Your search keyword '"Vidotto, Thiago"' showing total 15 results

1. An mTORC1-mediated negative feedback loop constrains amino acid-induced FLCN-Rag activation in renal cells with TSC2 loss.

Author

Asrani, Kaushal, Woo, Juhyung, Mendes, Adrianna A., Schaffer, Ethan, Vidotto, Thiago, Villanueva, Clarence Rachel, Feng, Kewen, Oliveira, Lia, Murali, Sanjana, Liu, Hans B., Salles, Daniela C., Lam, Brandon, Argani, Pedram, and Lotan, Tamara L.

Subjects

TRANSCRIPTION factors, LYSOSOMES, GROWTH factors, AMINO acids, RAPAMYCIN, ESTRONE

Abstract

The mechanistic target of rapamycin complex 1 (mTORC1) integrates inputs from growth factors and nutrients, but how mTORC1 autoregulates its activity remains unclear. The MiT/TFE transcription factors are phosphorylated and inactivated by mTORC1 following lysosomal recruitment by RagC/D GTPases in response to amino acid stimulation. We find that starvation-induced lysosomal localization of the RagC/D GAP complex, FLCN:FNIP2, is markedly impaired in a mTORC1-sensitive manner in renal cells with TSC2 loss, resulting in unexpected TFEB hypophosphorylation and activation upon feeding. TFEB phosphorylation in TSC2-null renal cells is partially restored by destabilization of the lysosomal folliculin complex (LFC) induced by FLCN mutants and is fully rescued by forced lysosomal localization of the FLCN:FNIP2 dimer. Our data indicate that a negative feedback loop constrains amino acid-induced, FLCN:FNIP2-mediated RagC activity in renal cells with constitutive mTORC1 signaling, and the resulting MiT/TFE hyperactivation may drive oncogenesis with loss of the TSC2 tumor suppressor. The MiT/TFE transcription factors are phosphorylated and inactivated by mTORC1. Here, authors demonstrate that TFEB is paradoxically hypophosphorylated and activated in cells with TSC2 loss due to impaired lysosomal recruitment of the FLCN:FNIP2 complex in renal cells. [ABSTRACT FROM AUTHOR]

Published

2022

2. GPNMB expression identifies TSC1/2/mTOR‐associated and MiT family translocation‐driven renal neoplasms.

Author

Salles, Daniela C, Asrani, Kaushal, Woo, Juhyung, Vidotto, Thiago, Liu, Hans B, Vidal, Igor, Matoso, Andres, Netto, George J, Argani, Pedram, and Lotan, Tamara L

Subjects

KIDNEY tumors, RENAL cell carcinoma, ANGIOMYOLIPOMA, GENOME editing, IMAGE analysis, CELL tumors

Abstract

GPNMB (glycoprotein nonmetastatic B) and other TFE3/TFEB transcriptional targets have been proposed as markers for microphthalmia (MiT) translocation renal cell carcinomas (tRCCs). We recently demonstrated that constitutive mTORC1 activation via TSC1/2 loss leads to increased activity of TFE3/TFEB, suggesting that the pathogenesis and molecular markers for tRCCs and TSC1/2‐associated tumors may be overlapping. We examined GPNMB expression in human kidney and angiomyolipoma (AML) cell lines with TSC2 and/or TFE3/TFEB loss produced using CRISPR–Cas9 genome editing as well as in a mouse model of Tsc2 inactivation‐driven renal tumorigenesis. Using an automated immunohistochemistry (IHC) assay for GPNMB, digital image analysis was employed to quantitatively score expression in clear cell RCC (ccRCC, n = 87), papillary RCC (papRCC, n = 53), chromophobe RCC (chRCC, n = 34), oncocytoma (n = 4), TFE3‐ or TFEB‐driven tRCC (n = 56), eosinophilic solid and cystic RCC (ESC, n = 6), eosinophilic vacuolated tumor (EVT, n = 4), and low‐grade oncocytic tumor (LOT, n = 3), as well as AML (n = 29) and perivascular epithelioid cell tumors (PEComas, n = 8). In cell lines, GPNMB was upregulated following TSC2 loss in a MiT/TFE‐ and mTORC1‐dependent fashion. Renal tumors in Tsc2+/− A/J mice showed upregulation of GPNMB compared with normal kidney. Mean GPNMB expression was significantly higher in tRCC than in ccRCC (p < 0.0001), papRCC (p < 0.0001), and chRCC (p < 0.0001). GPNMB expression in TSC1/2/MTOR alteration‐associated renal tumors (including ESC, LOT, AML, and PEComa) was comparable to that in tRCC. The immunophenotype of tRCC and TSC1/2/MTOR alteration‐associated renal tumors is highly overlapping, likely due to the increased activity of TFE3/TFEB in both, revealing an important caveat regarding the use of TFE3/TFEB‐transcriptional targets as diagnostic markers. © 2022 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of The Pathological Society of Great Britain and Ireland. [ABSTRACT FROM AUTHOR]

