Mutations In Tumor Suppressor Gene Research Articles

Short report - Lethal and aggressive pancreatic cancer: molecular pathogenesis, cellular heterogeneity, and biomarkers of pancreatic ductal adenocarcinoma.

This short report describes the carcinogenesis of the pancreas leading to pancreatic ductal adenocarcinoma (PDAC) determined by molecular, cellular, and functional heterogeneity. Among the diverse types of pancreatic cancers, PDAC is the most lethal, aggressive, and one of the leading cancers associated with the highest mortality. Pancreatic cellular components like pancreatic stellate cells (PSC), mesenchymal stem cells (MSC), and pancreatic fibroblast cells (PFC) exhibit these properties in PDAC. After the appearance of point mutations in KRAS, the mutations in tumor suppressor genes appear sequentially in the order of CDKN2A, TP53, and SMAD4 that eventually resulting in PDAC development. As of today, there are no effective therapeutic options or treatments available for PDAC. The main difficulty in managing PDAC cases is its defiance to chemotherapy and radiotherapy. There were several attempts to identify a suitable biomarker for the early diagnosis and prognosis of PDAC. Anyway, these recently discovered biomarkers vary in their sensitivity and specificities. Some of the other important and reliable biomarkers for PDAC are carbohydrate antigen 19-9 (CA 19-9), carcinoembryonic antigen (CEA), cell migration-inducing hyaluronan binding protein (CEMIP), serum fatty acid metabolite PC-594, and micro-RNAs (miRNAs).

Impact of hyperthermic intraperitoneal chemotherapy on genomic heterogeneity of peritoneal metastases in stage IV gastroesophageal adenocarcinoma.

312 Background: Programmed death ligand 1 (PD-L1) expression and tumor mutational burden (TMB) are potential biomarkers for response to therapy. Heterogeneity of PD-L1 and TMB has been demonstrated in gastroesophageal adenocarcinoma (GEA) in response to systemic chemotherapy. With the increased use of hyperthermic intraperitoneal chemotherapy (HIPEC) for GEA peritoneal metastases (PM), we aimed to determine the effects of HIPEC on genomic heterogeneity of PM. Methods: This is a retrospective review of a prospectively maintained database of patients with stage IV GEA who underwent iterative laparoscopic HIPEC (mitomycin C 30 mg + cisplatin 200 mg, 60 minutes) between 2017 and 2021. PD-L1 status and TMB levels were reviewed from peritoneal tumor specimens collected prior to each HIPEC. PD-L1 status was defined as positive if combined positive score (CPS) was 1 or greater using the 22C3 pharmDx assay. TMB levels were defined as low, intermediate, or high for up to 5, 5 to 15, or over 15 mutations per megabase (m/MB), respectively. Potentially actionable and biologically relevant variants were reviewed, as well as overall survival, defined as time from diagnosis with stage IV disease to death from any cause. Results: 16 patients completed at least one HIPEC during the study period. Median age was 55.5 years (range 43-79), 50% were female, and 62.5% were Caucasian. All patients received at least one line of systemic chemotherapy after stage IV diagnosis and prior to first HIPEC. Median peritoneal cancer index at first HIPEC was 15 (range 3-39). Three patients completed only one HIPEC. Of the 13 who completed at least two HIPECs, 5 had sufficient tumor tissue for genomic analysis at two timepoints. Of those 5 patients, one exhibited a change in PD-L1 expression from positive to negative after HIPEC, and one exhibited an increase in TMB from low to intermediate. All 5 patients exhibited a change in the profile of potentially actionable or biologically relevant genetic variants, including gain or loss of mutations in DNA repair genes (RAD51), proto-oncogenes (MET), and tumor suppressor genes (ERBB3, IRS2). Median overall survival amongst the full cohort was 27.4 months, with median follow-up of 26.1 months. Overall survival was higher amongst those who underwent at least 2 HIPECs compared to only one, but this was not statistically significant. Conclusions: Amongst our cohort, only one patient exhibited a change in PD-L1 expression and one in TMB after HIPEC. However, HIPEC was associated with a change in genetic variant profiles in all evaluable patients. If confirmed in larger studies, this temporal genomic heterogeneity could inform the role of PD-L1, TMB, and other genetic variants as predictive biomarkers for therapy after HIPEC. Iterative laparoscopic HIPEC warrants further investigation as a treatment option after systemic therapy for GEA with peritoneal metastases.

