Academic literature on the topic 'Progeroid cockayne syndrome'
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Journal articles on the topic "Progeroid cockayne syndrome"
Domino, Joseph S., Rose Gelineau-Morel, and Christian Kaufman. "Deep Brain Stimulation for Cockayne Syndrome-Associated Movement Disorder." Journal of Movement Disorders 15, no. 1 (January 31, 2022): 62–65. http://dx.doi.org/10.14802/jmd.21005.
Full textZayoud, Khouloud, Asma Chikhaoui, Ichraf Kraoua, Anis Tebourbi, Dorra Najjar, Saker Ayari, Ines Safra, et al. "Immunity in the Progeroid Model of Cockayne Syndrome: Biomarkers of Pathological Aging." Cells 13, no. 5 (February 26, 2024): 402. http://dx.doi.org/10.3390/cells13050402.
Full textChatre, Laurent, Denis S. F. Biard, Alain Sarasin, and Miria Ricchetti. "Reversal of mitochondrial defects with CSB-dependent serine protease inhibitors in patient cells of the progeroid Cockayne syndrome." Proceedings of the National Academy of Sciences 112, no. 22 (May 18, 2015): E2910—E2919. http://dx.doi.org/10.1073/pnas.1422264112.
Full textKamenisch, York, Maria Fousteri, Jennifer Knoch, Anna-Katharina von Thaler, Birgit Fehrenbacher, Hiroki Kato, Thomas Becker, et al. "Proteins of nucleotide and base excision repair pathways interact in mitochondria to protect from loss of subcutaneous fat, a hallmark of aging." Journal of Experimental Medicine 207, no. 2 (January 25, 2010): 379–90. http://dx.doi.org/10.1084/jem.20091834.
Full textPascucci, Barbara, Francesca Spadaro, Donatella Pietraforte, Chiara De Nuccio, Sergio Visentin, Paola Giglio, Eugenia Dogliotti, and Mariarosaria D’Errico. "DRP1 Inhibition Rescues Mitochondrial Integrity and Excessive Apoptosis in CS-A Disease Cell Models." International Journal of Molecular Sciences 22, no. 13 (July 1, 2021): 7123. http://dx.doi.org/10.3390/ijms22137123.
Full textAndressoo, Jaan-Olle, Geert Weeda, Jan de Wit, James R. Mitchell, Rudolf B. Beems, Harry van Steeg, Gijsbertus T. J. van der Horst, and Jan H. Hoeijmakers. "An Xpb Mouse Model for Combined Xeroderma Pigmentosum and Cockayne Syndrome Reveals Progeroid Features upon Further Attenuation of DNA Repair." Molecular and Cellular Biology 29, no. 5 (December 29, 2008): 1276–90. http://dx.doi.org/10.1128/mcb.01229-08.
Full textWilson, David M., and Vilhelm A. Bohr. "Special Issue on the segmental progeria Cockayne syndrome." Mechanisms of Ageing and Development 134, no. 5-6 (May 2013): 159–60. http://dx.doi.org/10.1016/j.mad.2013.04.002.
Full textShamanuru, Latha Gowdru, Veeresh Babu Doddamane, and Veeranna Preeti. "Cockayne syndrome, xeroderma pigmentosa: a rare case report." International Journal of Contemporary Pediatrics 8, no. 3 (February 23, 2021): 569. http://dx.doi.org/10.18203/2349-3291.ijcp20210666.
Full textde Waard, Harm, Jan de Wit, Jaan-Olle Andressoo, Conny T. M. van Oostrom, Bente Riis, Allan Weimann, Henrik E. Poulsen, Harry van Steeg, Jan H. J. Hoeijmakers, and Gijsbertus T. J. van der Horst. "Different Effects of CSA and CSB Deficiency on Sensitivity to Oxidative DNA Damage." Molecular and Cellular Biology 24, no. 18 (September 15, 2004): 7941–48. http://dx.doi.org/10.1128/mcb.24.18.7941-7948.2004.
Full textPhan, Tamara, Fatima Khalid, and Sebastian Iben. "Nucleolar and Ribosomal Dysfunction—A Common Pathomechanism in Childhood Progerias?" Cells 8, no. 6 (June 4, 2019): 534. http://dx.doi.org/10.3390/cells8060534.
Full textDissertations / Theses on the topic "Progeroid cockayne syndrome"
Fernández, Molina Cristina. "Mechanisms of precocious ageing in a human progeroid syndrome." Electronic Thesis or Diss., Sorbonne université, 2021. https://accesdistant.sorbonne-universite.fr/login?url=https://theses-intra.sorbonne-universite.fr/2021SORUS282.pdf.