Published

2022

3. Reciprocal YAP1 loss and INSM1 expression in neuroendocrine prostate cancer.

Author

Asrani, Kaushal, Torres, Alba FC, Woo, Juhyung, Vidotto, Thiago, Tsai, Harrison K, Luo, Jun, Corey, Eva, Hanratty, Brian, Coleman, Ilsa, Yegnasubramanian, Srinivasan, De Marzo, Angelo M, Nelson, Peter S, Haffner, Michael C, and Lotan, Tamara L

Subjects

PROSTATE cancer, ANDROGEN deprivation therapy, LABORATORY mice, CANCER genes, TRANSCRIPTION factors, DIAGNOSIS

Abstract

Neuroendocrine prostate cancer (NEPC) is a rare but aggressive histologic variant of prostate cancer that responds poorly to androgen deprivation therapy. Hybrid NEPC‐adenocarcinoma (AdCa) tumors are common, often eluding accurate pathologic diagnosis and requiring ancillary markers for classification. We recently performed an outlier‐based meta‐analysis across a number of independent gene expression microarray datasets to identify novel markers that differentiate NEPC from AdCa, including up‐regulation of insulinoma‐associated protein 1 (INSM1) and loss of Yes‐associated protein 1 (YAP1). Here, using diverse cancer gene expression datasets, we show that Hippo pathway‐related genes, including YAP1, are among the top down‐regulated gene sets with expression of the neuroendocrine transcription factors, including INSM1. In prostate cancer cell lines, transgenic mouse models, and human prostate tumor cohorts, we confirm that YAP1 RNA and YAP1 protein expression are silenced in NEPC and demonstrate that the inverse correlation of INSM1 and YAP1 expression helps to distinguish AdCa from NEPC. Mechanistically, we find that YAP1 loss in NEPC may help to maintain INSM1 expression in prostate cancer cell lines and we further demonstrate that YAP1 silencing likely occurs epigenetically, via CpG hypermethylation near its transcriptional start site. Taken together, these data nominate two additional markers to distinguish NEPC from AdCa and add to data from other tumor types suggesting that Hippo signaling is tightly reciprocally regulated with neuroendocrine transcription factor expression. © 2021 The Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2021

4. Transcriptional landscape of PTEN loss in primary prostate cancer.

Author

Imada, Eddie Luidy, Sanchez, Diego Fernando, Dinalankara, Wikum, Vidotto, Thiago, Ebot, Ericka M., Tyekucheva, Svitlana, Franco, Gloria Regina, Mucci, Lorelei Ann, Loda, Massimo, Schaeffer, Edward Matthew, Lotan, Tamara, and Marchionni, Luigi

Subjects

NON-coding RNA, PROSTATE cancer, GENETIC regulation, IMMUNE system, IMMUNOHISTOCHEMISTRY

