Browsing by Subject "Pancreatic ductal adenocarcinoma"

Now showing 1 - 8 of 8
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    APE1/REF-1 redox signaling regulates HIF1A-mediated CA9 expression in hypoxic pancreatic cancer cells : combination treatment in patient-derived pancreatic tumor model
    (2017-12-14) Logsdon, Derek Paul; Kelly, Mark; Fishel, Melissa; Jerde, Travis; Vasko, Michael; Fehrenbacher, Jill
    Pancreatic ductal adenocarcinoma (PDAC) is an extremely deadly disease characterized by aggressive metastasis and therapeutic resistance. Reactive stroma in pancreatic tumors contributes to tumor signaling, fibrosis, inflammation, and hypoxia. Hypoxia signaling creates a more aggressive phenotype with increased potential for metastasis and decreased therapeutic efficacy. Carbonic anhydrase IX (CA9) functions as part of the cellular response to hypoxia by regulating intracellular pH to promote cell survival. Apurinic/Apyrimidinic Endonuclease-1-Reduction/oxidation Effector Factor 1 (APE1/Ref-1) is a multi-functional protein with two major activities: endonuclease activity in DNA base excision repair and a redox signaling activity that reduces oxidized transcription factors, enabling them to bind target sequences in DNA. APE1/Ref-1 is a central node in redox signaling, contributing to the activation of transcription factors involved in tumor survival, growth, and hypoxia signaling. This work evaluates the mechanisms underlying PDAC cell responses to hypoxia and APE1/Ref-1 redox signaling control of hypoxia inducible factor 1 alpha (HIF1a), a critical factor in hypoxia-induced CA9 transcription. We hypothesized that obstructing the HIF-CA9 axis at two points via APE1/Ref-1 inhibition and CA9 inhibition results in enhanced PDAC cell killing under hypoxic conditions. We found that HIF1a-mediated induction of CA9 is significantly attenuated following APE1/Ref-1 knock-down or redox signaling inhibition in patient-derived PDAC cells and pancreatic cancer-associated fibroblast cells. Additionally, dual-targeting of APE1/Ref-1 redox signaling activity and CA9 activity results in enhanced acidification and cytotoxicity of PDAC cells under hypoxic conditions as well as decreased tumor growth in an ex-vivo 3-dimensional tumor co-culture model. Further experiments characterized novel analogs of clinically relevant drugs targeting the key enzymes in this pathway, resulting in improved potency. These results underscore the notion that combination therapy is essential and demonstrate the potential clinical utility of blocking APE1/Ref-1 and CA9 function for novel PDAC therapeutic treatment.
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    Beyond Kras: MYC Rules in Pancreatic Cancer
    (Elsevier, 2018-05-26) Korc, Murray; Medicine, School of Medicine
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    Pathogenesis of Pancreatic Cancer-related Diabetes Mellitus: Quo Vadis?
    (Wolters Kluwer, 2019-05) Korc, Murray; Medicine, School of Medicine
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    Pathophysiological role of microRNA-29 in pancreatic cancer stroma
    (Nature Publishing Group, 2015-06-22) Kwon, Jason J.; Nabinger, Sarah C.; Vega, Zachary; Snigdha Sahu, Smiti; Alluri, Ravi K.; Abdul-Sater, Zahi; Yu, Zhangsheng; Gore, Jesse; Nalepa, Grzegorz; Saxena, Romil; Korc, Murray; Kota, Janaiah; Department of Medical & Molecular Genetics, IU School of Medicine
    Dense fibrotic stroma associated with pancreatic ductal adenocarcinoma (PDAC) is a major obstacle for drug delivery to the tumor bed and plays a crucial role in pancreatic cancer progression. Current, anti-stromal therapies have failed to improve tumor response to chemotherapy and patient survival. Furthermore, recent studies show that stroma impedes tumor progression, and its complete ablation accelerates PDAC progression. In an effort to understand the molecular mechanisms associated with tumor-stromal interactions, using in vitro and in vivo models and PDAC patient biopsies, we show that the loss of miR-29 is a common phenomenon of activated pancreatic stellate cells (PSCs)/fibroblasts, the major stromal cells responsible for fibrotic stromal reaction. Loss of miR-29 is correlated with a significant increase in extracellular matrix (ECM) deposition, a major component in PDAC stroma. Our in vitro miR-29 gain/loss-of-function studies document the role of miR-29 in PSC-mediated ECM stromal protein accumulation. Overexpression of miR-29 in activated stellate cells reduced stromal deposition, cancer cell viability, and cancer growth in co-culture. Furthermore, the loss of miR-29 in TGF-β1 activated PSCs is SMAD3 dependent. These results provide insights into the mechanistic role of miR-29 in PDAC stroma and its potential use as a therapeutic agent to target PDAC.