Full textDissecting the molecular defects in rare genetic disorders like Cockayne syndrome (CS), in which ageing is dramatically accelerated, is critical to develop treatments, which are missing to date, and elucidate dysfunctions that are possibly implicated in physiological ageing. CS also displays a large spectrum of clinical severity which does not rely on simple genotype/phenotype correlation. This project is based on a working model established in the lab that identified CS-specific depletion of the mitochondrial DNA polymerase POLG1 leading to mitochondrial dysfunction, as a possible cause of CS progeroid defects. POLG1 depletion required overexpression of the HTRA3 protease, which was trigged by increased oxidative/nitrosative stress. Scavenging both reactive species, rescued these defects and opened the path to a treatment for CS. This PhD work: i) Contributed to the discovery that the CS-defective pathway is recapitulated in replicative senescence of normal cells, a process linked to regular aging. ii) Identified the mechanism of HTRA3-dependent POLG1 degradation in CS and senescent cells with implications for POLG1 homeostasis in normal cells. iii) Developed multiple isogenic cellular models (skin fibroblasts, induced pluripotent stem cells and cerebral organoids) with CRISPR-Cas9 that are essential for mechanistic studies and to address genotype/phenotype correlations, in the absence of a reliable mouse model for CS. Taken together, these studies provide novel insights into the mechanisms leading to defects in progeroid CS and their links with physiological ageing. They also establish unique CS models for studying CS pathogenesis
Annab, Karima. "Etude de l’expression génique de différents syndromes progéroïdes en utilisant le modèle des cellules souches à pluripotence induite." Thesis, Aix-Marseille, 2019. http://www.theses.fr/2019AIXM0101.
Full textProgeroid syndromes are a group of pathologies characterized by accelerated and early aging. One of the most studied of these diseases is HGPS, with an estimated incidence of 1 in 8 millions birth making it an extremely rare disease. We focused our attention on three different progeroid syndromes including classic HGPS, a HGPS-like and an atypical progeroid syndrome. These pathologies share many symptoms, including osteolysis, lipodystrophy, and cardiovascular alterations. These 3 syndromes are caused by 3 different mutations in the LMNA gene that encodes A- and C-type lamins, inducing production of a truncated Lamin A in HGPS and HGPS-like and production of a mutated Lamin with a p.T528M substitution in APS. We produced hiPSCs to create a model of these different diseases and investigate in vitro the physiopathology of these syndromes by comparing them to control cells. Cells derived from mesenchymal stem cells being the most impaired type of tissue, we established in vitro models in order to study the differentiation of hiPSCs into MSCs. In addition given the massive cardiovascular defects in these patients, we also investigated differentiation toward the VSMCs. Cell phenotypes were carefully characterized and we compared the transcripttomic profile of the different cell types. We identified dysregulation in genes involved in oxidative stress response and in DNA repair in progeroid cells. In addition, pathways essential for cell survival and proliferation are also modified when comparing progeroid and controls cells. Altogether, these results might explain some of the symptoms observed in progeroid patients but also reveal pathways involved in ageing
Lopez, Mejia Isabel Cristina. "Alternative splicing of LMNA gene : lessons from a new mouse model of Hutchinson-Gilfort progeria syndrome." Thesis, Montpellier 2, 2011. http://www.theses.fr/2011MON20077.
Full textAging is a complex cellular and organismal process that can be influenced by environmental as well as genetic factors. A striking proof-of-concept that splicing regulation plays an important role in the aging process is provided by Hutchinson-Gilford progeria syndrome (HGPS), a disease caused by a heterozygous silent mutation that enhances the use of an internal 5' splice site in exon 11 of LMNA pre-mRNA and leads to the production of a truncated protein called “progerin”. The LMNA splicing defect also occurs with increased frequency in cells from healthy aged individuals and correction of this defect leads to partial reversal of age-related dysfunction. This makes LMNA pre-mRNA an attractive target for splicing-correction therapies. During my PhD thesis I have characterized the splicing mechanism responsible for progerin production and demonstrated that this process is conserved from mouse to human. I have found that HGPS mutation changes the accessibility of the exon 11 internal 5' splice site, allowing its modulation by U1 snRNP and a subset of SR proteins, namely SRSF6 and SRSF1. I have also participated to the characterization of a new mouse model reproducing human HGPS splicing alteration in the mouse Lmna gene. Strikingly, this model recapitulates all phenotypic manifestations of HGPS. The homozygous mice, where most lamin A is converted to progerin, lived no longer than 5 months, whereas heterozygous mice lived in average one year and wild type littermates up to two years. Unexpectedly, mice expressing neither lamin A nor progerin, but only lamin C, lived longer than wild type littermates mice, suggesting that lamin A and progerin which are produced from the same transcript, control critical steps of lifespan. Furthermore, initial characterization of HGPS mouse model indicated that progerin expression is deleterious for adipose tissue, establishing an unexpected link between adipose tissue depletion and accelerated aging. The new mouse model is currently being used for pharmacological modulation of LMNA aberrant splicing by antisense oligonucleotides and small molecules
Books on the topic "Progeroid cockayne syndrome"
Sybert, Virginia P. Premature Aging. Oxford University Press, 2012. http://dx.doi.org/10.1093/med/9780195397666.003.0012.
Full textSybert, Virginia P. Premature Aging. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780190276478.003.0012.
Full textBook chapters on the topic "Progeroid cockayne syndrome"
"Cockayne Syndrome: Its Overlap with Xeroderm a Pigmentosum and Other Progeroid Syndromes." In Molecular Mechanisms of Cockayne Syndrome, 99–108. CRC Press, 2009. http://dx.doi.org/10.1201/9781498712705-13.
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