Clinical Cancer Research, 2021
Authors
Evan W. Warner, Cameron Herberts, Simon Fu, Steven M Yip, Amanda Wong, Gang Wang, Elie Ritch, Andrew J Murtha, Gillian Vandekerkhove, Nicolette Fonseca, Arkhjamil Angeles, Arshia Beigi, Elena Schönlau, Kevin Beja, Matti Annala, Daniel J Khalaf, Kim N. Chi and Alexander W Wyatt
Publication Abstract

Purpose: DNA damage repair (DDR) defects are common across cancer types and can indicate therapeutic vulnerability. Optimal exploitation of DDR defects in prostate cancer requires new diagnostic strategies and a better understanding of associated clinical-genomic features.

Experimental design: We performed targeted sequencing of 1615 plasma cell-free DNA samples from 879 metastatic prostate cancer patients. Depth-based copy-number calls and heterozygous SNP imbalance were leveraged to expose DDR-mutant allelic configuration and categorize mechanisms of biallelic loss. We used split-read structural variation analysis to characterize tumor suppressor rearrangements. Patient-matched archival primary tissue was analyzed identically.

Results: BRCA2, ATM, and CDK12 were the most frequently disrupted DDR genes in circulating tumor DNA (ctDNA), collectively mutated in 15% of evaluable cases. Biallelic gene disruption via second somatic alteration or mutant-allele specific imbalance was identified in 79% of patients. A further 2% exhibited homozygous BRCA2 deletions. Tumor suppressors TP53, RB1, and PTEN were controlled via disruptive chromosomal rearrangements in BRCA2-defective samples, but via oncogene amplification in context of CDK12 defects. TP53 mutations were rare in cases with ATM defects. DDR mutations were redetected across 94% of serial ctDNA samples and in all available archival primary tissues, indicating they arose prior to metastatic progression. Loss of BRCA2 and CDK12-but not ATM-was associated with poor clinical outcomes.

Conclusions: BRCA2, ATM, and CDK12 defects are each linked to distinct prostate cancer driver genomics and aggression. The consistency of DDR status in longitudinal samples and resolution of allelic status underscores the potential for ctDNA as a diagnostic tool.

Nature Methods, 2021
Authors
Bernhard Voelkl, Hanno Würbel , Martin Krzywinski , Naomi Altman
Publication Abstract

A popular notion about experiments is that it is beneficial to reduce subjects’ biological and environmental variability to mitigate the influence of confounding factors on the response. The argument is that by keeping the levels of such factors fixed — a process called standardization — we increase precision by limiting the component of response variance that is not due to the experimental treatment. Unfortunately, although standardization increases power, it can also induce such unrealistically low variability that the results do not generalize to the population of interest and may thus be irreproducible — the so-called “standardization fallacy”1. This month, we show how to avoid this fallacy by balancing standardization, which increases power to detect an effect but reduces external validity, with controlled heterogenization, which may reduce power but increases external validity.

Nature Cancer
Authors
Laura M Richards, Owen KN Whitley, Graham MacLeod, Florence MG Cavalli, Fiona J Coutinho, Julia E Jaramillo, Nataliia Svergun, Mazdak Riverin, Danielle C Croucher, Michelle Kushida, Kenny Yu, Paul Guilhamon, Naghmeh Rastegar, Moloud Ahmadi, Jasmine K Bhatti, Danielle A Bozek, Naijin Li, Lilian Lee, Clare Che, Erika Luis, Nicole I Park, Zhiyu Xu, Troy Ketela, Richard A Moore, Marco A Marra, Julian Spears, Michael D Cusimano, Sunit Das, Mark Bernstein, Benjamin Haibe-Kains, Mathieu Lupien, H Artee Luchman, Samuel Weiss, Stephane Angers, Peter B Dirks, Gary D Bader, Trevor J Pugh
Publication Abstract