Abstract

Background: PTEN is the most frequently lost tumor suppressor in primary prostate cancer (PCa) and its loss is associated with aggressive disease. However, the transcriptional changes associated with PTEN loss in PCa have not been described in detail. In this study, we highlight the transcriptional changes associated with PTEN loss in PCa.Methods: Using a meta-analysis approach, we leveraged two large PCa cohorts with experimentally validated PTEN and ERG status by Immunohistochemistry (IHC), to derive a transcriptomic signature of PTEN loss, while also accounting for potential confounders due to ERG rearrangements. This signature was expanded to lncRNAs using the TCGA quantifications from the FC-R2 expression atlas.Results: The signatures indicate a strong activation of both innate and adaptive immune systems upon PTEN loss, as well as an expected activation of cell-cycle genes. Moreover, we made use of our recently developed FC-R2 expression atlas to expand this signature to include many non-coding RNAs recently annotated by the FANTOM consortium. Highlighting potential novel lncRNAs associated with PTEN loss and PCa progression.Conclusion: We created a PCa specific signature of the transcriptional landscape of PTEN loss that comprises both the coding and an extensive non-coding counterpart, highlighting potential new players in PCa progression. We also show that contrary to what is observed in other cancers, PTEN loss in PCa leads to increased activation of the immune system. These findings can help the development of new biomarkers and help guide therapy choices. [ABSTRACT FROM AUTHOR]

Published

2021

5. Plasma cells are enriched in localized prostate cancer in Black men and are associated with improved outcomes.

Author

Weiner, Adam B., Vidotto, Thiago, Liu, Yang, Mendes, Adrianna A., Salles, Daniela C., Faisal, Farzana A., Murali, Sanjana, McFarlane, Matthew, Imada, Eddie L., Zhao, Xin, Li, Ziwen, Davicioni, Elai, Marchionni, Luigi, Chinnaiyan, Arul M., Freedland, Stephen J., Spratt, Daniel E., Wu, Jennifer D., Lotan, Tamara L., and Schaeffer, Edward M.

Subjects

PLASMA cells, BLACK men, PROSTATE cancer, GENE expression profiling, WHITE men, EXOCRINE glands

Abstract

Black men die more often of prostate cancer yet, interestingly, may derive greater survival benefits from immune-based treatment with sipuleucel-T. Since no signatures of immune-responsiveness exist for prostate cancer, we explored race-based immune-profiles to identify vulnerabilities. Here we show in multiple independent cohorts comprised of over 1,300 patient samples annotated with either self-identified race or genetic ancestry, prostate tumors from Black men or men of African ancestry have increases in plasma cell infiltrate and augmented markers of NK cell activity and IgG expression. These findings are associated with improved recurrence-free survival following surgery and nominate plasma cells as drivers of prostate cancer immune-responsiveness. A recent report suggested Black men with prostate cancer were more responsive to immunotherapy. Here, the authors analysed prostate cancer gene expression profiles and show tumours from Black men and men with African ancestry have an increased proportion of plasma cells compared to those of White men and this correlates with improved outcome following treatment. [ABSTRACT FROM AUTHOR]

Published

2021

6. High throughput assessment of biomarkers in tissue microarrays using artificial intelligence: PTEN loss as a proof-of-principle in multi-center prostate cancer cohorts.

Author

Harmon, Stephanie A., Patel, Palak G., Sanford, Thomas H., Caven, Isabelle, Iseman, Rachael, Vidotto, Thiago, Picanço, Clarissa, Squire, Jeremy A., Masoudi, Samira, Mehralivand, Sherif, Choyke, Peter L., Berman, David M., Turkbey, Baris, and Jamaspishvili, Tamara

Published

2021

7. Risk Stratification of Prostate Cancer Through Quantitative Assessment of PTEN Loss (qPTEN).

Author

Jamaspishvili, Tamara, Patel, Palak G, Niu, Yi, Vidotto, Thiago, Caven, Isabelle, Livergant, Rachel, Fu, Winnie, Kawashima, Atsunari, How, Nathan, Okello, John B, Guedes, Liana B, Ouellet, Veronique, Picanço, Clarissa, Koti, Madhuri, Reis, Rodolfo B, Saad, Fred, Mes-Masson, Anne-Marie, Lotan, Tamara L, Squire, Jeremy A, and Peng, Yingwei P

Subjects

PROSTATE cancer, LOG-rank test, GLEASON grading system, PROSTATECTOMY, DISEASE management, CANCER cells, RISK assessment, RESEARCH, IMMUNOHISTOCHEMISTRY, RESEARCH methodology, PHOSPHATASES, RETROSPECTIVE studies, PROGNOSIS, MEDICAL cooperation, EVALUATION research, COMPARATIVE studies, KAPLAN-Meier estimator, RESEARCH funding, PROSTATE tumors, LONGITUDINAL method, PROPORTIONAL hazards models

