and Doxorubicin on Annexin Staining --- p.100
Chapter 3.4.6 --- 4-AcA and Doxorubicin on Apoptotic Protein Expression --- p.102
Chapter 4. --- Discussion --- p.105
Chapter 4.1 --- 17 β-Estradiol and Anticancer Drug Sensitivity --- p.106
Chapter 4.2 --- Tamoxifen and Anticancer Drug Sensitivity --- p.109
Chapter 4.3 --- Aromatase Inhibitors and Anticancer Drug Sensitivity --- p.112
Chapter 4.4 --- DU145 Cells vs PC3 Cells --- p.115
Chapter 5. --- Conclusion and Perspectives --- p.116
Chapter 6. --- References --- p.117
"Effect of phytochemicals on estrogen biosynthesis in human breast cancer and placental cells." Thesis, 2005. http://library.cuhk.edu.hk/record=b6074044.
Повний текст джерелаBreast cancer is one of the most common cancers affecting women. Estrogen plays an important role in breast cancer initiation and development. The majority of breast tumors are initially dependent upon estrogen to support their growth. Most breast cancers occur in the postmenopausal period. However, the intra-tumoral estradiol (E2) is maintained at a high level equivalent to the pre-menopausal status. High intra-tumoral E2 level in postmenopausal women is sustained by the biosynthesis of estrogens in the tumorous tissue.
Genistein and Biochanin A, ranged from 0.1 to 10 muM, might act as estrogen agonist and induced aromatase activity and promoter I.1 transactivation in ERalpha-transfected SK-BR-3 cells. (Abstract shortened by UMI.)
The aromatase enzyme, CYP19, belongs to a family of P450 enzyme. As a final rate-limiting step in estrogen biosynthesis, it catalyzes the conversion of C 19 steroids to estrogens. The expression of CYP19 is tissue-specific, and is regulated by alternate promoter usage. The use of aromatase inhibitors for breast cancer treatment has become a major therapeutic approach.
The consumption of some phytochemicals protects against breast cancer. Yet the mechanisms are far from clear. In my present study, various phytochemicals, including phytoestrogens, monoterpenes and carotenoids, were evaluated for their effect on aromatase.
Wang Yun.
"July 2005."
Adviser: Lai-Kwok Leung.
Source: Dissertation Abstracts International, Volume: 67-07, Section: B, page: 3716.
Thesis (Ph.D.)--Chinese University of Hong Kong, 2005.
Includes bibliographical references (p. 145-169).
Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web.
Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web.
Abstract in English and Chinese.
School code: 1307.
"Selective estrogen receptor modulators, nitric oxide and vascular reactivity." 2004. http://library.cuhk.edu.hk/record=b6073649.
Повний текст джерела"August 2004."
Thesis (Ph.D.)--Chinese University of Hong Kong, 2004.
Includes bibliographical references (p. 182-215).
Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web.
Mode of access: World Wide Web.
Abstracts in English and Chinese.
Harris, Janet Elizabeth. "The effect of estrogen replacement therapy on vitamin B-6 status of postmenopausal women." Thesis, 1990. http://hdl.handle.net/1957/27135.
Повний текст джерелаGraduation date: 1990
"The anti-tumor effects of arsenic trioxide on human breast adenocarcinoma cell line, MCF-7." 2002. http://library.cuhk.edu.hk/record=b5891310.
Повний текст джерелаThesis (M.Phil.)--Chinese University of Hong Kong, 2002.
Includes bibliographical references (leaves 203-221).
Abstracts in English and Chinese.
Acknowledgements --- p.i
Abstract --- p.ii
Abstract in Chinese --- p.iv
List of Abbreviations --- p.vi
Table of Contents --- p.xi
List of Figures --- p.xviii
List of Tables --- p.xxii
Chapter CHAPTER 1 --- INTRODUCTION --- p.1
Chapter 1.1 --- The Characteristics of Arsenic Trioxide (AS2O3) --- p.2
Chapter 1.2 --- The Therapeutic Applications of Arsenic Trioxide (As203) --- p.5
Chapter 1.3 --- Acute Promyelocytic Leukemia (APL) --- p.6
Chapter 1.3.1 --- Pathologies of APL --- p.7
Chapter 1.3.2 --- All Trans Retinoic Acid (ATRA) Treatment of APL Patients --- p.7
Chapter 1.3.3 --- Clinical Trials of Arsenic Trioxide (As203) on APL Patients --- p.9
Chapter 1.3.4 --- In Vitro and In Vivo Studies of Arsenic Trioxide (As203) in the Treatment of APL --- p.10
Chapter 1.3.4.1 --- Induction of Apoptosis --- p.11
Chapter 1.3.4.2 --- Induction of Cell Differentiation --- p.11
Chapter 1.3.5 --- General Toxicity and Side Effects of Arsenic Trioxide (AS2O3) on APL Patients --- p.12
Chapter 1.4 --- Effects of Arsenic Trioxide (As203) on Other Primary Cancer Cells and Cancer Cell Lines --- p.12
Chapter 1.5 --- Epidemiology of Breast Cancer --- p.14
Chapter 1.6 --- Classification of Breast Cancer --- p.17
Chapter 1.7 --- Etiology of Breast Cancer --- p.17
