Project description:There is drastic racial disparities between Caucasian (CA) and African American (AA) for breast cancer. Circulating microRNAs exhibit stability and may serve as biomarkers in clinical settings. To discover potential microRNAs that mediate intercellular crosstalk and as biomarkers underlying the breast cancer racial disparity, serum exosomes from CA and AA were extracted and analyzed for its microRNA contents using small RNA sequencing.

Project description:Pancreatic cancer is a heterogenous disease and consists of distinct subtypes. Here, we searched for candidate driver genes of the basal-like/squamous subtype, a more aggressive molecular subtype of pancreatic ductal adenocarcinoma (PDAC). Through an integrated transcriptome analysis, we identified the serine/cysteine protease inhibitor, SERPINB3 (squamous cell carcinoma antigen 1, SCCA1), as being upregulated in the basal-like/squamous PDAC using a discovery and validation approach. SERPINB3 upregulation associated with decreased patient survival and a transcriptome profile indicative of the basal-like/squamous subtype. The goal of this study was aimed to identify SERPINB3 induced molecular signatures in PDAC.

Project description:Pancreatic cancer is a heterogenous disease and consists of distinct subtypes. Here, we searched for candidate driver genes of the basal-like/squamous subtype, a more aggressive molecular subtype of pancreatic ductal adenocarcinoma (PDAC). Through an integrated transcriptome analysis, we identified the serine/cysteine protease inhibitor, SERPINB3 (squamous cell carcinoma antigen 1, SCCA1), as being upregulated in the basal-like/squamous PDAC using a discovery and validation approach. SERPINB3 upregulation associated with decreased patient survival and a transcriptome profile indicative of the basal-like/squamous subtype. The goal of this study was aimed to identify SERPINB3 induced molecular signatures in PDAC.

Project description:Pancreatic cancer is a heterogenous disease and consists of distinct subtypes. Here, we searched for candidate driver genes of the basal-like/squamous subtype, a more aggressive molecular subtype of pancreatic ductal adenocarcinoma (PDAC). Through an integrated transcriptome analysis, we identified the serine/cysteine protease inhibitor, SERPINB3 (squamous cell carcinoma antigen 1, SCCA1), as being upregulated in the basal-like/squamous PDAC using a discovery and validation approach. SERPINB3 upregulation associated with decreased patient survival and a transcriptome profile indicative of the basal-like/squamous subtype. The goal of this study was aimed to identify SERPINB3 induced molecular signatures in PDAC.

Project description:Nuclear Protein 1 (Nupr1) is a major actor of the cell stress response required for KrasG12D-driven formation of pancreatic intraepithelial neoplastic (PanINs) lesions in mice. We investigated the impact of Nupr1-depletion on the development and biology of murin pancreatic adenocarcinomas (PDAC) in the Pdx1-cre;LSL-KrasG12D;Ink4a/Arffl/fl (KIC) mice. We found that only one half of Nupr1-deficient mice developed PDAC. This is related to increased caspase 3 activity and low IER3 expression in Nupr1-deficient;KIC in the pancreas. Moreover, when Nupr1-deficient;KIC mice do develop PDAC, tumors present with impaired epithelial-to-mesenchymal transition (EMT). Transcriptoma analysis revealed that Nupr1-deficient and Nupr1wt;KIC PDACs presented enrichment of gene signatures of the human classical- and quasi-mesenchymal (QM)-PDAC respectively. Moreover, Nupr1-deficient;KIC PDACs shared with human classical-PDACs overexpression of Kras-activation genes. In addition, cells derived from Nupr1-deficient;KIC PDACs formed fewer microspheres in vitro compared to Nupr1wt;KIC cells, indicative of stemness impairment in the absence of Nupr1. Finally, we found that Nupr1-deficient;KIC cells were more sensitive to some anticancer drugs than their Nupr1wt counterpart. Hence, this study establishes the pivotal role of Nupr1 in PDAC progression after PanIN and in PDAC EMT in vivo, with an impact in PDAC cell stemness. As a consequence, according to absence or presence of Nupr1, KIC mice develop tumors that phenocopy human classical- or QM-PDAC, respectively, thus becoming attractive models for preclinical drug trials. We investigated the impact of the homozygous deletion of the Nupr1 gene on pancreatic adenocarcinoma development and biology in the Pdx1-cre;LSL-KrasG12D;Ink4a/Arffl/fl (KIC) mouse model.

Project description:African Americans (AA) are 70% more likely than Caucasian Americans (CA) to die from heart failure (HF) even after adjusting for known causes. Although the causal factors responsible for this racial disparity remain unknown, it is theorized that environmental stressors This alarming health disparity represents an important challenge to U.S. healthcare as global prevalence of heart failure has already exceeded epidemic levels with a disease burden that disproportionately impacts members of ethnic and racial minorities. The current multicohort study of cardiac DNA methylation identifies the cardiac epigenome as a previously unrecognized syntax that encodes race-based environmental differences in the failing human heart.