Driver gene mutations in micro-invasive cervical squamous cancers have no prognostic significance

ObjectiveTo evaluate the prevalence of somatic gene mutations in different stages of cervical carcinogenesis placing special emphasis on micro-invasive pT1a cervical squamous cell cancers (SCC). MethodsMicro-dissected samples of 32 micro-invasive pT1a and 55 ≥ pT1b SCC were evaluated by next generation sequencing of 50 cancer genes (cancer hot spot panel). ResultsAt primary diagnosis, 8/32 (25%) pT1a SCC, 10/28 (36%) pT1b SCC and 15/27 (56%) pT2/3 SCC carried somatic gene mutations. The most commonly affected gene was the PIK3CA gene in hot spot regions E545K and E453K in 5/8 (62%) pT1a SCC, 7/15 (70%) pT1b SCC and 10/15 (66%) pT2/3 SCC followed by FBXW7 (n = 4), KRAS and RB1 (n = 2 each). ERBB2, APC, ATM, MLP gene mutations occurred only once. Solitary activating oncogenic somatic mutations dominated over tumor suppressor mutation in 88% pT1a, 80% pT1b and 60% pT2/3 SCC. Concomitant mutations involved typically an activating oncogenic mutation and an inactivating tumor-suppressor gene mutation. All patients with pT1a SCC are alive without evidence of disease after surgical treatment, independent of mutational status or lympho-vascular space invasion. ConclusionsActivating oncogenic gene mutations, in particular in the PIK3CA gene, occur early in cervical carcinogenesis. Although driver gene mutations bestow tumor cells with a growth advantage, early detection and complete removal of all cancer cells – with or without somatic gene mutations – are essential for cure. In contrast to advanced inoperable SCC, where PIK3CA driver gene mutations carry an adverse prognosis, the mutational status in surgically treated micro-invasive SCC is prognostically irrelevant.

MOLECULAR MECHANISMS UNDERLYING CANCER CELL RADIORESISTANCE

Radioresistance of the tumor cells remains a significant obstacle for the radiotherapy treatment of cancer. Radioresistance involves multiple genes, factors, and mechanisms that adapt cancer cells or tissues to radiotherapy-induced changes and develop resistance to ionizing radiation. The major studies of the effect of radiation on cells reported include the following areas: 1) the study of DNA damages and their repair; 2) mutations in tumor suppressor genes and radiation-induced oncogene expression; 3) the role of growth factors and cytokines; 4) violation of the cell cycle; 5) elucidation of the mechanisms of apoptosis and necrosis. This review aimed to provide a theoretical basis, which may improve the sensitivity of cancer cells to radiotherapy. It focuses on the roles of tumor metabolism, DNA repair capacity, cell cycle checkpoints, and the tumor microenvironment in the development of radioresistance of cancer cells. Understanding the molecular alterations that lead to radioresistance may provide new diagnostic markers and therapeutic targets to improve radiotherapy efficacy.

Comparison of Clinical Characteristics and Genetic Aberrations of Plasma Cell Disorders in Thailand Population.

Multiple myeloma is an incurable malignancy of plasma cells resulting from impaired terminal B cell development. Almost all patients with multiple myeloma eventually have a relapse. Many studies have demonstrated the importance of the various genomic mutations that characterize multiple myeloma as a complex heterogeneous disease. In recent years, next-generation sequencing has been used to identify the genomic mutation landscape and clonal heterogeneity of multiple myeloma. This is the first study, a prospective observational study, to identify somatic mutations in plasma cell disorders in the Thai population using targeted next-generation sequencing. Twenty-seven patients with plasma cell disorders were enrolled comprising 17 cases of newly diagnosed multiple myeloma, 5 cases of relapsed/refractory multiple myeloma, and 5 cases of other plasma cell disorders. The pathogenic mutations were found in 17 of 27 patients. Seventy percent of those who had a mutation (12/17 patients) habored a single mutation, whereas the others had more than one mutation. Fifteen pathogenic mutation genes were identified: ATM, BRAF, CYLD, DIS3, DNMT3A, FBXW7, FLT3, GNA13, IRF4, KMT2A, NRAS, SAMHD1, TENT5C, TP53, and TRAF3. Most have previously been reported to be involved in the RAS/MAPK pathway, the nuclear factor kappa B pathway, the DNA-repair pathway, the CRBN pathway, tumor suppressor gene mutation, or an epigenetic mutation. However, the current study also identified mutations that had not been reported to be related to myeloma: GNA13 and FBXW7. Therefore, a deep understanding of molecular genomics would inevitably improve the clinical management of plasma cell disorder patients, and the increased knowledge would ultimately result in better outcomes for the patients.