Chapter 1.8 --- Hormones and Breast Cancer --- p.18
Chapter 1.9 --- Estrogen Receptors (ER) --- p.20
Chapter 1.9.1 --- Structures of Estrogen Receptors (ER) --- p.21
Chapter 1.9.2 --- Estrogen Receptors (ER) Mediated Signaling Pathway --- p.22
Chapter 1.9.2.1 --- Ligand Dependent Pathway --- p.22
Chapter 1.9.2.2 --- Ligand Independent Pathway --- p.22
Chapter 1.9.2.3 --- Estrogen Response Element (ERE)-Independent Pathway --- p.23
Chapter 1.9.2.4 --- Non-Genomic Pathway --- p.23
Chapter 1.9.3 --- Estrogen Receptors (ER) Regulated Gene Expression --- p.25
Chapter 1.10 --- Current Therapy of Breast Cancer --- p.26
Chapter 1.10.1 --- Hormonal Therapy (Anti-Estrogenicity) --- p.26
Chapter 1.10.1.1 --- Tamoxifen --- p.26
Chapter 1.10.1.2 --- Other Pure Anti-Estrogens --- p.28
Chapter 1.10.2 --- Regulation of Estrogen Receptors (ER) and Transcription Coregulators --- p.29
Chapter 1.10.3 --- Apoptosis Induction --- p.29
Chapter 1.11 --- Aims of Study --- p.30
Chapter CHAPTER 2 --- MATERIALS AND METHODS --- p.32
Chapter 2.1 --- Materials --- p.33
Chapter 2.1.1 --- Cell Lines and Culture Media --- p.33
Chapter 2.1.1.1 --- Cell Lines --- p.33
Chapter 2.1.1.2 --- Culture Media --- p.34
Chapter 2.1.2 --- Chemicals --- p.35
Chapter 2.1.3 --- Reagents and Buffers --- p.36
Chapter 2.1.3.1 --- Reagents for MTT Assay --- p.36
Chapter 2.1.3.2 --- Reagents for [methyl-3H] Thymidine Incorporation into DNA --- p.37
Chapter 2.1.3.3 --- Reagents for Trypan Blue Exclusion Assay --- p.37
Chapter 2.1.3.4 --- Reagents and Buffers for Western Blot Analysis --- p.37
Chapter 2.1.3.5 --- Reagents and Buffers for Flow Cytometry --- p.40
Chapter 2.1.3.6 --- Reagents and Buffers Reverse Transcription Polymerase Chain Reaction (RT-PCR) --- p.40
Chapter 2.1.3.7 --- Reagents for Transfection and Luciferase Reporter Assay --- p.41
Chapter 2.1.3.8 --- Reagents and Buffers for In Vivo Studies --- p.42
Chapter 2.2 --- Methods --- p.42
Chapter 2.2.1 --- In Vitro Studies --- p.42
Chapter 2.2.1.1 --- Cell Treatment --- p.42
Chapter 2.2.1.2 --- Drug Preparation --- p.43
Chapter 2.2.1.3 --- MTT Assay --- p.43
Chapter 2.2.14 --- Trypan Blue Exclusion Assay --- p.44
Chapter 2.2.1.5 --- [methyl-3H] Thymidine Incorporation into DNA --- p.45
Chapter 2.2.1.6 --- Detection of DNA Fragmentation --- p.45
Chapter 2.2.1.7 --- ERα Competitive Binding Assay --- p.47
Chapter 2.2.1.8 --- Cell Cycle Analysis by Flow Cytometry with Propidium Iodide (PI) Staining --- p.48
Chapter 2.2.1.9 --- Cell Cycle Analysis by Flow Cytometry with Annexin V-PI Staining --- p.48
Chapter 2.2.1.10 --- Cell Cycle Analysis by Flow Cytometry with JC-1 Staining --- p.49
Chapter 2.2.1.11 --- Cell Cycle Analysis by Flow Cytometry with Hydroethidine (HE) Staining --- p.50
Chapter 2.2.1.12 --- Western Blot Analysis of Proteins --- p.50
Chapter 2.2.1.13 --- Assessment of the Transcriptional Activity of ERα --- p.55
Chapter 3.2.1.14 --- Reverse Transcription Polymerase Chain Reaction (RT-PCR) --- p.57
Chapter 2.2.2 --- In Vivo Studies --- p.61
Chapter 2.2.2.1 --- Animal Models --- p.61
Chapter 2.2.2.2 --- Treatment Schedules --- p.61
Chapter 2.2.2.3 --- Sacrifice of Nude Mice --- p.61
Chapter 2.2.2.4 --- Enzymatic Assays --- p.62
Chapter 2.2.2.4.1 --- Aspartate Transaminase (AST) --- p.63
Chapter 2.2.2.4.2 --- Alanine Transaminase (ALT) --- p.64
Chapter 2.2.2.4.3 --- Creatine Kinase (CK) --- p.65
Chapter 2.2.2.4.4 --- Lactate Dehydrogenase (LDH) --- p.66
Chapter CHAPTER 3 --- "Effects of Arsenic Trioxide (As203) on Human Breast Adenocarcinoma Cell Line, MCF-7 Cell Line" --- p.68
Chapter 3.1 --- Introduction --- p.69
Chapter 3.2 --- Effect of As203 on Cell Survival of MCF-7 cells by MTT Assay --- p.70
Chapter 3.3 --- Cytotoxicity of As203 on MCF-7 Cells by Trypan Blue Exclusion Assay --- p.72
Chapter 3.4 --- Effect of As203 on DNA Synthesis and Cell Proliferation of MCF-7 cells by [methyl-3H] Thymidine Incorporation into DNA --- p.76
Chapter 3.5 --- Comparison of Cytotoxicity of AS2O3 on MCF-7 Cells with that of Tamoxifen --- p.79
Chapter 3.6 --- Summary --- p.82
Chapter CHAPTER 4 --- Effects of Arsenic Trioxide (As203) on 17β Estradiol Stimulated MCF-7 cells --- p.83
Chapter 4.1 --- Introduction --- p.84
Chapter 4.2 --- Effect of 17β estradiol on Cell Viability of MCF-7 Cells by MTT Assay --- p.86
Chapter 4.3 --- Effect of As203 and 17β Estradiol on Cell Survival of MCF-7 Cells by MTT Assay --- p.88
Chapter 4.4 --- Cytotoxicity of As203 on 17β Estradiol Stimulated MCF-7 cells by Cell Number Counting with Hemacytometer --- p.92
Chapter 4.5 --- Growth Inhibitory Effect of As203 on 17β Estradiol stimulated MCF-7 cells by [methyl-3H] Thymidine Incorporation into DNA --- p.94