Project description:African Americans (AA) are 70% more likely than Caucasian Americans (CA) to die from heart failure (HF) even after adjusting for known causes. Although the causal factors responsible for this racial disparity remain unknown, it is theorized that environmental stressors This alarming health disparity represents an important challenge to U.S. healthcare as global prevalence of heart failure has already exceeded epidemic levels with a disease burden that disproportionately impacts members of ethnic and racial minorities. The current multicohort study of cardiac DNA methylation identifies the cardiac epigenome as a previously unrecognized syntax that encodes race-based environmental differences in the failing human heart.

Project description:Treatment of pancreatic ductal carcinomas (PDACs) has been advanced by the development of KRAS mutant inhibitors. Despite this progress, PDACs invariably develop resistance to these agents by mechanisms that largely remain unclear. The MUC1 gene, which encodes an oncogenic MUC1-C protein, is upregulated in PDAC KRAS G12D tumors. We report that treatment of PDAC cells with the selective KRAS G12D MRTX1133 inhibitor is associated with induction of MUC1-C expression. We show that KRAS G12D inhibition activates a MUC1-C/NF-B p65 auto-inductive pathway. Our results further demonstrate that MUC1-C drives resistance to MRTX1133 by activating the inflammatory IFN type I and II pathways. Of clinical relevance, targeting MUC1-C genetically and pharmacologically reverses MRTX1133 resistance and is synergistic in combination with MRTX1133 treatment. In leveraging MRTX1133-induced upregulation of MUC1-C expression, an anti-MUC1-C (M1C) antibody-drug conjugate (ADC) is highly effective against MRTX1133-resistant PDAC KRAS G12D cell lines, patient-derived organoids and PDX tumor xenograft models. These findings demonstrate that MUC1-C confers resistance of PDAC KRAS G12D mutant cells to MRTX1133 and identify MUC1-C as a target for M1C ADC treatment of PDAC patients who are refractory to MRTX1133 treatment.

Project description:Nuclear Protein 1 (Nupr1) is a major actor of the cell stress response required for KrasG12D-driven formation of pancreatic intraepithelial neoplastic (PanINs) lesions in mice. We investigated the impact of Nupr1-depletion on the development and biology of murin pancreatic adenocarcinomas (PDAC) in the Pdx1-cre;LSL-KrasG12D;Ink4a/Arffl/fl (KIC) mice. We found that only one half of Nupr1-deficient mice developed PDAC. This is related to increased caspase 3 activity and low IER3 expression in Nupr1-deficient;KIC in the pancreas. Moreover, when Nupr1-deficient;KIC mice do develop PDAC, tumors present with impaired epithelial-to-mesenchymal transition (EMT). Transcriptoma analysis revealed that Nupr1-deficient and Nupr1wt;KIC PDACs presented enrichment of gene signatures of the human classical- and quasi-mesenchymal (QM)-PDAC respectively. Moreover, Nupr1-deficient;KIC PDACs shared with human classical-PDACs overexpression of Kras-activation genes. In addition, cells derived from Nupr1-deficient;KIC PDACs formed fewer microspheres in vitro compared to Nupr1wt;KIC cells, indicative of stemness impairment in the absence of Nupr1. Finally, we found that Nupr1-deficient;KIC cells were more sensitive to some anticancer drugs than their Nupr1wt counterpart. Hence, this study establishes the pivotal role of Nupr1 in PDAC progression after PanIN and in PDAC EMT in vivo, with an impact in PDAC cell stemness. As a consequence, according to absence or presence of Nupr1, KIC mice develop tumors that phenocopy human classical- or QM-PDAC, respectively, thus becoming attractive models for preclinical drug trials.

Project description:Systemic sclerosis (SSc) is a rare and devastating connective tissue disorder that results in fibrosis and vascular abnormalities that affect the skin and visceral organs, and SSc-associated pulmonary fibrosis (SSc-PF) is the leading cause of death amongst SSc patients. Racial disparity is noticeable in SSc as African Americans (AA) have a higher frequency and severity of diseases than European Americans (EA). Using RNAseq, we determined differentially expressed genes (DEGs) in primary pulmonary fibroblasts (pFBs) outgrown from SSc-PF lungs (SScL) and normal lungs (NL) of AA and EA patients to characterize the unique transcriptomic signatures of AA-NL and AA-SScL pFBs by performing a systems level analysis. We identified 69 DEGs in “AA-NL vs. EA-NL” and 384 DEGs in “AA-SScL vs. EA-SScL” comparisons, and only 7.5% DEGs were commonly deregulated in the “SScL vs. NL in AA and EA” disease mechanisms comparison. Surprisingly, we also identified a disease-like signature in AA-NL pFBs. Our data highlight that the transcriptome of AA pFBs is unique and may hold the key to understanding racial disparity in SSc-PF, the first step in developing efficacious therapeutic strategies.