Добірка наукової літератури з теми "Squamous cell lung cancer, prognosis, NGS, RICTOR"

3597 Background: Approximately 20% to 50% of patients with advanced lung cancer develop brain metastases, which are associated with debilitating neurologic impairment and a dismal prognosis. There have been very limited studies investigating the genomics of brain metastases in lung cancer. Methods: We comprehensively investigated the frequency of PI3K/AKT/RICTOR/mTOR pathway aberrations in primary and metastatic sites using an extensive database of 11845 cases of lung adenocarcinoma by NGS (FoundationOne). The potential roles of RICTOR amplification in the development of brain metastases were studied both in vitro and in vivo in orthotopic mouse models. Results: Compared to the primary tumor, PI3K/AKT/mTOR gene alterations were more frequent in metastatic sites, with particular enrichment noted in brain metastases. RICTOR amplification alone accounted for the observed higher frequency both in brain metastases (brain vs. primary: 9.73% vs 3.50%, P = 2.6E-14; brain vs. other mets: 9.73% vs. 7.3%, P = 0.03) and other metastatic sites (other mets vs. primary: 7.3% vs.3.5%, P = 10E-15), whereas the frequency of PTEN, AKT1, PK3CA or mTOR genetic alterations was not different in the primary tumor, brain and other metastatic sites. In vitro, inducible RICTOR knockdown in H23 lung cancer cells (parental line with RICTOR amplification) was associated with reduced cell migration and invasion, whereas upregulation of RICTOR in HCC827 lung cancer cells (parental line with normal RICTOR copy numbers) was associated with an increase of both processes. These results were confirmed with pharmacological inhibition using mTOR1/2 inhibitors with known CNS penetration. In vivo, both inducible ablation of RICTOR and the mTOR1/2 inhibitor TAK228 (Sapanisertinib) significantly inhibited lung cancer H23-R4-Luc tumor growth in the brain, including a number of near complete responses. Mechanistic studies suggest that RICTOR may regulate the brain metastasis process through AKT and CXCL12 chemokine-CXCR4 axis. Conclusions: RICTOR amplification is the first identified actionable target that is markedly enriched in brain metastases. Our study provides a strong rationale for the development of RICTOR-targeted therapeutic strategies for the treatment and/or prevention of these major causes of lung cancer morbidity and mortality.

9060 Background: Various gene alterations occur during the development of squamous cell lung cancer (SqLC), but specific gene alterations for SqLC and their clinical significance remain unknown. Methods: In a nationwide genome screening project (LC-SCRUM-Japan), we have prospectively analyzed lung cancer patients for genetic alterations using a next-generation sequencing (NGS) system, Oncomine Comprehensive Assay, and have established a large-scale clinico-genomic database. Results: Since February 2013 to December 2018, a total of 6692 lung cancer patients (686 SqLCs, 5360 non-squamous non-small cell lung cancers [Non-sq] and 646 small cell lung cancers [SCLCs]) had been enrolled in the LC-SCRUM-Japan. The success rate of the NGS assay was 91%. Of 639 SqLCs analyzed, 274 (48%) had potentially targetable gene alterations, including 77 NFE2L2 (encoding NRF2) mut, 50 PIK3CA mut, 46 FGFR1 amp, 40 EGFRmut/amp, 36 PTEN mut, 23 KRAS mut, 6 AKT1 mut, 6 MET ex14skip, 5 ALK fusions, 2 FGFR3 fusions. Among the alterations detected, NFE2L2 mut and FGFR1 amp were significantly frequent in SqLC than Non-sq or SCLC (NFE2L2, 12.1% vs. 1.0% vs. 1.3%; p < 0.001, and FGFR1, 7.2% vs. 1.1% vs. 3.4%; p < 0.001). In advanced SqLC patients who received platinum-containing chemotherapies, the median progression-free survival (mPFS) was significantly shorter in NFE2L2-mutated patients (NRF2-type) than NFE2L2/FGFR1-negative patients (nonNF-type) (3.8 [95%CI, 2.9-5.1] vs. 4.5 [95%CI, 3.8-5.4] months, p = 0.03), and similarly, the mPFS of FGFR1-amplified patients (FGFR1-type) (3.5 months [95%CI, 1.5-4.9]) tended to be shorter than that of nonNF-type (p = 0.07), although the response rates were equivalent among the three types. NRF2-type also showed shorter overall survival (OS) than nonNF-type (median OS, 10.4 [95%CI, 6.9-22.3] vs. 16.6 [95%CI, 13.6-21.7] months, p = 0.10). Therapeutic efficacy of nivolumab or pembrolizumab was not different among these types in the current follow-up data. Conclusions: Our large scale genome screening identified specific gene alterations for SqLC and the alterations were associated with a less efficacy of chemotherapy and worse prognosis, suggesting the need for the development of genotype-directed therapeutic strategy for SqLC patients.