Chapter 4.6 --- "Effect of As203 on Cell Survival of Hormone Independent Breast Cancer Cell Line, MDA-MB-231 Cells" --- p.96
Chapter 4.7 --- Summary --- p.100
Chapter CHAPTER 5 --- Effects of Arsenic Trioxide (As203) on Normal Cells --- p.102
Chapter 5.1 --- Introduction --- p.103
Chapter 5.2 --- "Effect of As203 on Normal Human Fibroblast Cell Line, Hs68" --- p.104
Chapter 5.3 --- Effects of As203 on the Normal Cells of Nude Mice --- p.106
Chapter 5.3.1 --- Effect of AS2O3 on Aspartate Transaminase (AST) Activity of Nude Mice --- p.107
Chapter 5.3.2 --- Effect of As203 on Alanine Transaminase (ALT) Activity of Nude Mice --- p.109
Chapter 5.3.3 --- Effect of As203 on Creatine Kinase (CK) Activity of Nude Mice TABLE OF CONTENTS --- p.111
Chapter 5.3.4 --- Effect of As203 on Lactate Dehydrogenase (LDH) Activity of Nude Mice --- p.113
Chapter 5.4 --- Summary --- p.115
Chapter CHAPTER 6 --- Action Mechanisms underlying the Survival Inhibitory Effects of Arsenic Trioxide (As203) on MCF-7 cells --- p.116
Chapter 6.1 --- Introduction --- p.117
Chapter 6.2 --- Detection of Apoptosis --- p.119
Chapter 6.2.1 --- Detection of DNA Fragmentation --- p.119
Chapter 6.2.2 --- Phosphatidylserine (PS) Externalization Detected by Flow Cytometry with Annexin V-PI Staining --- p.124
Chapter 6.2.2.1 --- The Principle --- p.124
Chapter 6.2.2.2 --- PS Externalization upon AS2O3 Treatment --- p.126
Chapter 6.3 --- Analysis of Cell Cycle Distribution of MCF-7 Cells --- p.130
Chapter 6.3.1 --- The Principle --- p.130
Chapter 6.3.2 --- Regulation of Cell Cycle Distribution of MCF-7 Cells upon As2O3 Treatment --- p.131
Chapter 6.4 --- The Action Mechanisms Underlying As203 Induced Apoptosis or Cell Cycle Arrest --- p.137
Chapter 6.4.1 --- Effect of As203 on Mitochondrial Membrane Potential of MCF-7 Cells --- p.137
Chapter 6.4.2 --- Regulation of Free Oxidative Species (ROS) Production in MCF-7 Cells upon AS2O3 Treatment --- p.140
Chapter 6.4.2.1 --- Analysis of Superoxide Production in MCF-7 Cells upon AS2O3 Treatment by Flow Cytometry with Hydroethidine (HE) Staining --- p.140
Chapter 6.4.2.2 --- Effect of As203 on Cell Survival of MCF-7 Cells Co-treated with N-Acteyl-L-Cysteine (NAC) by MTT Assay --- p.143
Chapter 6.4.3 --- Regulation of Bcl-2 Protein Level in MCF-7 Cells upon As2O3 Treatment --- p.145
Chapter 6.4.4 --- Regulation of p53 Protein Level in MCF-7 Cells upon AS2O3 Treatment --- p.147
Chapter 6.5 --- Summary --- p.149
Chapter CHAPTER 7 --- Effects of Arsenic Trioxide (As203) on Estrogen Receptor a (ERα) Mediated Signaling Pathway in MCF-7 cells --- p.150
Chapter 7.1 --- Introduction --- p.151
Chapter 7.2 --- Effect of As203 on Estrogen Binding to Estrogen Receptor a (ERα) by ERα Competitive Binding Assay --- p.152
Chapter 7.3 --- Regulation of Estrogen Receptor a (ERα) mRNA Level upon As2O3 Treatment by RT-PCR --- p.156
Chapter 7.4 --- Regulation of Estrogen Receptor a (ERα) Protein Level upon As2O3 Treatment --- p.159
Chapter 7.5 --- Regulation of Estrogen Receptor a (ERα) Transcriptional Activity upon AS2O3 treatment --- p.161
Chapter 7.6 --- "Regulation of Estrogen Target Gene, c-myc, Protein Level upon As2O3 Treatment" --- p.164
Chapter 7.7 --- Effects of As203 on Cell Cycle Distribution of MCF-7 Cells under Estrogens Stimulation --- p.167
Chapter 7.8 --- Summary --- p.173
Chapter CHAPTER 8 --- Discussion --- p.174
Chapter 8.1 --- The Anti-Tumor Effects of As203 on MCF-7 Cells --- p.175
Chapter 8.2 --- Cytotoxicity of As203 on MCF-7 Cells --- p.175
Chapter 8.2.1 --- Induction of Apoptosis in MCF-7 Cells upon As2〇3 Treatment --- p.176
Chapter 8.2.2 --- Action Mechanisms Underlying the Induction of Apoptosis by As2〇3 --- p.178
Chapter 8.3 --- Growth Inhibition of As203 on MCF-7 Cells --- p.182
Chapter 8.3.1 --- Cell Cycle Regulation of MCF-7 Cells upon As203 Treatment --- p.182
Chapter 8.4 --- Growth Inhibitory Effects of As203 on Estrogen Stimulated MCF-7 Cells --- p.186
Chapter 8.4.1 --- Regulation of Estrogen Receptor a (ERα) Signaling Pathway in MCF-7 cells upon as2o3 Treatment --- p.188
Chapter 8.5 --- Cross Talk of ERα Signaling Pathway and Apoptosis in Mediating the Anti-Tumor Effects of As203 on MCF-7 Cells --- p.195
Chapter 8.6 --- Toxicity of AS2O3 towards Normal Tissues --- p.197
Chapter CHAPTER 9 --- Conclusion and Future Perspectives --- p.200
Chapter 9.1 --- Conclusion --- p.200
Chapter 9.2 --- Future Perspectives --- p.202
References --- p.203
"Modulation of vascular reactivity by selective estrogen receptor modulators and dihydropyridines in porcine coronary arteries." 2005. http://library.cuhk.edu.hk/record=b5892728.