Abstract

Background: Phosphatase and tensin homolog (PTEN) loss has long been associated with adverse findings in early prostate cancer. Studies to date have yet to employ quantitative methods (qPTEN) for measuring of prognostically relevant amounts of PTEN loss in postsurgical settings and demonstrate its clinical application.Methods: PTEN protein levels were measured by immunohistochemistry in radical prostatectomy samples from training (n = 410) and validation (n = 272) cohorts. PTEN loss was quantified per cancer cell and per tissue microarray core. Thresholds for identifying clinically relevant PTEN loss were determined using log-rank statistics in the training cohort. Univariate (Kaplan-Meier) and multivariate (Cox proportional hazards) analyses on various subpopulations were performed to assess biochemical recurrence-free survival (BRFS) and were independently validated. All statistical tests were two-sided.Results: PTEN loss in more than 65% cancer cells was most clinically relevant and had statistically significant association with reduced BRFS in training (hazard ratio [HR] = 2.48, 95% confidence interval [CI] = 1.59 to 3.87; P < .001) and validation cohorts (HR = 4.22, 95% CI = 2.01 to 8.83; P < .001). The qPTEN scoring method identified patients who recurred within 5.4 years after surgery (P < .001). In men with favorable risk of biochemical recurrence (Cancer of the Prostate Risk Assessment - Postsurgical scores <5 and no adverse pathological features), qPTEN identified a subset of patients with shorter BRFS (HR = 5.52, 95% CI = 2.36 to 12.90; P < .001) who may be considered for intensified monitoring and/or adjuvant therapy.Conclusions: Compared with previous qualitative approaches, qPTEN improves risk stratification of postradical prostatectomy patients and may be considered as a complementary tool to guide disease management after surgery. [ABSTRACT FROM AUTHOR]

Published

2020

8. Emerging role of PTEN loss in evasion of the immune response to tumours.

Author

Vidotto, Thiago, Melo, Camila Morais, Castelli, Erick, Koti, Madhuri, dos Reis, Rodolfo Borges, and Squire, Jeremy A.

Subjects

GENETIC mutation, ANIMAL experimentation, PHOSPHATASES, RESEARCH funding, TUMORS, IMMUNOTHERAPY

Abstract

Mutations in PTEN activate the phosphoinositide 3-kinase (PI3K) signalling network, leading to many of the characteristic phenotypic changes of cancer. However, the primary effects of this gene on oncogenesis through control of the PI3K-AKT-mammalian target of rapamycin (mTOR) pathway might not be the only avenue by which PTEN affects tumour progression. PTEN has been shown to regulate the antiviral interferon network and thus alter how cancer cells communicate with and are targeted by immune cells. An active, T cell-infiltrated microenvironment is critical for immunotherapy success, which is also influenced by mutations in DNA damage repair pathways and the overall mutational burden of the tumour. As PTEN has a role in the maintenance of genomic integrity, it is likely that a loss of PTEN affects the immune response at two different levels and might therefore be instrumental in mediating failed responses to immunotherapy. In this review, we summarise findings that demonstrate how the loss of PTEN function elicits specific changes in the immune response in several types of cancer. We also discuss ongoing clinical trials that illustrate the potential utility of PTEN as a predictive biomarker for immune checkpoint blockade therapies. [ABSTRACT FROM AUTHOR]

Published

2020

9. DNA damage repair gene mutations and their association with tumor immune regulatory gene expression in muscle invasive bladder cancer subtypes.

Author

Vidotto, Thiago, Nersesian, Sarah, Graham, Charles, Siemens, D. Robert, and Koti, Madhuri

Subjects

GENE expression, REGULATOR genes, DNA repair, DNA damage, BLADDER cancer, UROTHELIUM, CANCER invasiveness