e20659 Background: A nationwide lung cancer genomic screening project in Japan (LC-SCRUM-Japan) was established in 2013. The objective of this project is to contribute to the development of precision medicine through the genomic biomarker screening, leading to improvement of patient prognoses. Methods: Advanced non-squamous non-small cell lung cancer (non-sq NSCLC) without EGFR mutations were eligible for inclusion. The tumors were analyzed for ALK/ROS1/RET fusions using RT-PCR and FISH. Since March 2015, the samples were further subjected to a next-generation sequencing (NGS) system, Oncomine™ Comprehensive Assay. Since April 2016, MET exon 14 skipping ( MET skip) was also analyzed by RT-PCR. The clinical course and prognosis of patients were monitored every 6 month. Results:As of December, 2016, 3206 patients from 242 institutions across Japan had been enrolled. The success rates for RT-PCR and NGS were 94% (3020/3206) and 91% (1523/1666), respectively. ALK/ROS1/RET fusions were detected in 65 (2%)/116 (4%)/84 (3%), respectively. The NGS assay showed that 753 tumors (49%) had actionable gene alterations, including 184 KRAS (12%), 92 ERBB2 (6%), 73 BRAF (5%), 42 PIK3CA (3%), 11 NRAS (0.7%), 7 MAP2K1 mutations (0.5%) and 5 FGFR2/3 fusions (0.3%). ERBB2/MET/FGFR1 amplifications were also detected in 36 (3%)/28 (2%)/11 (1%) cases, respectively. The frequency of MET skip was 4% (26/597). Through this screening, a total of 576 genotype-matched patients to clinical trials of targeted agents were identified, and 111 of them (19%) were enrolled into the trials. Of the 1523 patients analyzed by NGS, the monitoring data were available in 870 (57%). The patients with actionable gene alterations who received targeted agents (n = 100) showed significantly longer survivals than those who did not receive targeted agents (n = 358) or the patients without actionable gene alterations (n = 412) (median survival [95%CI], 5.1 [3.0-N.R.] vs. 3.3 [2.1-5.9] vs. 2.3 [1.9-2.9] years, respectively; p < 0.01). Conclusions: Our nationwide screening contributes to the development of precision medicine for non-sq NSCLC and could improve patient prognoses.

Abstract Background: Lung adenosquamous carcinoma (LASC) is a mixed histologic component tumor type that contains both squamous cell carcinoma and adenocarcinoma, with each component accounting for at least 10% of tumors. The incidence of LASC is very low, only comprising 0.4-4% of all lung cancers. LASC yields a more aggressive clinical course, and its prognosis is generally worse than that of adenocarcinoma and squamous cell carcinoma of the lung. Due to the rarity of LASC, currently, there is no standard treatment. Also, to date, limited genomic data have been performed. In this study, we analyzed the genomic alterations and clinical signatures of LASC. Materials and Methods: Formalin-fixed, paraffin-embedded (FFPE) tumor tissues and matched blood samples were collected for a targeted, next-generation sequencing (NGS) assay at OrigiMed (Shanghai, China), a College of American Pathologists (CAP) accredited and Clinical Laboratory Improvement Amendments (CLIA) certified laboratory. Genomic alterations including single base substitution, indel, copy number variations, and gene fusion and rearrangement were assessed. Results: A total of 124 LASC patients were enrolled in our study, including 77 (62.1%) males and 47 (37.9%) females, with a median age of 61 years old (range 27-82). Forty-three (43, 34.68%) patients had a smoking history and half of patients possessed a Stage III/IV disease. The most commonly altered genes were TP53 (66.9%), EGFR (54.8%), CDKN2A (21%), TERT (21%), and LRP1B (18.5%). Surprisingly, 91.1% and 52.4% patients harbored at least one druggable alteration based on the solid cancer and NSCLC NCCN guides, respectively. The most frequent druggable mutation, EGFR, is comprised of 35 (51.47%) single mutations and 33 (48.53%) complexed mutations, with most containing a 19 exon deletion and EGFR amplification (12%). The median tumor mutational burden (TMB) of patients with LASC was 5.15 muts/Mb (range, 0-69.3 muts/Mb), and 33 (26.6%) patients were TMB-H (TMB ≥ 10 Muts/Mb). Patients with an ARID2, BRCA1, or KEAP1 mutation had a significantly higher value of TMB than wild type (median TMB 16.1 vs. 5 muts/Mb, 29.7 vs. 5 muts/Mb, 14.6 vs. 4.85 muts/Mb, respectively, P &lt; 0.05). Patients with HRR or DDR mutations also displayed a higher TMB value than for wild type. We additionally determined that mutation signature 1 (the clock-like signature), signature 2 (the APOBEC signature), and signature 3 (the BRCA mutational signature) exhibited a higher mutational load for the entire cohort. All patients with signature 2 or 3 displayed a HLA-B heterozygous subtype. Conclusions: Our study revealed genomic profiling for the largest sample size of Chinese LASC patients to date. Profiling obtained from this study demonstrates that LASC patients have the same chance for targeted therapy and immune checkpoint inhibitors as compared to lung adenocarcinoma and lung squamous cell carcinoma, respectively. Citation Format: Hongbiao Wang, Yingcheng Lin, Jun Liu, Yuyin Cai, Xiaofang Qi, Lujia Huang. The landscape of genetic alteration in Chinese lung adenosquamous carcinoma patients [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 5742.