Повний текст джерелаThesis (M.Phil.)--Chinese University of Hong Kong, 2005.
Includes bibliographical references (leaves 128-147).
Abstracts in English and Chinese.
Declaration --- p.i
Acknowledgements --- p.ii
Abbreviation --- p.iii
Abstract in English --- p.iv
Abstract in Chinese --- p.vi
Contents --- p.viii
Chapter Chapter I - --- Introduction
Chapter 1.1. --- Steroid Hormone --- p.1
Chapter 1.2. --- Estrogen Receptors --- p.2
Chapter 1.3. --- Selective Estrogen Receptor Modulators --- p.5
Chapter 1.3.1. --- Tamoxifen --- p.5
Chapter 1.3.1.1. --- Cardiovascular Effects of Tamoxifen --- p.6
Chapter 1.3.1.2. --- Acute Vascular Effects of Tamoxifen --- p.6
Chapter 1.3.1.3. --- Chronic Vascular Effects of Tamoxifen --- p.7
Chapter 1.3.1.4. --- Antioxidant Effects of Tamoxifen --- p.8
Chapter 1.3.2. --- Raloxifene --- p.8
Chapter 1.3.2.1. --- Cardiovascular Effects of Raloxifene --- p.8
Chapter 1.3.2.2. --- Acute Vascular Effects of Raloxifene --- p.9
Chapter 1.3.2.3. --- Chronic Vascular Effects of Raloxifene --- p.10
Chapter 1.3.2.4. --- Ovariectomy and Raloxifene Treatment --- p.11
Chapter 1.4. --- Mechanism of Action of SERMs --- p.15
Chapter 1.5. --- Effects of Functional Endothelium and Nitric Oxide --- p.18
Chapter 1.6. --- Dihydropyridine (DHP) Calcium Channel Antagonists --- p.19
Chapter 1.6.1. --- Development of Newer Generation of Dihydropyridines --- p.19
Chapter 1.6.2. --- Effects of Dihydropyridines on Vascular Endothelium (I) --- p.20
Chapter 1.6.3. --- Effects of Dihydropyridines on Vascular Endothelium (II) --- p.21
Chapter 1.6.4. --- Effects of Dihydropyridines on Nitric Oxide Synthase (NOS) --- p.21
Chapter 1.6.5. --- Clinical Studies of Dihydropyridines --- p.22
Chapter 1.7. --- Vascular Ion Channels --- p.25
Chapter 1.8. --- Objectives of The Present Study --- p.26
Chapter Chapter II - --- Materials and Methods
Chapter 2.1. --- Tissue Preparation --- p.27
Chapter 2.1.1. --- Preparation of The Porcine Left Circumflex Coronary Arteries --- p.27
Chapter 2.1.2. --- Removal of Functional Endothelium --- p.27
Chapter 2.1.3. --- Organ Bath Setup --- p.27
Chapter 2.1.4. --- Isometric Force Measurement --- p.29
Chapter 2.2. --- In situ Endothelial [Ca2+]i Imaging --- p.29
Chapter 2.2.1. --- Preparation of Porcine Left Circumflex Coronary Arteries --- p.29
Chapter 2.2.2. --- Setup For In situ Endothelial [Ca2+]i Imaging --- p.30
Chapter 2.3. --- Electrophysiological Measurement of BKCa Current --- p.31
Chapter 2.3.1. --- Enzymatic Dissociation of Coronary Artery Smooth Muscle Cells --- p.31
Chapter 2.3.2. --- Electrophysiological Measurement --- p.31
Chapter 2.4. --- DPPH Free Radical Scavenging Assay --- p.31
Chapter 2.5. --- Solutions and Drugs --- p.32
Chapter 2.5.1. --- "Drugs, Chemicals and Enzymes" --- p.32
Chapter 2.5.2. --- Solutions Used in Force Measurement --- p.34
Chapter 2.6. --- Statistical Analysis --- p.34
Chapter Chapter III - --- Tamoxifen-Induced Endothelial Nitric Oxide-Dependent Relaxation in Porcine Coronary Arteries via Ouabain- and BaCl2-Sensitive Mechanisms
Chapter 3.1. --- Abstract --- p.35
Chapter 3.2. --- Introduction --- p.36
Chapter 3.3. --- Methods and Materials --- p.37
Chapter 3.3.1. --- Vessel Preparation --- p.37
Chapter 3.3.2. --- Isometric Force Measurement --- p.38
Chapter 3.3.3. --- In situ Endothelial [Ca2+]i Imaging --- p.39
Chapter 3.3.4. --- Chemicals --- p.40
Chapter 3.3.5. --- Data Analysis --- p.40
Chapter 3.4. --- Results --- p.41
Chapter 3.4.1. --- Relaxant Responses --- p.41
Chapter 3.4.2. --- Effects of Inhibitors of NO-Dependent Relaxation --- p.41
Chapter 3.4.3. --- Effects of Putative K+ Channel Blockers and Ouabain --- p.41
Chapter 3.4.4. --- "Effects of Ouabain, Removal of Extracellular K+ Ions and BaCI2" --- p.42
Chapter 3.4.5. --- SNP-Induced Relaxation --- p.42
Chapter 3.4.6. --- Effects of Actinomycin D and Cycloheximide --- p.42
Chapter 3.4.7. --- Relaxant Effect of 17β-Estradiol --- p.43
Chapter 3.4.8. --- Effects on Endothelial [Ca2+]i in Isolated Coronary Arteries With Endothelium --- p.43