Glioblastomas harbor diverse cell populations, including rare glioblastoma stem cells (GSCs) that drive tumorigenesis. To characterize functional diversity within this population, we performed single-cell RNA sequencing on >69,000 GSCs cultured from the tumors of 26 patients. We observed a high degree of inter- and intra-GSC transcriptional heterogeneity that could not be fully explained by DNA somatic alterations. Instead, we found that GSCs mapped along a transcriptional gradient spanning two cellular states reminiscent of normal neural development and inflammatory wound response. Genome-wide CRISPR–Cas9 dropout screens independently recapitulated this observation, with each state characterized by unique essential genes. Further single-cell RNA sequencing of >56,000 malignant cells from primary tumors found that the majority organize along an orthogonal astrocyte maturation gradient yet retain expression of founder GSC transcriptional programs. We propose that glioblastomas grow out of a fundamental GSC-based neural wound response transcriptional program, which is a promising target for new therapy development.

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Scientific reports, 2021
Authors
Lebovitz, Chandra, Wretham, Nicole, Osooly, Maryam, Milne, Katy, Dash, Tia, Thornton, Shelby, Tessier-Cloutier, Basile, Sathiyaseelan, Paalini, Bortnik, Svetlana, Go, Nancy Erro, Halvorsen, Elizabeth, Cederberg, Rachel A, Chow, Norman, Dos Santos, Nancy, Bennewith, Kevin L, Nelson, Brad H, Bally, Marcel B, Lam, Wan L, Gorski, Sharon M
Publication Abstract
Pathological links between neurodegenerative disease and cancer are emerging. LRRK2 overactivity contributes to Parkinson's disease, whereas our previous analyses of public cancer patient data revealed that decreased LRRK2 expression is associated with lung adenocarcinoma (LUAD). The clinical and functional relevance of LRRK2 repression in LUAD is unknown. Here, we investigated associations between LRRK2 expression and clinicopathological variables in LUAD patient data and asked whether LRRK2 knockout promotes murine lung tumorigenesis. In patients, reduced LRRK2 was significantly associated with ongoing smoking and worse survival, as well as signatures of less differentiated LUAD, altered surfactant metabolism and immunosuppression. We identified shared transcriptional signals between LRRK2-low LUAD and postnatal alveolarization in mice, suggesting aberrant activation of a developmental program of alveolar growth and differentiation in these tumors. In a carcinogen-induced murine lung cancer model, multiplex IHC confirmed that LRRK2 was expressed in alveolar type II (AT2) cells, a main LUAD cell-of-origin, while its loss perturbed AT2 cell morphology. LRRK2 knockout in this model significantly increased tumor initiation and size, demonstrating that loss of LRRK2, a key Parkinson's gene, promotes lung tumorigenesis.

Urology, 2020
Authors
Martin R Hofmann, Maha Hussain, Scott M Dehm, Himisha Beltran, Alexander W Wyatt, Susan Halabi, Christopher Sweeney, Howard I Scher, Charles J Ryan, Felix Y Feng, Gerhard Attard, Eric Klein, Andrea Miyahira, Howard Soule, Nima Sharifi
Publication Abstract

Androgen deprivation therapy (ADT) remains the backbone therapy for the treatment of metastatic hormone-sensitive prostate cancer (mHSPC). In recent years, several treatments, including docetaxel, abiraterone + prednisone, enzalutamide, and apalutamide, have each been shown to demonstrate survival benefit when used upfront along with ADT. However, treatment selection for an individual patient remains a challenge. There is no high level clinical evidence for treatment selection among these choices based on biological drivers of clinical disease. In August 2020, the Prostate Cancer Foundation convened a working group to meet and discuss biomarkers for hormone-sensitive prostate cancer, the proceedings of which are summarized here. This meeting covered the state of clinical and biological evidence for systemic therapies in the mHSPC space, with emphasis on charting a course for the generation, interrogation, and clinical implementation of biomarkers for treatment selection.