e15222 Background: Multiple biomarkers are thought to be effective guides in selecting immune checkpoint inhibitors, such as Tumor mutational burden (TMB), PD-L1 and MSI/dMMR. Immunotherapy may be miraculous effective in some patients but many other patients experienced poor prognosis and even tumor overgrowth after immunotherapy in real practice. Previous studies have reported that 11q13 (CCND1, FGF3, FGF4, and FGF19) amplifications were associated with HPD. However, the characterization of chromosome 11q13 amplification in Chinese solid tumor patients are not clear. Methods: A total of 10167 Chinese solid tumor patients’ FFPE and matching blood samples sequenced by next-generation sequencing (NGS) targeting 450 cancer genes were included in this study. Genomic alterations including single nucleotide variants (SNV), insertions and deletions, copy number variations and fusions were assessed. The testing was carried out by a College of American Pathologists (CAP) accredited and Clinical Laboratory Improvement Amendments (CLIA) certified laboratory. Results: Chromosome 11q13 amplifications were identified in 679 (6.7%) Chinese solid tumor patients. The top six tumor types with 11q13 amplification were esophageal carcinoma 43.8%, melanoma 17%, urothelial carcinoma 16%, breast carcinoma 13.4%, head and neck carcinoma 13.1% and hepatocellular carcinoma 9.4%. In 2257 patients with TMB-H (10muts/Mb) / PD-L1 expression / MSI samples, chromosome 11q13 copy number gain were identified in 184 (8.2%) patients. Chromosome 11q13 amplification and MSI were independent events and didn't occur simultaneously. In TMB-H patients, the detection rate of 11q13 amplification was 8.5%, while in PD-L1 positive patients, the amplification rate of 11q13 was 7.4%. In patients with TMB-H and PD-L1 positive, the detection rate of 11q13 amplification was 9.4%. In our clinical practice, we saw example of HPD exist in a lung squamous cell carcinoma patient who was treated with multiple lines of therapy and then used the Nivolumab. The patient underwent genetic testing and was found to be chromosome 11q13 amplified. Conclusions: The proportion of 11q13 amplification was different in different types of solid tumor. Esophageal carcinoma, melanoma and urothelial carcinoma were top three types of solid tumors with 11q13 amplification. The 11q13 amplification did not coincide with MSI but it overlapped with PD-L1 expression or TMB-H. Together, these results may provide immunotherapy guidance in clinical practice.

