Keith Rivera scite author profile

SUMMARY Pancreatic cancer is one of the most lethal malignancies due to its late diagnosis and limited response to treatment. Tractable methods to identify and interrogate pathways involved in pancreatic tumorigenesis are urgently needed. We established organoid models from normal and neoplastic murine and human pancreas tissues. Pancreatic organoids can be rapidly generated from resected tumors and biopsies, survive cryopreservation and exhibit ductal- and disease stage-specific characteristics. Orthotopically transplanted neoplastic organoids recapitulate the full spectrum of tumor development by forming early-grade neoplasms that progress to locally invasive and metastatic carcinomas. Due to their ability to be genetically manipulated, organoids are a platform to probe genetic cooperation. Comprehensive transcriptional and proteomic analyses of murine pancreatic organoids revealed genes and pathways altered during disease progression. The confirmation of many of these protein changes in human tissues demonstrates that organoids are a facile model system to discover characteristics of this deadly malignancy.

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Vitamin C selectively kills KRAS and BRAF mutant colorectal cancer cells by targeting GAPDH

Yun

Mullarky

et al. 2015

Science

776

775

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More than half of human colorectal cancers (CRCs) carry either KRAS or BRAF mutations, and are often refractory to approved targeted therapies. We report that cultured CRC cells harboring KRAS or BRAF mutations are selectively killed when exposed to high levels of vitamin C. This effect is due to increased uptake of the oxidized form of vitamin C, dehydroascorbate (DHA), via the GLUT1 glucose transporter. Increased DHA uptake causes oxidative stress as intracellular DHA is reduced to vitamin C depleting glutathione. Thus, ROS accumulates and inactivates glyceraldehyde 3-phosphate dehydrogenase (GAPDH). Inhibiting GAPDH in highly glycolytic KRAS or BRAF mutant cells leads to an energetic crisis and cell death not seen in KRAS and BRAF wild-type cells. In vivo studies indicate that high-dose vitamin C can impair tumor growth in Apc/KrasG12D mutant mouse intestinal cancers. While it is unclear whether human tumors will respond similarly, our results provide a mechanistic rationale for exploring the therapeutic use of vitamin C to treat CRCs with KRAS or BRAF mutations.

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BET Bromodomain Inhibition Suppresses the Function of Hematopoietic Transcription Factors in Acute Myeloid Leukemia

et al. 2015

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Summary The bromodomain and extraterminal (BET) protein BRD4 is a validated drug target in leukemia, yet its regulatory function in this disease is not well understood. Here, we show that BRD4 chromatin occupancy in acute myeloid leukemia closely correlates with the hematopoietic transcription factors (TFs) PU.1, FLI1, ERG, C/EBPα, C/EBPβ, and MYB at nucleosome-depleted enhancer and promoter regions. We provide evidence that these TFs, in conjunction with the lysine acetyltransferase activity of p300/CBP, facilitate BRD4 recruitment to their occupied sites to promote transcriptional activation. Chemical inhibition of BET bromodomains was found to suppress the functional output each hematopoietic TF, thereby interfering with essential lineage-specific transcriptional circuits in this disease. These findings reveal a chromatin-based signaling cascade comprised of hematopoietic TFs, p300/CBP, and BRD4 that supports leukemia maintenance and is suppressed by BET bromodomain inhibition.

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NRF2 Promotes Tumor Maintenance by Modulating mRNA Translation in Pancreatic Cancer

Chio

Jafarnejad

Ponz-Sarvisé

et al. 2016

Cell

322

266

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Summary Pancreatic cancer is a deadly malignancy that lacks effective therapeutics. We previously reported that oncogenic Kras induced the redox master regulator Nrf2/Nfe2l2 to stimulate pancreatic and lung cancer initiation. Here, we show that NRF2 is necessary to maintain pancreatic cancer proliferation by regulating mRNA translation. Specifically, loss of NRF2 led to defects in autocrine EGFR signaling and oxidation of specific translational regulatory proteins, resulting in impaired cap-dependent and cap-independent mRNA translation in pancreatic cancer cells. Combined targeting of the EGFR effector AKT and the glutathione antioxidant pathway mimicked Nrf2 ablation to potently inhibit pancreatic cancer ex vivo and in vivo, representing a promising synthetic lethal strategy for treating the disease.

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The glycan CA19-9 promotes pancreatitis and pancreatic cancer in mice

Engle

Tiriac

Rivera

et al. 2019

Science

206

167

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Glycosylation alterations are indicative of tissue inflammation and neoplasia, but whether these alterations contribute to disease pathogenesis is largely unknown. To study the role of glycan changes in pancreatic disease, we inducibly expressed human Fucosyltransferase 3 and β1,3-Galactosyltransferase 5 in mice, reconstituting the glycan sialyl-Lewis a/Carbohydrate Antigen 19–9 (CA19–9). Notably, CA19–9 expression in mice resulted in rapid and severe pancreatitis with hyperactivation of epidermal growth factor receptor (EGFR) signaling. Mechanistically, CA19–9 modification of the matricellular protein Fibulin 3 increased its interaction with EGFR, and blockade of Fibulin 3, EGFR, or CA19–9 prevented EGFR hyperactivation in organoids. CA19–9-mediated pancreatitis was reversible and could be suppressed with CA19–9 antibodies. CA19–9 also cooperated with the KrasG12D oncogene to produce aggressive pancreatic cancer. These findings implicate CA19–9 in the etiology of pancreatitis and pancreatic cancer and nominate CA19–9 as a therapeutic target.

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Keith Rivera

Organoid Models of Human and Mouse Ductal Pancreatic Cancer

Vitamin C selectively kills KRAS and BRAF mutant colorectal cancer cells by targeting GAPDH

BET Bromodomain Inhibition Suppresses the Function of Hematopoietic Transcription Factors in Acute Myeloid Leukemia

NRF2 Promotes Tumor Maintenance by Modulating mRNA Translation in Pancreatic Cancer

The glycan CA19-9 promotes pancreatitis and pancreatic cancer in mice

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