Elife, 2020
Authors
Krystal Ann Orlando, Amber K Douglas, Aierken Abudu, Yemin Wang, Basile Tessier-Cloutier, Weiping Su, Alec Peters, Larry S Sherman, Rayvon Moore, Vinh Nguyen, Gian Luca Negri, Shane Colborne, Gregg B Morin, Friedrich Kommoss, Jessica D Lang, William Pd Hendricks, Elizabeth A Raupach, Patrick Pirrotte, David G Huntsman, Jeffrey M Trent, Joel S Parker, Jesse R Raab, Bernard E Weissman
Publication Abstract

Small cell carcinoma of the ovary, hypercalcemic type (SCCOHT) is a rare and aggressive form of ovarian cancer. SCCOHT tumors have inactivating mutations in SMARCA4 (BRG1), one of the two mutually exclusive ATPases of the SWI/SNF chromatin remodeling complex. To address the role that BRG1 loss plays in SCCOHT tumorigenesis, we performed integrative multi-omic analyses in SCCOHT cell lines +/- BRG1 re-expression. BRG1 re-expression induced a gene and protein signature similar to an epithelial cell and gained chromatin accessibility sites correlated with other epithelial originating TCGA tumors. Gained chromatin accessibility and BRG1 recruited sites were strongly enriched for transcription factor binding motifs of AP-1 family members. Furthermore, AP-1 motifs were enriched at the promoters of highly upregulated epithelial genes. Using a dominant negative AP-1 cell line, we found that both AP-1 DNA binding activity and BRG1 re-expression are necessary for the gene and protein expression of epithelial genes. Our study demonstrates that BRG1 re-expression drives an epithelial-like gene and protein signature in SCCOHT cells that depends upon by AP-1 activity.

Scientific Reports, 2020
Authors
Sylvain Lefort, Sneha Balani, Davide Pellacani, Boris Guyot, Sharon M Gorski, Véronique Maguer-Satta, Connie J Eaves
Publication Abstract

Assessment of autophagy activity has historically been limited to investigations of fixed tissue or bulk cell populations. To address questions of heterogeneity and relate measurements to functional properties of viable cells isolated from primary tissue, we created a lentiviral (RFP-GFP-MAP1LC3B) vector that allows the autophagosome and autolysosome content of transduced cells to be monitored at the single-cell level. Use of this strategy to analyze purified subsets of normal human mammary cells showed that both the luminal progenitor-containing (LP) subset and the basal cells (BCs) display highly variable but overall similar autophagic flux activity despite differences suggested by measurements of the proteins responsible (i.e., LC3B, ATG7 and BECLIN1) in bulk lysates. Autophagosome content was also highly variable in the clonogenic cells within both the LPs and BCs, but the proliferative response of the BCs was more sensitive to autophagy inhibition. In addition, use of this vector showed cells with the lowest autophagosome content elicited the fastest tumor growth in 2 different models of human mammary tumorigenesis. These results illustrate the utility of this vector to define differences in the autophagy properties of individual cells in primary tissue and couple these with their responses to proliferative and oncogenic stimuli.

Brain, 2020
Authors
Katayoun Ayasoufi, Christian K Pfaller, Laura Evgin, Roman H Khadka, Zachariah P Tritz, Emma N Goddery, Cori E Fain, Lila T Yokanovich, Benjamin T Himes, Fang Jin, Jiaying Zheng, Matthew R Schuelke, Michael J Hansen, Wesley Tung, Ian F Parney, Larry R Pease, Richard G Vile, Aaron J Johnson
Publication Abstract