e15098 Background: Analyze the characteristics of CUPS clinicopathology and gene mutation spectrum, and discuss CUPS drug treatment strategies. Methods: A retrospective analysis of the data of 30 patients with metastatic cancer of CUP admitted to our department from April 2015 to April 2020. Including clinicopathological characteristics, treatment process and methods, gene molecular information, follow-up survival period. The follow-up was until February 1, 2021 or the patient died. Results: The pathological types of these cases were adenocarcinoma (14/30,46.7%), squamous cell carcinoma (5/30, 16.7%), neuroendocrine carcinoma (3/30,10%), small cell carcinoma (2/30,6.7%), sarcomatoid carcinoma (2/30,6.7%), large cell carcinoma (1/30,3.3%), lymphoepithelial carcinoma (1/30,3.3%), and poorly differentiated carcinoma (2/30,6.7%) . The most predilection site was lymph nodes, accounting for 70%. Primary lesions were not found in 23 cases in the course of diagnosis and treatment. They were head and neck in 1 case, lung in 1 case, mammary gland in 1 case, digestive tract in 3 cases and thymus in 1 case. 23 patients received chemotherapy alone or combined with antiangiogenic therapy, 2 patients received molecular targeted agents, 1 patient received ICI combined with antiangiogenic therapy, and the remaining 4 patients died without antitumor therapy or gave up treatment. The survival time of 26 patients was between 1 to 143 months, and the median survival time was 8.6 months. The 1-year, 2-year, 3-year and 5-year OS rate were 40%, 20%, 6.7% and 3.3%, respectively. Mean survival time was significantly longer among patients without visceral metastasis vs. with visceral metastasis (15.6m vs. 7.3m, P = 0.023). OS rate were 70% vs. 25%, 30% vs. 15%, 20% vs. 0% and 10% vs. 0%, respectively. The median survival time were 18.3m (with targeted therapy), 8.8m (without targeted therapy), 23.2m (with primary lesion), 8.4m (without primary lesion), The 1-year, 2-year, 3-year and 5-year OS were 53.3% vs. 26.7%, 40% vs. 0%, 23.3% vs. 0% and 6.7% vs. 0% for patients with targeted therapy vs. without targeted therapy, respectively. The 1-year, 2-year, 3-year and 5-year OS were 85.7% vs. 261%, 42.9% vs. 13%, 28.6% vs. 0% and 14.3% vs. 0% for patients with primary lesion vs. without primary lesion, respectively. 20 patients were interrogated genes using NGS of ctDNA. 80% of patients exhibited ctDNA alterations; TP53-associated genes were most commonly altered (13/20,65%) followed by genes involved in the MAPK pathway (20%), PI3K signaling (10%) and the cell cycle machinery (5%). The genomic profiles help guide treatment in 4 cases. Conclusions: CUPS has a poor prognosis. The pathological type is mostly adenocarcinoma, and lymph node metastasis is the first diagnosis. Chemotherapy is still the main treatment method. Molecular detection is helpful for individualized treatment.

BackgroundThis study aims to profile integrative genomic spectra of Chinese patients with different subtypes of lung squamous cell carcinoma (LUSC) and explore potential molecular prognosis factors.MethodsWe retrospectively identified 204 surgically resected LUSC patients in Shanghai Chest Hospital who underwent capture-based targeted next-generation sequencing (NGS) with a panel of 68 lung cancer‐related genes from September 2017 to January 2019. NGS was used to profile comprehensive molecular characterizations.ResultsOf 204 cases, 114 (55.9%) were keratinizing squamous cell carcinoma (KSCC), 77 (37.7%) were non-keratinizing squamous cell carcinoma (NKSCC), 13 (6.4%) were basaloid squamous cell carcinoma (BSCC), respectively. All subtypes presented similarly high proportions of mutations, including TP53, CDKN2A, and NOTCH1. A comparable prevalence of FGFR1 amplifications was identified between KSCC and NKSCC (11.4 versus 26.9%, p = 0.007). Compared with NKSCC, IGF1R amplifications were more frequent in BSCC (0 versus 15.4%, p = 0.019). We found cases with TP53 alterations had less EGFR alterations in KSCC (P = 0.013, OR = 0.158). Compared with TCGA cohorts, our Chinese cohorts exhibited statistic differences in both somatic mutations and signaling pathways. We found that STK 11 alterations and TOP2A alterations were significantly associated with higher risk of recurrence in patients with LUSC.ConclusionsSignificant differences exist among three subtypes of LUSC in molecular characterizations.