Chapter 3.5. --- Discussion --- p.53
Chapter Chapter IV - --- Endothelium-Independent Relaxation to Raloxifene in Porcine Coronary Arteries
Chapter 4.1. --- Abstract --- p.57
Chapter 4.2. --- Introduction --- p.58
Chapter 4.3. --- Methods and Materials --- p.59
Chapter 4.3.1. --- Vessel Preparation --- p.59
Chapter 4.3.2. --- Isometric Force Measurement --- p.60
Chapter 4.3.3. --- Electrophysiological Measurement of BKCa Current --- p.61
Chapter 4.3.3.1. --- Enzymatic Dissociation of Coronary Artery Smooth Muscle --- p.61
Chapter 4.3.3.2. --- Electrophysiological Measurement --- p.62
Chapter 4.3.4. --- Chemicals --- p.63
Chapter 4.3.5. --- Data Analysis --- p.63
Chapter 4.4. --- Results --- p.64
Chapter 4.4.1. --- Effect of Raloxifene on Agonist-Induced Contractions --- p.64
Chapter 4.4.2. --- Role of Endothelium --- p.64
Chapter 4.4.3. --- Effect of ER Antagonist --- p.65
Chapter 4.4.4. --- Effect of Putative K+ Channel Blockers --- p.65
Chapter 4.4.5. --- Effect of Elevated Extracellular K+ Concentrations --- p.65
Chapter 4.4.6. --- Effects of Raloxifene on BKCa Current --- p.65
Chapter 4.5. --- Discussion --- p.75
Chapter Chapter V - --- Therapeutic Concentrations of Raloxifene Augment Bradykinin Mediated Nitric Oxide-Dependent Relaxation in Porcine Coronary Arteries
Chapter 5.1. --- Abstract --- p.78
Chapter 5.2. --- Introduction --- p.79
Chapter 5.3. --- Methods and Materials --- p.80
Chapter 5.3.1. --- Vessel Preparation --- p.80
Chapter 5.3.2. --- Isometric Force Measurement --- p.80
Chapter 5.3.3. --- In situ Endothelial [Ca2+]i Imaging --- p.81
Chapter 5.3.4. --- Free Radical Scavenging Assay --- p.82
Chapter 5.3.5. --- Chemicals --- p.83
Chapter 5.3.6. --- Data Analysis --- p.83
Chapter 5.4. --- Results --- p.84
Chapter 5.4.1. --- Relaxation to Bradykinin --- p.84
Chapter 5.4.2. --- Effect of Raloxifene on Bradykinin-Induced Relaxation --- p.84
Chapter 5.4.3. --- Effect of Raloxifene on Relaxation Induced by Substance P and --- p.85
Chapter 5.4.4. --- Effect of Estrogen on Bradykinin-Induced Relaxation --- p.85
Chapter 5.4.5. --- Effect of Raloxifene on Sodium Nitroprusside-Induced Relaxation --- p.86
Chapter 5.4.6. --- Free Radical Scavenging Effect --- p.86
Chapter 5.4.7. --- Raloxifene Augmentation of Bradykinin-Stimulated Endothelial [Ca2+]i --- p.86
Chapter 5.5. --- Discussion --- p.99
Chapter Chapter VI - --- "Cilnidipine, a Slow-Acting Ca2+ Channel Blocker, Induces Relaxation in Porcine Coronary Arteries: Role of Endothelial Nitric Oxide and [Ca2+]i"
Chapter 6.1. --- Abstract --- p.102
Chapter 6.2. --- Introduction --- p.103
Chapter 6.3. --- Methods and Materials --- p.104
Chapter 6.3.1. --- Vessel Preparation --- p.104
Chapter 6.3.2. --- Isometric Force Measurement --- p.105
Chapter 6.3.3. --- In situ Endothelial [Ca2+]i Imaging --- p.106
Chapter 6.3.4. --- Free Radical Scavenging Assay --- p.107
Chapter 6.3.5. --- Chemicals --- p.108
Chapter 6.3.6 --- Data Analysis --- p.108
Chapter 6.4. --- Results --- p.108
Chapter 6.4.1. --- Relaxant Responses --- p.108
Chapter 6.4.2. --- Role of the Endothelium --- p.109
Chapter 6.4.3. --- Effect of Inhibitors of NO-Dependent Relaxation --- p.109
Chapter 6.4.4. --- Effect of Indomethacin and w-conotoxin --- p.110
Chapter 6.4.5. --- Effect of Cilnidipine on Sodium Nitroprusside-Induced Relaxation --- p.110
Chapter 6.4.6. --- Effects on Endothelial [Ca2+]i in Isolated Endothelium-Intact Coronary Arteries --- p.110
Chapter 6.4.7. --- Free Radical Scavenging Effect --- p.110
Chapter 6.5. --- Discussion --- p.120
Chapter Chapter VII - --- General Summary --- p.123
References --- p.128
"Effect of phytoestrogens on low-density- lipoprotein receptor and apolipoprotein A-I expression in HepG2 cells." 2005. http://library.cuhk.edu.hk/record=b5896408.
Повний текст джерелаThesis (M.Phil.)--Chinese University of Hong Kong, 2005.
Includes bibliographical references (leaves 108-125).
Abstracts in English and Chinese.