Immunosuppression of unknown aetiology is a hallmark feature of glioblastoma and is characterized by decreased CD4 T-cell counts and downregulation of major histocompatibility complex class II expression on peripheral blood monocytes in patients. This immunosuppression is a critical barrier to the successful development of immunotherapies for glioblastoma. We recapitulated the immunosuppression observed in glioblastoma patients in the C57BL/6 mouse and investigated the aetiology of low CD4 T-cell counts. We determined that thymic involution was a hallmark feature of immunosuppression in three distinct models of brain cancer, including mice harbouring GL261 glioma, B16 melanoma, and in a spontaneous model of diffuse intrinsic pontine glioma. In addition to thymic involution, we determined that tumour growth in the brain induced significant splenic involution, reductions in peripheral T cells, reduced MHC II expression on blood leucocytes, and a modest increase in bone marrow resident CD4 T cells. Using parabiosis we report that thymic involution, declines in peripheral T-cell counts, and reduced major histocompatibility complex class II expression levels were mediated through circulating blood-derived factors. Conversely, T-cell sequestration in the bone marrow was not governed through circulating factors. Serum isolated from glioma-bearing mice potently inhibited proliferation and functions of T cells both in vitro and in vivo. Interestingly, the factor responsible for immunosuppression in serum is non-steroidal and of high molecular weight. Through further analysis of neurological disease models, we determined that the immunosuppression was not unique to cancer itself, but rather occurs in response to brain injury. Non-cancerous acute neurological insults also induced significant thymic involution and rendered serum immunosuppressive. Both thymic involution and serum-derived immunosuppression were reversible upon clearance of brain insults. These findings demonstrate that brain cancers cause multifaceted immunosuppression and pinpoint circulating factors as a target of intervention to restore immunity.

Frontiers in Immunology, 2020
Authors
Nicola Principe, Joel Kidman, Siting Goh, Caitlin M Tilsed, Scott A Fisher, Vanessa S Fear, Catherine A Forbes, Rachael M Zemek, Abha Chopra, Mark Watson, Ian M Dick, Louis Boon, Robert A Holt, Richard A Lake, Anna K Nowak, Willem Joost Lesterhuis, Alison M McDonnell, Jonathan Chee
Publication Abstract

Immune checkpoint therapy (ICT) results in durable responses in individuals with some cancers, but not all patients respond to treatment. ICT improves CD8+ cytotoxic T lymphocyte (CTL) function, but changes in tumor antigen-specific CTLs post-ICT that correlate with successful responses have not been well characterized. Here, we studied murine tumor models with dichotomous responses to ICT. We tracked tumor antigen-specific CTL frequencies and phenotype before and after ICT in responding and non-responding animals. Tumor antigen-specific CTLs increased within tumor and draining lymph nodes after ICT, and exhibited an effector memory-like phenotype, expressing IL-7R (CD127), KLRG1, T-bet, and granzyme B. Responding tumors exhibited higher infiltration of effector memory tumor antigen-specific CTLs, but lower frequencies of regulatory T cells compared to non-responders. Tumor antigen-specific CTLs persisted in responding animals and formed memory responses against tumor antigens. Our results suggest that increased effector memory tumor antigen-specific CTLs, in the presence of reduced immunosuppression within tumors is part of a successful ICT response. Temporal and nuanced analysis of T cell subsets provides a potential new source of immune based biomarkers for response to ICT.

Case Reports In Gastrointestinal Medicine
Authors
Chris Shamatutu, Daljeet Chahal, Isabella T Tai, Peter Kwan
Publication Abstract

Colonoscopy is widely used for the diagnosis and management of colorectal disease and requires adequate bowel preparation. Ischemic colitis is a form of intestinal ischemia that presents with abdominal pain, diarrhea, and hematochezia. Risk factors include advanced age, cardiovascular disease, and diabetes. Both colonoscopy and bisacodyl bowel preparation have been described as rare causes of ischemic colitis with less than 35 cases collectively in the literature. Our review found that of these cases, there exists significant heterogeneity within individual patient characteristics. The majority of the cases are managed conservatively without complications or sequela. Due to the risk of ischemic colitis, the FDA has withdrawn bisacodyl bowel preparations from use in the USA. Bisacodyl bowel preparations are still used in Canada.

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