Abstract

Background: Molecular subtyping of urothelial cancer (UC) has significantly advanced the understanding of bladder tumor heterogeneity and development of prognostic and predictive biomarkers. Evolving evidence across cancers strongly suggests that tumor immunoediting has a profound impact on the behaviour of cancer cells and their adaptation to the co-evolving microenvironment and response to treatment. In alignment with these concepts, recent immune checkpoint blockade (ICB) therapies in UC have demonstrated the predictive potential of mutations in the DNA damage repair (DDR) genes. A comprehensive understanding of DDR gene inactivation associated expression of immune regulatory genes could thus aid in expansion of current immunotherapies and predictive biomarkers for the design of patient-tailored combination treatments. Methods: We investigated pre-treatment tumor transcriptomic profiles of the five recently described molecular subtypes of muscle invasive urothelial cancer (MIUC; n = 408) from The Cancer Genome Atlas, to determine subtype specific immune cell abundance, expression of 67 immune regulatory genes, and association with DDR gene inactivation (via mutation, copy number alteration) profiles. Results: Analysis using CIBERSORT immune cell abundance determination tool showed significant differences in immune cell profiles and abundance between MIUC subtypes. Expression patterns of a selected panel of 67 genes including both immune stimulatory and inhibitory genes, showed significant associations with subtypes, and DDR gene mutation status. Conclusion: Findings from our study provide compelling evidence for co-expression of multiple immune checkpoint genes including, PD-1, PD-L1, IDO1, TIGIT, TIM-3, TGFB1, LAG3, and others, that potentially contribute to compensatory immune evasion in bladder tumors. Our findings also emphasize the urgent need for biomarker discovery approaches that combine molecular subtype, DDR gene mutation status, tumor immune landscape classification, and immune checkpoint gene expression to increase the number of patients responding to immunotherapies. [ABSTRACT FROM AUTHOR]

Published

2019

10. Serotonin synthesis protects the mouse colonic crypt from DNA damage and colorectal tumorigenesis.

Author

Sakita, Juliana Y, Bader, Michael, Santos, Emerson S, Garcia, Sergio B, Minto, Stefania B, Alenina, Natalia, Brunaldi, Mariângela O, Carvalho, Milene C, Vidotto, Thiago, Gasparotto, Bianca, Martins, Ronaldo B, Silva, Wilson A, Brandão, Marcus L, Leite, Caio A, Cunha, Fernando Q, Karsenty, Gerard, Squire, Jeremy A, Uyemura, Sergio A, and Kannen, Vinicius

Subjects

DNA damage, DNA repair, TRYPTOPHAN hydroxylase, COLON tumors, ATAXIA telangiectasia, DNA mismatch repair, TRYPTOPHAN

Abstract

Serotonin (5‐HT) signaling pathways are thought to be involved in colorectal tumorigenesis (CRT), but the role of 5‐HT synthesis in the early steps of this process is presently unknown. In this study, we used carcinogen treatment in the tryptophan hydroxylase 1 knockout (Tph1KO) and transgenic (Tph1fl/flVillinCre) mouse models defective in 5‐HT synthesis to investigate the early mutagenic events associated with CRT. Our observations of the colonic crypt post‐treatment followed a timeline designed to understand how disruption of 5‐HT synthesis affects the initial steps leading to CRT. We found Tph1KO mice had decreased development of both allograft tumors and colitis‐related CRT. Interestingly, carcinogenic exposure alone induced multiple colon tumors and increased cyclooxygenase‐2 (Ptgs2) expression in Tph1KO mice. Deletion of interleukin 6 (Il6) in Tph1KO mice confirmed that inflammation was a part of the process. 5‐HT deficiency increased colonic DNA damage but inhibited genetic repair of specific carcinogen‐related damage, leading to CRT‐related inflammatory reactions and dysplasia. To validate a secondary effect of 5‐HT deficiency on another DNA repair pathway, we exposed Tph1KO mice to ionizing radiation and found an increase in DNA damage associated with reduced levels of ataxia telangiectasia and Rad3 related (Atr) gene expression in colonocytes. Restoring 5‐HT levels with 5‐hydroxytryptophan treatment decreased levels of DNA damage and increased Atr expression. Analysis of Tph1fl/flVillinCre mice with intestine‐specific loss of 5‐HT synthesis confirmed that DNA repair was tissue specific. In this study, we report a novel protective role for 5‐HT synthesis that promotes DNA repair activity during the early stages of colorectal carcinogenesis. © 2019 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2019

11. PTEN‐deficient prostate cancer is associated with an immunosuppressive tumor microenvironment mediated by increased expression of IDO1 and infiltrating FoxP3+ T regulatory cells.