25. Large scale analysis in Von Hippel-Lindau disease

Introduction: Von Hippel-Lindau (VHL) disease is a rare hereditary cancer syndrome where individuals are at risk of developing tumors in many organs, including the brain, adrenal gland, pancreas and kidneys. It is caused by deleterious mutations in the VHL tumor suppressor gene, although gene variants of unknown significance are often seen in clinical practice. The diversity of VHL patients has made it difficult to collect standardized disease information.

Abstract IA-40: CDKN2A germline rare coding variants and risk of pancreatic cancer in minority populations

Abstract Performing genetic epidemiology studies in underrepresented populations is challenging, but is extremely important in order to understand how cancer impacts differing populations, This can then allow more tailored and nuanced management of persons at risk. Our group at Mayo Clinic encountered some interesting preliminary findings regarding CDKN2A, but given small numbers of subjects in our registry, we needed to partner with other collaborators to have enough statistical power to make sense of the findings and generate a publishable result. This talk will focus on the means of doing this, the importance of team-based science across centers, and future opportunities. Background: Pathogenic germline mutations in the CDKN2A tumor suppressor gene are rare and associated with highly penetrant familial melanoma and pancreatic cancer in non-Hispanic whites. WeTo date, the prevalence and impact of CDKN2A rare coding variants (RCV) in racial minority groups remain poorly characterized. We examined the role of CDKN2A RCVs on the risk of pancreatic cancer among minority subjects. Methods: We performed a case-control study of germline mutations in CDKN2A among patients with incident pancreatic cancer and controls, focused on underrepresented minority populations. We sequenced CDKN2A in 220 African American pancreatic cancer cases, 900 noncancer African American controls, and 183 Nigerian controls. RCV frequencies were determined for each group and compared with that of 1,537 Non-Hispanic White patients with pancreatic cancer. Odds ratios (OR) and 95% confidence intervals (CI) were calculated for both a case–case comparison of RCV frequencies in African Americans versus Non-Hispanic Whites, and case–control comparison between AA cases versus noncancer AA controls plus Nigerian controls. Smaller sets of Hispanic and Native American cases and controls also were sequenced. Race/ethnicity categorization was from self-report. Results: One novel missense RCV and one novel frameshift RCV were found among AA patients: 400G>A and 258_278del. RCV carrier status was associated with increased risk of pancreatic cancer among AA cases (11/220; OR, 3.3; 95% CI, 1.5–7.1; P ¼ 0.004) compared with African American and Nigerian controls (17/1,083). Further, African American cases had higher frequency of RCVs: 5.0% (OR, 13.4;95%CI, 4.9–36.7; P < 0.001) compared with Non-Hispanic White cases (0.4%). Conclusions: CDKN2A RCVs are more common in African Americans than in Non-Hispanic White patients with pancreatic cancer and associated with moderately increased pancreatic cancer risk among African Americans. Citation Format: Robert McWilliams. CDKN2A germline rare coding variants and risk of pancreatic cancer in minority populations [abstract]. In: Proceedings of the AACR Virtual Conference: 14th AACR Conference on the Science of Cancer Health Disparities in Racial/Ethnic Minorities and the Medically Underserved; 2021 Oct 6-8. Philadelphia (PA): AACR; Cancer Epidemiol Biomarkers Prev 2022;31(1 Suppl):Abstract nr IA-40.

Hematologic Presentation of Metastatic Prostate Carcinoma: A Case Report on a Brca2 Mutated Young Patient

Prostatic adenocarcinoma is one of the most frequent malignancy amongst men, in most patients with advanced disease (65-75%) end up developing bone metastases. One of the factors linked to such condition is the genectic variability of cancer types, the most aggressive of them are derived from a series of mutations in tumor suppressor genes.