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    Profiling of Adipose and Skeletal Muscle in Human Pancreatic Cancer Cachexia Reveals Distinct Gene Profiles with Convergent Pathways
    (MDPI, 2021-04-20) Narasimhan, Ashok; Zhong, Xiaoling; Au, Ernie P.; Ceppa, Eugene P.; Nakeeb, Atilla; House, Michael G.; Zyromski, Nicholas J.; Schmidt, C. Max; Schloss, Katheryn N. H.; Schloss, Daniel E. I.; Liu, Yunlong; Jiang, Guanglong; Hancock, Bradley A.; Radovich, Milan; Kays, Joshua K.; Shahda, Safi; Couch, Marion E.; Koniaris, Leonidas G.; Zimmers, Teresa A.; Surgery, School of Medicine
    The vast majority of patients with pancreatic ductal adenocarcinoma (PDAC) suffer cachexia. Although cachexia results from concurrent loss of adipose and muscle tissue, most studies focus on muscle alone. Emerging data demonstrate the prognostic value of fat loss in cachexia. Here we sought to identify the muscle and adipose gene profiles and pathways regulated in cachexia. Matched rectus abdominis muscle and subcutaneous adipose tissue were obtained at surgery from patients with benign conditions (n = 11) and patients with PDAC (n = 24). Self-reported weight loss and body composition measurements defined cachexia status. Gene profiling was done using ion proton sequencing. Results were queried against external datasets for validation. 961 DE genes were identified from muscle and 2000 from adipose tissue, demonstrating greater response of adipose than muscle. In addition to known cachexia genes such as FOXO1, novel genes from muscle, including PPP1R8 and AEN correlated with cancer weight loss. All the adipose correlated genes including SCGN and EDR17 are novel for PDAC cachexia. Pathway analysis demonstrated shared pathways but largely non-overlapping genes in both tissues. Age related muscle loss predominantly had a distinct gene profiles compared to cachexia. This analysis of matched, externally validate gene expression points to novel targets in cachexia.
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    Targeting Ref-1/APE1 Pathway Inhibition in Pancreatic Cancer Using APX3330 for Clinical Trials
    (Office of the Vice Chancellor for Research, 2016-04-08) Fishel, Melissa L.; Logsdon, Derek P.; Supuran, Claudiu T.; Zyromski, Nicholas; Ivan, Mircea; Kelley, Mark R.; Shah, Fenil
    Pancreatic ductal adenocarcinoma is the 4th leading cause of cancer-related mortality in the US. Most patients present with advanced disease and ~95% die within five years, most surviving under six months. Targeted therapies offer modest improvement in survival, albeit at an increase in side effects and unwanted toxicities. Ref-1 regulates transcription factors involved in pancreatic cancer cell survival signaling due to its redox-coactivator activity, such as HIF-1α, NFκB, NRF2 and STAT3. High expression levels of Ref-1 indicate decreased survival in PDAC and other cancers. APX3330, a specific Ref-1 inhibitor, has been shown in multiple in vitro and in vivo pancreatic cancer models to be effective in reducing tumor growth and metastases. The safety and dose administration of APX3330 have been previously established, including toxicology, phase I, and phase II clinical evaluation in non-cancer patients in Japan (Eisai). We have partnered with ApeX Therapeutics to develop APX3330 for cancer treatment (phase I trial anticipated early 2016). We studied interactions of Ref-1, APX3330, convergent pathways; i.e. HIF-1α and STAT3, and downstream targets like CAIX. We performed in vivo studies demonstrating single and combination effects of APX3330 with Gemcitabine (Gem) showing significantly decreased tumor volume in the combination treatments. We also tested single and combination studies of APX3330 in an ex vivo 3-D tumor-stroma model system using patient derived tumor cells along with patient derived cancer-associated fibroblasts. We used the CAIX inhibitor SLC-0111 and JAK2 inhibitor, Ruxolitinib; both in clinical trials. In our system, APX3330 decreases the tumor area and intensity in a dose-dependent manner. The combination of APX3330 with Gem demonstrated an additive enhancement effect in the tumor, and APX3330 with SLC-0111/Ruxolitinib enhanced tumor killing. These data demonstrate APX3330 single agent efficacy in our 3D patient model and enhanced tumor killing when pathways regulated by Ref-1, HIF-1 and STAT3 are blocked.