Author

Vidotto, Thiago, Saggioro, Fabiano P., Jamaspishvili, Tamara, Chesca, Deise L., Picanço de Albuquerque, Clarissa G., Reis, Rodolfo B., Graham, Charles H., Berman, David M., Siemens, D. Robert, Squire, Jeremy A., and Koti, Madhuri

Published

2019

12. Distinct subtypes of genomic PTEN deletion size influence the landscape of aneuploidy and outcome in prostate cancer.

Author

Vidotto, Thiago, Tiezzi, Daniel Guimarães, and Squire, Jeremy A.

Subjects

PROSTATE cancer & genetics, PTEN protein, ANEUPLOIDY, GENE expression, CHROMOSOMES

Abstract

Background: Inactivation of the PTEN tumor suppressor gene by deletion occurs in 20-30% of prostate cancer tumors and loss strongly correlates with a worse outcome. PTEN loss of function not only leads to activation of the PI3K/AKT pathway, but is also thought to affect genome stability and increase levels of tumor aneuploidy. We performed an in silico integrative genomic and transcriptomic analysis of 491 TCGA prostate cancer tumors. These data were used to map the genomic sizes of PTEN gene deletions and to characterize levels of instability and patterns of aneuploidy acquisition. Results: PTEN homozygous deletions had a significant increase in aneuploidy compared to PTEN tumors without an apparent deletion, and hemizygous deletions showed an intermediate aneuploidy profile. A supervised clustering of somatic copy number alterations (SCNA) demonstrated that the size of PTEN deletions was not random, but comprised five distinct subtypes: (1) "Small Interstitial" (70 bp-789Kb); (2) "Large Interstitial" (1-7 MB); (3) "Large Proximal" (3-65 MB); (4) "Large Terminal" (8-64 MB), and (5) "Extensive" (71-132 MB). Many of the deleted fragments in each subtype were flanked by low copy repetitive (LCR) sequences. SCNAs such as gain at 3q21.1-3q29 and deletions at 8p, RB1, TP53 and TMPRSS2-ERG were variably present in all subtypes. Other SCNAs appeared to be recurrent in some deletion subtypes, but absent from others. To determine how the aneuploidy influenced global levels of gene expression, we performed a comparative transcriptome analysis. One deletion subtype (Large Interstitial) was characterized by gene expression changes associated with angiogenesis and cell adhesion, structure, and metabolism. Logistic regression demonstrated that this deletion subtype was associated with a high Gleason score (HR = 2.386; 95% C.I. 1.245-4.572), extraprostatic extension (HR = 2.423, 95% C.I. 1.157-5.075), and metastasis (HR = 7.135; 95% C.I. 1.540-33.044). Univariate and multivariate Cox Regression showed that presence of this deletion subtype was also strongly predictive of disease recurrence. Conclusions: Our findings indicate that genomic deletions of PTEN fall into five different size distributions, with breakpoints that often occur close LCR regions, and that each subtype is associated with a characteristic aneuploidy signature. The Large Interstitial deletion had a distinct gene expression signature that was related to cancer progression and was also predictive of a worse prognosis. [ABSTRACT FROM AUTHOR]

Published

2018

13. The Role of Somatic Mutations on the Immune Response of the Tumor Microenvironment in Prostate Cancer.

Author

Melo, Camila Morais, Vidotto, Thiago, Chaves, Luiz Paulo, Lautert-Dutra, William, Reis, Rodolfo Borges dos, and Squire, Jeremy Andrew

Subjects

GENETIC mutation, SOMATIC mutation, TUMOR microenvironment, PROSTATE cancer, IMMUNE response, PROSTATE tumors