Molecular Genetic Determinants of Shorter Time on Active Surveillance in a Prospective Phase 2 Clinical Trial in Metastatic Renal Cell Carcinoma

Active surveillance (AS) may be used in the management of metastatic renal cell carcinoma (mRCC), but consensus regarding its application is lacking. We report an exploratory analysis of prospectively collected specimens prespecified in the only modern clinical trial evaluating AS in mRCC. Whole-exome and RNA sequencing were performed for patients providing consent to identify putative biomarkers associated with time on AS (TAS), the primary endpoint. Log-rank tests and multivariable Cox proportional-hazards models were used for analyses. Patients with mutations in either TP53 or SMARCA4 tumor suppressor genes had shorter TAS (7.5 vs 14.2 mo; log-rank p = 0.004). While these patients exhibited features of aggressive disease clinically, the two-gene model was independently predictive in multivariable analyses (hazard ratio 3.30, 95% confidence interval 1.07–10.18; p = 0.038). In conclusion, insight into the underlying RCC biology improves patient selection for AS. If validated, this two-gene model could help in stratifying patients with mRCC and identifying those who are poor candidates for AS. Patient summaryIn this study, we analyzed tumors from patients with metastatic kidney cancer enrolled in a clinical trial of imaging surveillance. We found that tumors with mutations in either the TP53 or SMARCA4 gene progressed faster than tumors without these mutations. Thus, patients harboring mutations in these genes may not be good candidates for AS.

Assessment of PTEN Deletion or Signal Reduction in Breast Carcinoma Using FISH Technique in A Sample of Iraqi Female Patients

Background: PTEN (phosphatase and tensin homolog) gene is located at the 10q23 region that regulates cell proliferation and survival mainly by regulating PI3K (phosphatidylinositol 3-kinase)-AKT (protein kinase B) signaling pathways. PTEN gene is one of the most frequently mutated tumor suppressor genes in human cancer. Loss of PTEN gene can cause overgrowth, proliferation, survival, and metabolism of tumor cells. In breast cancer, loss of PTEN gene is associated with the occurrence of tumor and is significantly correlated with its characteristics. Objective: To assess the frequency of PTEN deletion or signal reduction in breast cancer in a sample of Iraqi female patients using FISH technique and its relation with clinico-pathological parameters (age, tumor size, multicentricity, histopathological types, grade, pathological stage and lymph node status). Methods: This is a retrograde, case control study, which was conducted at the Department of Pathology and Forensic Medicine, College of Medicine, Al-Nahrain University for the period between October 2019 to November 2020. It involved 30 patients with breast cancer who underwent mastectomy and 30 patients with benign breast lesions. Results: PTEN gene deletion or signal reduction was observed in 8 (26.67%) out 30 breast cancer patients. There was a significant relation between PTEN gene deletion (or signal reduction) and larger tumor size, higher grade, advanced pathological stage, and metastasis to more than 4 lymph nodes. Conclusion: There was significance difference between cases and control groups regarding PTEN deletion or signal reduction. There was significant correlation between PTEN gene deletion or signal reduction and larger tumor size, higher pathological grade and advanced stage. Keywords: PTEN gene, breast cancer, FISH technique Citation: Al-Taie MRF, Qasim BJ. Assessment of PTEN deletion or signal reduction in breast carcinoma using FISH technique in a sample of Iraqi female patients. Iraqi JMS. 2021; 19(2): 152-162. doi: 10.22578/IJMS.19.2.4

Retinal Glial Cells in Von Hippel–Lindau Disease: A Novel Approach in the Pathophysiology of Retinal Hemangioblastoma