TITLE PAGE --- p.1
ACKNOWLEGDEMENTS --- p.2
ABSTRACT --- p.3
摘要 --- p.5
table of contents --- p.7
list of figures and tables --- p.13
CHAPTER 1 GENERAL INTRODUCTION --- p.16
Chapter 1.1 --- role of PHYTOESTROGENS in soy and red WINE the PREVENTION OF CARDIOVASCULAR DISEASES (CVD) --- p.17
Chapter 1.1.1 --- INTRoduction and Classification of Phytoestrogens --- p.17
Chapter 1.1.2 --- estrogenic1ty of phytoestrogens and theIr abundancesin Plasma --- p.18
Chapter 1.1.3 --- phytoestrogens as one of the active components In cvd Protection --- p.21
Chapter 1.1.4 --- effects of Phytoestrogens on LDL Receptor and Apolipoprotein A-1 --- p.22
Chapter 1.2 --- role of estrogen receptors (ers) in gene regulation --- p.24
Chapter 1.2.1 --- "structure, Classification and tissue distribution of ERS" --- p.24
Chapter 1.2.2 --- ligands for ERS --- p.25
Chapter 1.2.3 --- mechaniSMS OF LIgands-ERS complex in GENE regulation --- p.27
Chapter 1.2.4 --- ligand-independent ER activation --- p.28
Chapter 1.3 --- aims and scopes of investigation --- p.29
Chapter CHAPTER 2 --- MATERIALS AND METHODS --- p.30
Chapter 2.1 --- chemicals and materials --- p.30
Chapter 2.1.1 --- Chemicals --- p.30
Chapter 2.1.2 --- Plasmids --- p.30
Chapter 2.2 --- mammalian cell culture maintainence --- p.30
Chapter 2.2.1 --- Maintenance of Cells --- p.31
Chapter 2.2.2 --- Preparation of Cell Stock --- p.31
Chapter 2.2.3 --- Cell Recovery from Liquid Nitrogen Stock --- p.31
Chapter 2.3 --- manipulation of dna --- p.31
Chapter 2.3.1 --- isolation of HEPG2 cells genonmic DNA --- p.31
Chapter 2.3.2 --- separation and purification of dna from agarose gel --- p.31
Chapter 2.3.3 --- Restriction digestionof DNA --- p.32
Chapter 2.3.4 --- Ligation of DNA Fragments --- p.32
Chapter 2.3.5 --- Transformation of --- p.32
Chapter 2.3.6 --- Small Scale Plasmids Purification from DH5a --- p.32
Chapter 2.4 --- construction of expression and reporter plasmids --- p.33
Chapter 2.4.1 --- Construction of Estrogen Receptorα (Erα) Expression Vectors --- p.33
Chapter 2.4.2 --- construction of reporter vectors of LDLR promoter and the Respective Mutants --- p.33
Chapter 2.4.3 --- Construction of Reporter Vectors of APOAI Promoter and the Respective Mutants --- p.33
Chapter 2.5 --- determination of promoter transcrtiption activities --- p.34
Chapter 2.5.1 --- Transient Transfection of Cell with ERa Expression Vector and Promoter Reporter using Lipofectamine PLUS Reagent --- p.34
Chapter 2.5.2 --- Dual Luciferase Assay --- p.34
Chapter 2.6 --- semi-quantitative and quantitative rt-pcr assay --- p.34
Chapter 2.6.1 --- Transient transfection of Cell with ERa Expression Vector Using Lipofectamine PLUS Reagent --- p.34
Chapter 2.6.2 --- "Isolation of RNA using TRIzol® Reagent (Life Technology, USA)" --- p.35
Chapter 2.6.3 --- Quantitation of RNA --- p.35
Chapter 2.6.4 --- First Strand cDNA Synthesis --- p.35
Chapter 2.6.5 --- Sem卜Quantitative PCR Reactions --- p.35
Chapter 2.6.6 --- Quantitative PCR Reactions --- p.36
Chapter 2.7 --- western blotting analysis --- p.36
Chapter 2.8 --- statistical methods --- p.36
Chapter CHAPTER 3 --- REGULATION BY PHYSIOLOGICAL LEVEL OF 17B-ESTRADIOL ON APOLIPOPROTEIN A-I AND LOW-DENSITY- LIPOPROTEIN RECEPTOR IN HEPG2 CELLS --- p.37
Chapter 3.1 --- introduction --- p.37
Chapter 3.2 --- results --- p.39
Chapter 3.2.1 --- Determination of transient transfection functionality of estrogen receptors in hepg2 cells --- p.39
Chapter 3.2.2 --- Effect of 17β-Estradiolon LDLR promoter transcription activity --- p.39
Chapter 3.2.3 --- Effect of 17β-Estradiol on apoai promoter transcription activity --- p.40
Chapter 3.2 --- discussion --- p.47
Chapter CHAPTER 4 --- SOY ISOFLAVONES AND RESVERATROL DISPLAY DIFFERENT MECHANISM IN THE UP-REGULATION OF LOVV-DENSITY-LIPOPROTEIN RECEPTOR IN HEPG2 CELLS --- p.49
Chapter 4.1 --- introduction --- p.49
Chapter 4.2 --- results --- p.54
Chapter 4.2.1 --- Association of ERα and isoflavones or resveratrol on LDLR promoter transcription activity --- p.54
Chapter 4.2.2 --- Association of ERβ and isoflavones or resveratrol on LDLR promoter transcription activity --- p.54
Chapter 4.2.3 --- "Role of MAP Kinase, PKA and PKC in isoflavones and resveratrol induced LDLR promoter transcription" --- p.55
Chapter 4.2.4 --- Identification of promoter regions responsible for induction of LDLR transcription by isoflavones in the presence OF ERα --- p.55
Chapter 4.2.5 --- Identification of promoter regions responsible for induction of LDLR TRANSCRIPTION BY resveratrol IN THE ABSENCE OF ERα --- p.56
Chapter 4.3 --- DISCUSSION --- p.75