Abstract

Immunotherapy has improved patient survival in many types of cancer, but for prostate cancer, initial results with immunotherapy have been disappointing. Prostate cancer is considered an immunologically excluded or cold tumor, unable to generate an effective T-cell response against cancer cells. However, a small but significant percentage of patients do respond to immunotherapy, suggesting that some specific molecular subtypes of this tumor may have a better response to checkpoint inhibitors. Recent findings suggest that, in addition to their function as cancer genes, somatic mutations of PTEN, TP53, RB1, CDK12, and DNA repair, or specific activation of regulatory pathways, such as ETS or MYC, may also facilitate immune evasion of the host response against cancer. This review presents an update of recent discoveries about the role that the common somatic mutations can play in changing the tumor microenvironment and immune response against prostate cancer. We describe how detailed molecular genetic analyses of the tumor microenvironment of prostate cancer using mouse models and human tumors are providing new insights into the cell types and pathways mediating immune responses. These analyses are helping researchers to design drug combinations that are more likely to target the molecular and immunological pathways that underlie treatment failure. [ABSTRACT FROM AUTHOR]

Published

2021

14. CHARACTERIZATION OF 12 MICROSATELLITE LOCI FOR HYPOCHAERIS CHILLENSIS (ASTERACEAE) AND CROSS-AMPLIFICATION IN RELATED SPECIES.

Author

LÚCIO, CARINA C. F., RUAS, EDUARDO A., RODRIGUES, LUANA A., RUAS, PAULO M., VIDOTTO, THIAGO, BÉRGAMO DE SOUZA, LAÍS, MATZENBACHER, NELSON I., and RUAS, CLAUDETE F.

Subjects

HYPOCHAERIS, BIOLOGICAL models, MICROSATELLITE repeats, GENE amplification

Abstract

• Premise of the study: Hypochaeris is considered a biological model to understand evolutionary processes in the vascular flora of South America, particularly from the temperate portion of the continent. We report the development and characterization of microsatellite markers for H. chillensis to assess the genetic variability and patterns of population structure of the species. • Methods and Results: Twelve microsatellite primers were isolated using a CT- and GT-enriched genomic library. PCR amplification detected one to five alleles, with 2.91 alleles per locus on average. Tested for cross-amplification, all primer pairs were successfully amplified in 10 South American species and in the putative ancestor of the group, H. angustifolia. • Conclusions: The microsatellites can be used to assess genetic diversity and population structure of H. chillensis. Application in other species will focus on the elucidation of adaptive radiation of the genus in South America. [ABSTRACT FROM AUTHOR]

Published

2011

15. DNA damage repair gene mutations and their association with tumor immune regulatory gene expression in muscle invasive bladder cancer subtypes.

Author

Vidotto, Thiago, Nersesian, Sarah, Graham, Charles, Siemens, D. Robert, and Koti, Madhuri

Abstract

Background: Molecular subtyping of urothelial cancer (UC) has significantly advanced the understanding of bladder tumor heterogeneity and development of prognostic and predictive biomarkers. Evolving evidence across cancers strongly suggests that tumor immunoediting has a profound impact on the behaviour of cancer cells and their adaptation to the co-evolving microenvironment and response to treatment. In alignment with these concepts, recent immune checkpoint blockade (ICB) therapies in UC have demonstrated the predictive potential of mutations in the DNA damage repair (DDR) genes. A comprehensive understanding of DDR gene inactivation associated expression of immune regulatory genes could thus aid in expansion of current immunotherapies and predictive biomarkers for the design of patient-tailored combination treatments. Methods: We investigated pre-treatment tumor transcriptomic profiles of the five recently described molecular subtypes of muscle invasive urothelial cancer (MIUC; n = 408) from The Cancer Genome Atlas, to determine subtype specific immune cell abundance, expression of 67 immune regulatory genes, and association with DDR gene inactivation (via mutation, copy number alteration) profiles. Results: Analysis using CIBERSORT immune cell abundance determination tool showed significant differences in immune cell profiles and abundance between MIUC subtypes. Expression patterns of a selected panel of 67 genes including both immune stimulatory and inhibitory genes, showed significant associations with subtypes, and DDR gene mutation status. Conclusion: Findings from our study provide compelling evidence for co-expression of multiple immune checkpoint genes including, PD-1, PD-L1, IDO1, TIGIT, TIM-3, TGFB1, LAG3, and others, that potentially contribute to compensatory immune evasion in bladder tumors. Our findings also emphasize the urgent need for biomarker discovery approaches that combine molecular subtype, DDR gene mutation status, tumor immune landscape classification, and immune checkpoint gene expression to increase the number of patients responding to immunotherapies. [ABSTRACT FROM AUTHOR]

Published

2019