Simple SummaryThe in vivo optical coherence tomography analysis of the biomarkers of retinal microglia and macroglia in Von Hippel–Lindau disease represents an innovative field of research. The different behavior of these glial cells in Von Hippel–Lindau patients provides new data regarding the pathophysiology of retinal hemangioblastoma, the most common ocular manifestation of this hereditary disorder. Moreover, these biomarkers show a different behavior in Von Hippel–Lindau patients in relation to the presence or absence of retinal hemangioblastoma. Therefore, we can hypothesize that retinal hemangioblastoma is mainly due to the activation of macroglia by previously activated microglial cells.Background: Von Hippel–Lindau (VHL) disease is a neoplastic syndrome caused by a mutation of the VHL tumor suppressor gene. Retinal hemangioblastoma (RH) is a vascularized tumor and represents the most common ocular manifestation of this disease. At the retinal level, VHL protein is able to regulate tumor growth, angiogenic factors, and neuroinflammation, probably stimulating retinal glial cells. The aim of the present study was to analyze in vivo the optical coherence tomography (OCT) biomarkers of retinal macroglia and microglia in a cohort of VHL patients. Methods: The mean thicknesses of macular retinal nerve fiber layer (mRNFL), ganglion cell layer (GCL), and peripapillary retinal nerve fiber layer (pRNFL) were measured with OCT as biomarkers of retinal macroglia. OCT images were also analyzed to detect and quantify hyperreflective retinal foci (HRF), a biomarker of retinal activated microglia. Results: 61 eyes of 61 VHL patients (22 eyes (36.07%) with peripheral RH and 39 eyes (63.93%) without RH) and 28 eyes of 28 controls were evaluated. pRNFL was thinner in VHL patients (p < 0.05) and in VHL without RH (p < 0.01) compared to controls, and thicker in VHL patients with RH than in those without RH (p < 0.05). The thickness of mRNFL (p < 0.0001) and GCL (p < 0.05) was reduced in VHL patients and in VHL without RH compared to controls, whereas mRNFL (p < 0.0001) and GCL (p < 0.05) were increased in VHL patients with RH compared to those without RH. HRF were significantly higher in number in VHL patients and in VHL without RH, than in controls, and significantly lower (p < 0.05) in the eyes of VHL patients with RH, than in those without RH. Conclusions: The OCT analysis, which detects and allows to quantify the biomarkers of retinal microglia (HRF) and macroglia (pRNFL, mRNFL and GCL), showed a different behavior of these two retinal glial cells populations in VHL patients, related to the presence or absence of peripheral RH. These data allow to hypothesize a novel pathophysiologic pathway of retinal hemangioblastoma in VHL disease.

HomA and HomB, outer membrane proteins of Helicobacter pylori down-regulate activation-induced cytidine deaminase (AID) and Ig switch germline transcription and thereby affect class switch recombination (CSR) of Ig genes in human B-cells

H. pylori is one of the major causes of chronic gastritis, peptic ulcer disease (PUD), gastric mucosa-associated lymphoid tissue lymphoma (MALT) and gastric carcinoma. H. pylori toxin VacA is responsible for host cell apoptosis, whereas CagA is known to aberrantly induce expression of activation-induced cytidine deaminase (AID) in gastric epithelial cells that causes mutations in oncogenes and tumour suppressor genes, leading to the transformation of normal cells into cancerous cells. Although, a significant amount of research has been conducted to understand the role of bacterial factors modulating deregulated host cell pathways, the interaction between H. pylori and immune cells of the marginal zone and its consequences are still not well understood. HomB and HomA, outer membrane proteins (OMPs) from H. pylori, which assist in the adhesion of bacteria to host cells, are found to be associated with H. pylori virulent strains and promote inflammation. Interestingly, we observed that the interaction of HomB/HomA OMPs with B-cells transiently downregulates AID expression and Ig switch germline transcription. Downregulation of AID leads to impairment of class switch recombination (CSR), resulting in significantly reduced switching to IgG and IgA antibodies. Besides, we examined the immune-suppressive response of B-cells and observed that the cells stimulated with HomA/B show upregulation in the levels of IL10, IL35, as well as PDL1, a T-cell inhibition marker. Our study suggests the potential role of OMPs in immune response modulation strategies used by the pathogen to evade the immune response. These results provide a better understanding of H. pylori pathogenesis and assist in identifying novel targets for therapy.

Metastatic prostate carcinoma: A case report on a Brca2 mutated young patient

Prostatic adenocarcinoma is one of the most frequent malignancy amongst men, majority patients with advanced disease end up developing bone metastases. One of the factors linked to such condition is the genectic variability of cancer types, the most aggressive of them are derived from a series of mutations in tumor suppressor genes.

The dominant TP53 hotspot mutation in IDH -mutant astrocytoma, R273C, has distinctive pathologic features and sex-specific prognostic implications.