Chapter CHAPTER 5 --- SOY ISOFLAVONES AND RESVERATROL UP-REGULATE APOLIPOPROTEIN A-I SIMILAR TO 17B-ESTRADIOL IN HEPG2 CELLS --- p.80
Chapter 5.1 --- INTRODUCTION --- p.80
Chapter 5.2 --- RESULTS --- p.84
Chapter 5.2.1 --- Association of ERα phytoestrogens on APCAI gene expression --- p.84
Chapter 5.2.2 --- Association of ERβ and isoflavones or resveratrol on APOAI promoter transcription activity --- p.85
Chapter 5.2.3 --- "Role of MAP Kinase, PKA and PKC in isoflavones and resveratrol in APOAI promoter transcription in the presence of ERα" --- p.85
Chapter 5.2.4 --- Identification of promoter regions responsible for induction of APOAI transcription by isoflavones and resveratrol in the presence of ERα --- p.85
Chapter 5.3 --- DISCUSSION --- p.100
Chapter CHAPTER 6 --- GENERAL DISCUSSION --- p.103
Chapter CHAPTER 7 --- SUMMARY --- p.106
BIBLIOGRAPHY --- p.108
APPENDIX 1 ABBREVIATIONS --- p.126
APPENDIX 2 MATERIALS AND METHODS --- p.129
APPENDIX 3 PRIMER LISTS --- p.145
APPENDIX 4 REAGENTS AND BUFFERS --- p.147
"Flavonoids display differential actions on er transactivation and apoptosis in MCF-7 cells." 2002. http://library.cuhk.edu.hk/record=b5896009.
Повний текст джерелаThesis (M.Phil.)--Chinese University of Hong Kong, 2002.
Includes bibliographical references (leaves 142-152).
Abstracts in English and Chinese.
TITLE PAGE --- p.p.1
ACKNOWLEGDEMENTS --- p.p.2
ABSTRACT --- p.p.3
摘要 --- p.p.6
TABLE OF CONTENTS --- p.p.9
LIST OF FIGURES AND TABLES --- p.p.16
Chapter CHAPTER 1 --- GENERAL INTRODUCTION
Chapter 1.1 --- Estrogen and Estrogen Receptors and its Action --- p.p.18
Chapter 1.1.1 --- Estrogen --- p.p.19
Chapter 1.1.2 --- Estrogen Receptors --- p.p.19
Chapter 1.1.3 --- Structural Differences between ERa and ERp --- p.p.21
Chapter 1.1.4 --- Functional Differences --- p.p.22
Chapter 1.1.5 --- Effects of Selective Estrogen Receptor Modulators --- p.p.22
Chapter 1.1.6 --- Estrogen works --- p.p.23
Chapter 1.1.7 --- Estrogen Receptors and Breast Cancer --- p.p.24
Chapter 1.2 --- Flavonoids: Properties and Biological Activities --- p.p.25
Chapter 1.2.1 --- Chemical Structure and Classification of flavonoids --- p.p.25
Chapter 1.2.2 --- Biological Properties and Action Mechanism of Flavonoids… --- p.p.27
Chapter 1.2.3 --- Flavonoids and breast cancer prevention --- p.p.27
Chapter 1.3 --- Aims and Scopes of Investigation --- p.p.29
Chapter CHAPTER 2 --- MATERIALS AND METHODS
Chapter 2.1 --- Chemicals --- p.p.30
Chapter 2.1.1 --- Flavonoids --- p.p.30
Chapter 2.1.2 --- Plasmids --- p.p.30
Chapter 2.2 --- Mammalian cell culture --- p.p.31
Chapter 2.2.1 --- Maintenance of cells --- p.p.31
Chapter 2.2.2 --- Preparation of cell stock --- p.p.32
Chapter 2.2.3 --- Cell recovery from liquid nitrogen stock --- p.p.32
Chapter 2.3 --- Identification of estrogenic activity in flavonoids --- p.p.33
Chapter 2.3.1 --- Steady Glo Luciferase Assay --- p.p.33
Chapter 2.3.2 --- The Biorad Protein Assay kit (a modified Bradford method). --- p.p.33
Chapter 2.4 --- Viability Assay --- p.p.34
Chapter 2.5 --- ERE Luciferase reporter gene assay --- p.p.35
Chapter 2.5.1 --- Transient transfect ion of cell using lipofectamine PLUS reagent --- p.p.36
Chapter 2.5.2 --- Dual Luciferase Assay --- p.p.37
Chapter 2.6 --- ERα competitive binding ASSAY --- p.p.37
Chapter 2.7 --- Apoptotic death assay --- p.p.38
Chapter 2.8 --- Semi-quantitative RT-PCR Assay --- p.p.40
Chapter 2.8.1 --- "Isolation of RNA using TRIzol® Reagent (Life Technology,USA) " --- p.p.40
Chapter 2.8.2 --- Quantitation of RNA --- p.p.41
Chapter 2.8.3 --- First strand cDNA synthesis --- p.p.41
Chapter 2.8.4 --- PCR reactions --- p.p.43
Chapter 2.9 --- Flow Cytometry Analysis --- p.p.43
Chapter 2.10 --- Total triglyceride and cholesterol measurement --- p.p.44
Chapter 2.10.1 --- Determination of the total cholesterol --- p.p.45
Chapter 2.10.2 --- Determination of the total triglyceride --- p.p.46
Chapter 2.11 --- Manipulation of DNA and RNA --- p.p.46
Chapter 2.11.1 --- Transformation of DH5α --- p.p.46
Chapter 2.11.2 --- Mini preparation of plasmid DNA --- p.p.47
Chapter 2.11.3 --- Preparation of plasmid DNA using QIAGEN-tip 100 midi-prep kit --- p.p.48
Chapter 2.11.4 --- Preparation of plasmid DNA using QIAGEN-tip 10000 Giga-prep kit --- p.p.49
Chapter 2.11.5 --- Ethanol preparation of DNA and RNA --- p.p.50
Chapter 2.11.6 --- Agarose gel electrophoresis of DNA --- p.p.51
Chapter 2.12 --- Statistical methods --- p.p.52
Chapter CHAPTER 3 --- Estrogenic and antiproliferative activities on MCF-7 breast cancer cells by flavonoids
Chapter 3.1 --- Introduction --- p.p.53
Chapter 3.2 --- Results --- p.p.56