BackgroundThe therapeutic efficacy of epidermal growth factor receptor tyrosine kinase inhibitors (EGFR-TKIs) in advanced EGFR-mutant lung squamous cell carcinoma (SCC) patients remains uncertain. Furthermore, the factors underlying the responsiveness have not been fully investigated. We therefore investigated the link between genomic profiles and EGFR-TKI efficacy.Material and MethodsWe consecutively enrolled stage IV, EGFR-mutant, and EGFR-TKI–treated patients with SCC. Patients with EGFR wild-type lung SCC and EGFR-mutant lung adenocarcinoma were consecutively enrolled as controls, and next-generation sequencing (NGS) was performed.ResultsIn total, 28 EGFR-mutant lung SCC, 41 EGFR-mutant lung adenocarcinoma, and 40 EGFR wild-type lung SCC patients were included. Among the patients with EGFR mutations, shorter progression-free survival (PFS) was observed in SCC compared to adenocarcinoma (4.6 vs. 11.0 months, P&lt;0.001). Comparison of the genomic profiles revealed that EGFR-mutant SCC patients had similar mutation characteristics to EGFR-mutant adenocarcinoma patients, but differed from those with EGFR wild-type SCC. Further exploration of EGFR-mutant SCC revealed that mutations in CREBBP (P = 0.005), ZNF217 (P = 0.016), and the Wnt (P = 0.027) pathway were negatively associated with PFS. Mutations in GRM8 (P = 0.025) were associated with improved PFS.ConclusionsEGFR-mutant lung SCC has a worse prognosis than EGFR-mutant adenocarcinoma. Mutations in other genes, such as CREBBP, ZNF217, GRM8, or Wnt that had implications on PFS raise the possibility of understanding mechanisms of resistance to EGFR-TKI in lung SCC, which will aid identification of potential beneficial subgroups of patients with EGFR-mutant SCCs receiving EGFR-TKIs.

Next-generation sequencing (NGS) has been implemented in clinical oncology for diagnosis, prognosis, and therapeutic guidance. Among the various NGS applications in molecular oncology, we focused on the following topics: laboratory standards for targeted gene panels (somatic mutations) and therapeutic guidance based on NGS of lung cancer and rare cancers, namely sarcomas and cancers of unknown primary. Multiple quality control checkpoints should be addressed in the pre-analytical phase for good quality and interpretation of the NGS results. It includes tumor size and cellularity, tissue processing and decalcification, tumor fraction, tumor viability, fixatives, and staining. Communication between clinicians and laboratory support is also essential. In lung cancer, all patients with non-squamous non-small cell lung cancer should be tested with a NGS panel, and it should include not only genes with approved targeted therapies (ALK, BRAF, EGFR, MET, NTRK, RET, and ROS1) but also genes with potentially actionable genomic alterations (HER2 and KRAS). Since there is a lack of extensive knowledge regarding the use of NGS in rare tumors performing comprehensive genomic profiling, NGS panels to better manage the disease are recommended. Moreover, other patients with other incurable solid tumors may benefit from being included in biomarker-driven clinical trials. Multidisciplinary tumor boards with the participation of experts with the ability to integrate genomic profiling data are essential to tailor the best strategy for each patient. Considering that there are no national guidelines, this article aims to guide laboratory and clinical practice for the use of NGS in the context of lung cancer, rare tumors, and cancer of unknown primary in Portugal.

Abstract Background Epidermal growth factor receptor (EGFR) amplification refers to the copy number increase of EGFR gene, and is often identified as a “bypass” way of Epidermal growth factor receptor Tyrosine kinase inhibitors (EGFR-TKI) resistance. We aimed to explore the effect of EGFR amplification on EGFR mutation treatment-naive advanced non-squamous non-small cell lung cancer (NSCLC) patients. Methods We conducted a prospective observational study in single center, enrolling advanced non-squamous NSCLC patients receiving Tyrosine kinase inhibitors (TKIs) between March 3, 2019, and February 1, 2022. Next-generation sequencing (NGS) was used to detect genetic alterations in tumor tissue samples. Progression-free survival (PFS) curves were performed using the Kaplan-Meier method. Univariate and multivariate analyses were used to evaluate factors affecting the efficacy of TKIs. Results A total of 117 treatment-naive advanced NSCLC patients were identified in this study. EGFR amplification was found in 22 of 117 (18.8%) patients with EGFR mutations. Of 22 patients with EGFR amplification, 10 patients harbored EGFR 19 del, 11 patients with 21-L858R. The median follow-up time was 22.47 months. The median PFS of the patients with or without EGFR amplification was 8.25 months and 10.67 months, respectively (log-rank test, P = 0.63). In multivariate analysis, EGFR amplification was not an independent prognosis factor for the patients receiving first-line TKIs [HR = 1.38, 95%CI (0.73–2.58), P = 0.321]. Subgroup analysis revealed that EGFR amplification is a risk factor for progression in the brain metastasis population. [HR = 2.28, 95%CI (1.01, 5.14), P = 0.047]. Conclusion EGFR amplification is not an independent prognosis factor for PFS in advanced non-squamous NSCLC patients receiving first-line TKIs. However, it is an independent risk factor for PFS in the brain metastasis population.