BackgroundInfiltrative astrocytic tumors with and without isocitrate dehydrogenase (IDH) mutation frequently contain mutations in the TP53 tumor suppressor gene. Disruption of normal p53 protein activity confers neoplastic cells with a number of oncogenic properties and is a common feature of aggressive malignancies. However, the high prevalence of TP53 mutation and its pathogenic role in IDH-mutant (IDHmut) astrocytoma is not well understood.MethodsWe performed a retrospective analysis of molecular and clinical data from patients with IDHmut astrocytoma at the University of Pittsburgh Medical Center between 2015 and 2019 as our initial cohort. We validated and expanded our findings using molecular and clinical data from The Cancer Genome Atlas.ResultsWe show that the TP53 mutational spectrum in IDHmut astrocytomas is dominated by a single hotspot mutation that codes for the R273C amino acid change. This mutation is not enriched in IDH-wildtype astrocytomas. The high prevalence of TP53R273C mutation is not readily explained by known mutagenic mechanisms, and TP53R273C mutant tumors have lower transcriptional levels of proliferation-related genes compared to IDHmut astrocytomas harboring other forms of mutant p53. Despite lower proliferation, TP53R273C mutant tumors tend to progress more quickly and have a shorter overall survival than those with other TP53 mutations, particularly in male patients.ConclusionsOur findings suggest that compared to other TP53 mutations, IDHmut astrocytomas may select for TP53R273C mutations during tumorigenesis. The genotype, sex, and mutation-specific findings are clinically relevant and should prompt further investigation of TP53R273C.

Abstract P095: Isogenic CRISPR anchor screens identified actionable nodes to CHK1/2 inhibitor prexasertib in TP53 mutant cancer

Abstract TP53 is the most mutated tumor suppressor gene in human cancers and is a master regulator of a wide array of cellular processes including but not limited to cell cycle progression and DNA damage response. Due to its diverse functions, therapies specifically exploit the vulnerabilities created by TP53 loss remained elusive. We established a panel of TP53 isogenic pair cell line models by knocking out TP53 from WT cell lines and observed that CHK1/2 inhibitor prexasertib showed preferential selectivity toward TP53 KO cell lines. To thoroughly examine additional nodes which could further exploit this selective sensitivity, we carried out genome-wide prexasertib anchor screen in A549 isogenic lines employing CRISPRn, CRISPRi and CRISPRa platforms. From these functional genomics screens, we identified that targeting the anti-folate pathway genes (TYMS, DHFR) showed selective synergy with prexasertib specifically in TP53 KO cells. Secondly, a panel of iron metabolism genes was identified across different CRISPR platforms as candidate TP53 context specific synthetic lethal hits synergize with prexasertib. And lastly, additional sub-context was identified which may inform patient selection strategy for prexasertib as single agent. Citation Format: Teng Teng, Stephen Paik, Shan-chuan Zhao, Ashley Choi, Steven A. Lombardo, Shangtao Liu, Samuel R. Meier, Yi Yu, Jannik N. Anderson, Alan Huang, Fang Li, Xuewen Pan. Isogenic CRISPR anchor screens identified actionable nodes to CHK1/2 inhibitor prexasertib in TP53 mutant cancer [abstract]. In: Proceedings of the AACR-NCI-EORTC Virtual International Conference on Molecular Targets and Cancer Therapeutics; 2021 Oct 7-10. Philadelphia (PA): AACR; Mol Cancer Ther 2021;20(12 Suppl):Abstract nr P095.

Identification of a VHL gene mutation in atypical Von Hippel-Lindau syndrome: genotype\u2013phenotype correlation and gene therapy perspective

BackgroundClassical von Hippel Lindau (VHL) disease/syndrome includes CNS hemangioblastoma, renal or pancreatic cysts, pheochromocytoma, renal carcinoma and exodermic cystadenoma. The syndrome is caused by mutation of VHL tumor suppressor gene. The most prevalent mutations are present in VHL syndrome. To date, > 500 mutations of gene related to the progression of VHL syndrome have been reported. VHL gene mutation presented in single lung or pancreatic tumor has been reported occasionally, but there is no report of both.MethodsIn this paper, we used CT scan, pathological and genetic examination methods to diagnose a rare atypical VHL syndrome.ResultsWe reported a rare case of atypical VHL syndrome with authenticated VHL mutation at p.Arg167Gln, that was associated with not only bilateral pheochromocytoma but also lung carcinoid and neuroendocrine tumor of pancreas. Based on literature reviews, the patient was recommended to be further subjected to octreotide-based radionuclide therapy.ConclusionsCombined with gene detection and clinical diagnosis, we found the inherent relationship between VHL genotype and phenotype, and constructed the standard diagnosis and treatment process of disease with rare VHL mutation from the perspective of gene therapy.