Screening of phytoestrogens for estrogenic activities on MELN cells --- p.p.56
Cell proliferation activity of phytoestrogens on MCF-7 and MDA-MA231 cells --- p.p.59
Estrogenic and antiestrogenic activity of phytoestrogens on ERα or erβ transfected hepg2 cells --- p.p.64
Chapter 3.3 --- Discussion --- p.p.73
Chapter Chapter 4 --- interaction of baicalein with estrogen receptors
Chapter 4.1 --- Introduction --- p.p.76
Chapter 4.2 --- Results --- p.p.78
Estrogen receptor competition assay --- p.p.78
ERE-Luciferase gene reporter assay --- p.p.82
Chapter 4.3 --- Discussion --- p.p.88
Chapter Chapter 5 --- baicalein and genistein display differential actions on er transactivation
Chapter 5.1 --- Introduction --- p.p.90
Chapter 5.2 --- Results --- p.p.92
Estrogenic and antiestrogenic activities of genistein and baicalein on ER transactivation --- p.p.92
Chapter 5.3 --- Discussion --- p.p.105
Chapter CHAPTER 6 --- APOPTOTIC EFFECTS OF BAICALEIN ON MCF-7 AND MDA-MB-231 CELL LINES
Chapter 6.1 --- Introduction --- p.p.107
Chapter 6.2 --- Results --- p.p.111
ER POSITIVE MCF-7 AND ER NEGATIVE MDA-MB-231 cell death assay --- p.p.111
"Bcl-2, Bax and PS2 mRNA expression " --- p.p.116
Arrest at sub G1 phase of MCF-7 by baicalein --- p.p.124
Chapter 6.3 --- Discussion --- p.p.127
Chapter CHAPTER 7 --- BAICALEIN CAN REDUCE INTRACELLULAR cholesterol and triglceride
Chapter 5.1 --- Introduction --- p.p.129
Chapter 5.2 --- Results --- p.p.130
Baicalein has beneficial effect on lipid metabolism --- p.p.130
Chapter 5.3 --- Discussion --- p.p.139
Chapter chapter 8 --- Summary --- p.p.140
BIBLIOGRAPHY --- p.p.142
APPENDIX 1 ABBREVIATIONS --- p.p.153
APPENDIX 2 PRIMER LISTS --- p.p.156
APPENDIX 3 REAGENTS AND BUFFERS --- p.p.157
Robarge, Jason Dennis. "Aromatase inhibitors produce hypersensitivity in experimental models of pain : studies in vivo and in isolated sensory neurons." Thesis, 2014. http://hdl.handle.net/1805/6056.
Повний текст джерелаAromatase inhibitors (AIs) are the current standard of care for the treatment of hormone receptor positive breast cancer in postmenopausal women. Nearly one-half of patients receiving AI therapy develop musculoskeletal toxicity that is characterized by joint and/or muscle pain and approximately one-fourth of patients discontinue their therapy as a result of musculoskeletal pain. Since there are no effective strategies for prevention or treatment, insight into the mechanisms of AI-induced pain is critical to improve treatment. However, there are few studies of AI effects in animal models of nociception. To determine whether AIs produce hypersensitivity in animal models of pain, I examined the effects of AI administration on mechanical, thermal, and chemical sensitivity in rats. The results demonstrate that (1) repeated injection of 5 mg/kg letrozole in male rats produces mechanical, but not thermal, hypersensitivity that extinguishes when drug dosing is stopped; (2) administering a single dose of 1 or 5 mg/kg letrozole in ovariectomized (OVX) rats also induces mechanical hypersensitivity, without altering thermal sensitivity and (3) a single dose of 5 mg/kg letrozole or daily dosing of letrozole or exemestane in male rats augments flinching behavior induced by intraplantar ATP injection. To determine whether the effects of AIs on nociceptive behaviors are mediated by activation or sensitization of peptidergic sensory neurons, I determined whether letrozole exposure alters release of calcitonin gene-related peptide (CGRP) from isolated rat sensory neurons and from sensory nerve endings in rat spinal cord slices. No changes in basal, capsaicin-evoked or high extracellular potassium-evoked CGRP release were observed in sensory neuronal cultures acutely or chronically exposed to letrozole. Furthermore, letrozole exposure did not alter the ability of ATP to augment CGRP release from sensory neurons in culture. Finally, chronic letrozole treatment did not augment neuropeptide release from spinal cord slices. Taken together, these results do not support altered release of this neuropeptide into the spinal cord as mediator of letrozole-induced mechanical hypersensitivity and suggest the involvement of other mechanisms. Results from this dissertation provide a new experimental model for AI-induced hypersensitivity that could be beneficial in delineating mechanisms mediating pain during AI therapy.
Κουσίδου, Όλγα. "Βιοχημική και κυτταρική μελέτη της διαμεσολαβούμενης σηματοδότησης από οιστρογονοϋποδοχείς στον καρκίνο του μαστού". Thesis, 2007. http://nemertes.lis.upatras.gr/jspui/handle/10889/3769.
Повний текст джерела