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    Type 3c (pancreatogenic) diabetes mellitus secondary to chronic pancreatitis and pancreatic cancer
    (Elsevier, 2016-11) Hart, Phil A.; Bellin, Melena D.; Andersen, Dana K.; Bradley, David; Cruz-Monserrate, Zobeida; Forsmark, Christopher E.; Goodarz, Mark O.; Habtezion, Aida; Korc, Murray; Kudva, Yogish C.; Pandol, Stephen J.; Yadav, Dhiraj; Chari, Suresh T.; Consortium for the Study of Chronic Pancreatitis, Diabetes, and Pancreatic Cancer(CPDPC); Medicine, School of Medicine
    Diabetes mellitus is a group of diseases defined by persistent hyperglycaemia. Type 2 diabetes, the most prevalent form, is characterised initially by impaired insulin sensitivity and subsequently by an inadequate compensatory insulin response. Diabetes can also develop as a direct consequence of other diseases, including diseases of the exocrine pancreas. Historically, diabetes due to diseases of the exocrine pancreas was described as pancreatogenic or pancreatogenous diabetes mellitus, but recent literature refers to it as type 3c diabetes. It is important to note that type 3c diabetes is not a single entity; it occurs because of a variety of exocrine pancreatic diseases with varying mechanisms of hyperglycaemia. The most commonly identified causes of type 3c diabetes are chronic pancreatitis, pancreatic ductal adenocarcinoma, haemochromatosis, cystic fibrosis, and previous pancreatic surgery. In this Review, we discuss the epidemiology, pathogenesis, and clinical relevance of type 3c diabetes secondary to chronic pancreatitis and pancreatic ductal adenocarcinoma, and highlight several important knowledge gaps.
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    Validation of American Joint Committee on Cancer 8th edition of TNM staging in resected distal pancreatic cancer
    (Baishideng, 2020-06-09) Yin, Feng; Saad, Mohammed; Xie, Hao; Lin, Jingmei; Jackson, Christopher R.; Ren, Bing; Lawson, Cynthia; Karamchandani, Dipti M.; Bernabeu, Belen Quereda; Jiang, Wei; Dhir, Teena; Zheng, Richard; Schultz, Christopher W.; Zhang, Dongwei; Thomas, Courtney L.; Zhang, Xuchen; Lai, Jinping; Schild, Michael; Zhang, Xuefeng; Liu, Xiuli; Medicine, School of Medicine
    BACKGROUND In order to improve risk stratification and clinical management of the pancreatic ductal adenocarcinoma (PDAC), the American Joint Committee on Cancer (AJCC) has published its eighth edition staging manual. Some major changes have been introduced in the new staging system for both T and N categories. Given the rarity of resectable disease, distal pancreatic cancer is likely underrepresented in the published clinical studies, and how the impact of the staging system actually reflects on to clinical outcomes remain unclear. AIM To validate the AJCC 8th edition of TNM staging in distal PDAC. METHODS A retrospective cohort study was performed in seven academic medical centers in the United States. Clinicopathological prognostic factors associated with progression-free survival (PFS) and overall survival (OS) were evaluated through univariate and multivariate analyses. RESULTS Overall, 454 patients were enrolled in the study, and were divided into 2 subgroups: Invasive intraductal papillary mucinous neoplasms (IPMN) (115 cases) and non-IPMN associated adenocarcinoma (339 cases). Compared to invasive IPMN, non-IPMN associated adenocarcinomas are more common in relatively younger patients, have larger tumor size, are more likely to have positive lymph nodes, and are associated with a higher tumor (T) stage and nodal (N) stage, lymphovascular invasion, perineural invasion, tumor recurrence, and a worse PFS and OS. The cohort was predominantly categorized as stage 3 per AJCC 7th edition staging manual, and it’s more evenly distributed based on 8th edition staging manual. T and N staging of both 7th and 8th edition sufficiently stratify PFS and OS in the entire cohort, although dividing into N1 and N2 according to the 8th edition does not show additional stratification. For PDAC arising in IPMN, T staging of the 7th edition and N1/N2 staging of the 8th edition appear to further stratify PFS and OS. For PDAC without an IPMN component, T staging from both versions fails to stratify PFS and OS. CONCLUSION The AJCC 8th edition TNM staging system provides even distribution for the T staging, however, it does not provide better risk stratification than previous staging system for distal pancreatic cancer.