MEK inhibition exerts temporal and myeloid cell-specific effects in the pathogenesis of neurofibromatosis type 1 arteriopathy

Mutations in the NF1 tumor suppressor gene are linked to arteriopathy. Nf1 heterozygosity (Nf1+/–) results in robust neointima formation, similar to humans, and myeloid-restricted Nf1+/– recapitulates this phenotype via MEK-ERK activation. Here we define the contribution of myeloid subpopulations to NF1 arteriopathy. Neutrophils from WT and Nf1+/– mice were functionally assessed in the presence of MEK and farnesylation inhibitors in vitro and neutrophil recruitment to lipopolysaccharide was assessed in WT and Nf1+/– mice. Littermate 12–15 week-old male wildtype and Nf1+/– mice were subjected to carotid artery ligation and provided either a neutrophil depleting antibody (1A8), liposomal clodronate to deplete monocytes/macrophages, or PD0325901 and neointima size was assessed 28 days after injury. Bone marrow transplant experiments assessed monocyte/macrophage mobilization during neointima formation. Nf1+/– neutrophils exhibit enhanced proliferation, migration, and adhesion via p21Ras activation of MEK in vitro and in vivo. Neutrophil depletion suppresses circulating Ly6Clow monocytes and enhances neointima size, while monocyte/macrophage depletion and deletion of CCR2 in bone marrow cells abolish neointima formation in Nf1+/– mice. Taken together, these findings suggest that neurofibromin-MEK-ERK activation in circulating neutrophils and monocytes during arterial remodeling is nuanced and points to important cross-talk between these populations in the pathogenesis of NF1 arteriopathy.

Heterogeneous phenotypes of Pten-null hepatocellular carcinoma in hepatitis B virus transgenic mice parallels liver lobule zonal gene expression patterns

Chronic HBV infection is a major cause of hepatocellular carcinoma (HCC) worldwide. The phenotypes of HCC are diverse, in part, due to mutations in distinct oncogenes and/or tumor suppressor genes. These genetic drivers of HCC development have generally been considered as major mediators of tumor heterogeneity. Using the liver-specific Pten-null HBV transgenic mouse model of chronic viral infection, a critical role for liver lobule zone-specific gene expression patterns in determining HCC phenotype and β-catenin-dependent HBV biosynthesis is demonstrated. These observations suggest that the position of the hepatocyte within the liver lobule, and hence its intrinsic gene expression pattern at the time of cellular transformation, make critical contributions to the properties of the resulting liver tumor. These results may explain why therapies targeting pathways modulated by specific identified tumor driver genes display variable treatment efficacy.

Tumor suppressor gene mutations correlate with prognosis and immunotherapy benefit in hepatocellular carcinoma

IntroductionThe tumor microenvironment (TME) has profound impacts on prognosis and immunotherapy. The TME can be altered by the genomic mutations on specific tumor-suppressor genes (TSG), thus, comprehending the association between TME and TSG in hepatocellular carcinoma (HCC) is imperative. MethodsWith a total of 1699 HCC patients from 6 international multicenter cohorts, we delineated the mutational landscape of TSG and summarized the proportion of TSG mutated HCC in different countries. Using the genomic and transcriptomic data, we comprehensively explored the impacts of TSG mutations on TME and immunity in HCC. A dataset of 31 HCC patients from the cBioPortal database was utilized to evaluate the predictive value of TSG subtypes for immunotherapy response. ResultsInterestingly, TSG non-mutated HCC will have more “immune-hot” tumors, and display the infiltration abundance of immune cells such as B cell, CD4+/CD8+T cell, and neutrophil. Moreover, TSG non-mutated HCC was characterized by the higher expression level of three immune checkpoints, including CD40, CD40LG, and TNFRSF4. In line with the TME characterization and immune checkpoint profiles, TSG non-mutated HCC displayed prolonged overall survival and relapse-free survival, notably, are more likely to respond to immune checkpoint inhibitors. ConclusionsOur findings suggested the TSG subtypes could serve as a promising biomarker for guiding surveillance protocol and immunotherapeutic decisions for patients with HCC.

Clonal Relapse Dynamics in Acute Myeloid Leukemia Following Allogeneic Hematopoietic Cell Transplantation

IntroductionThe 2-year survival for AML patients relapsing after allogeneic hematopoietic cell transplantation (alloHCT) is <20%, independent of the choice of relapse-treatment. Relapse detection in its molecular state enables early interventions and possibly prevention of hematological recurrence of the disease. The role of measurable residual disease (MRD) monitoring for risk stratification has been described for pre and post-alloHCT MRD analyses. Yet, it remains unclear, if and by which lead-time NGS assessment can detect MRD before impending relapse. We hypothesize that the functional class of mutations determines the relapse kinetics in AML after alloHCT.MethodsWe identified mutations present at AML relapse after alloHCT by Illumina myeloid panel sequencing covering 48 AML associated genes. Peripheral whole blood samples were retrospectively collected before hematological relapse, with a minimum of one sample per patient at three months prior to relapse and if available, additional monthly samples. Amplicon-based NGS and bioinformatics error-correction were performed on those samples as described in Thol et al. 2018. Positive MRD was defined as MRD detectable above the limit of detection. In the last step, we performed polynomic curve interpolation to model relapse dynamics.ResultsMRD was assessed in 75 AML patients after alloHCT using 203 AML-related mutations present at the time of relapse, corresponding to a median of 2.7 trackable mutations per patient (range 1-7). In total, 305 MRD analyses were performed from peripheral blood (median 1.5 per mutation, range 1-5) prior to relapse. VAFs measured above the limit of detection (median LOD across all targets 0.0315) ranged from 0.0048-26% (median 1.3%).In 45 of 75 patients (60%), we detected MRD in at least one sample and one marker before relapse. Of those, 23 patients (51%) were MRD positive in all markers before relapse and 22 patients (49%) were MRD positive in some, but not all markers before relapse. The majority of MRD-positive patients (30 of 45) were first detected three or fewer months before relapse, whereas 15 (33%) of 45 patients were MRD positive more than 3 months before relapse. The median time to relapse from the first MRD-positive sample to relapse was 2.9 months (range 0.6-10.2).Among the 203 mutations found in relapse, 93 (46%) were detectable by MRD monitoring before relapse while the remaining 110 markers (54%) remained undetectable prior to relapse. Of note, 88 of those 110 markers (80%) were measured only once before relapse, indicating that frequent sampling increases the likelihood of MRD detection. Genes in which mutations were found mostly MRD-positive were TET2 (6 out of 6), ASXL2 (4 out of 5), SF3B1 (4 out of 5), and RUNX1 (7 out of 9). Mutations in WT1 (1 out of 13), NRAS (1 out of 8), FLT3-ITD (9 out of 29), and PTPN11 (1 out of 5) were among the most common MRD negative mutations before relapse.To assess clonal relapse dynamics, pre-relapse samples were assigned to the monthly interval that best matched the sampling time. If MRD was measured positive at one time point, all the following monthly intervals were considered MRD-positive, whether a sample was available for that interval or not. The fraction of positive samples from all samples per time point was plotted against time to relapse and the function was approximated by fifth-order polynomials. The percentage of patients being MRD positive increased markedly with shortened distance to relapse. Thus, 29% of patients were MRD positive at 3 months, 44% at 2 months and 66% 1 month prior to relapse. Summarized by functional gene classes, mutations in tumor suppressor genes and especially signaling genes showed a higher slope and thus a shorter lead-time to relapse than mutations in epigenetic modifier genes (Figure 2).ConclusionIn summary, hematologic relapse can be detected in peripheral blood in 29, 44, and 66% of patients at 3, 2, and 1 months before relapse by NGS-MRD analysis, respectively. Mutations in epigenetic modifier genes show a higher fraction of MRD positivity before relapse than other mutations. In contrast, mutations in signaling genes show a shorter lead-time to relapse. [Display omitted] DisclosuresGanser: Celgene: Honoraria; Novartis: Honoraria; Jazz Pharmaceuticals: Honoraria. Thol: Abbvie: Honoraria; Astellas: Honoraria; Novartis: Honoraria; Pfizer: Honoraria; Jazz: Honoraria; BMS/Celgene: Honoraria, Research Funding. Heuser: BergenBio: Research Funding; Bayer Pharma AG: Research Funding; AbbVie: Membership on an entity's Board of Directors or advisory committees, Research Funding; BMS/Celgene: Membership on an entity's Board of Directors or advisory committees, Research Funding; Janssen: Honoraria; Novartis: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees, Research Funding; Pfizer: Membership on an entity's Board of Directors or advisory committees, Research Funding; Daiichi Sankyo: Membership on an entity's Board of Directors or advisory committees, Research Funding; Jazz: Honoraria, Membership on an entity's Board of Directors or advisory committees, Research Funding; Astellas: Research Funding; Tolremo: Membership on an entity's Board of Directors or advisory committees; Karyopharm: Research Funding; Roche: Membership on an entity's Board of Directors or advisory committees, Research Funding.