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Browsing by Author "McElyea, Kyle C."
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Item Applying Small Molecule Signal Transducer and Activator of Transcription-3 (STAT3) Protein Inhibitors as Pancreatic Cancer Therapeutics(American Association for Cancer Research, 2016-05) Arpin, Carolynn C.; Mac, Stephen; Jiang, Yanlin; Cheng, Huiwen; Grimard, Michelle; Page, Brent D. G.; Kamocka, Malgorzata M.; Haftchenary, Sina; Su, Han; Ball, Daniel; Rosa, David A.; Lai, Ping-Shan; Gómez-Biagi, Rodolfo F.; Ali, Ahmed M.; Rana, Rahul; Hanenberg, Helmut; Kerman, Kagan; McElyea, Kyle C.; Sandusky, George E.; Gunning, Patrick T.; Fishel, Melissa L.; Pediatrics, School of MedicineConstitutively activated STAT3 protein has been found to be a key regulator of pancreatic cancer and a target for molecular therapeutic intervention. In this study, PG-S3-001, a small molecule derived from the SH-4-54 class of STAT3 inhibitors, was found to inhibit patient-derived pancreatic cancer cell proliferation in vitro and in vivo in the low micromolar range. PG-S3-001 binds the STAT3 protein potently, Kd = 324 nmol/L by surface plasmon resonance, and showed no effect in a kinome screen (>100 cancer-relevant kinases). In vitro studies demonstrated potent cell killing as well as inhibition of STAT3 activation in pancreatic cancer cells. To better model the tumor and its microenvironment, we utilized three-dimensional (3D) cultures of patient-derived pancreatic cancer cells in the absence and presence of cancer-associated fibroblasts (CAF). In this coculture model, inhibition of tumor growth is maintained following STAT3 inhibition in the presence of CAFs. Confocal microscopy was used to verify tumor cell death following treatment of 3D cocultures with PG-S3-001. The 3D model was predictive of in vivo efficacy as significant tumor growth inhibition was observed upon administration of PG-S3-001. These studies showed that the inhibition of STAT3 was able to impact the survival of tumor cells in a relevant 3D model, as well as in a xenograft model using patient-derived cells.Item Early-Stage Metastasis Requires Mdm2 and Not p53 Gain of Function(AACR, 2017-11) Hauck, Paula M.; Wolf, Eric R.; Olivos, David J., III; Batuello, Christopher N.; McElyea, Kyle C.; McAtarsney, Ciaran; Cournoyer, R. Michael; Sandusky, George E.; Mayo, Lindsey D.; Pediatrics, School of MedicineMetastasis of cancer cells to distant organ systems is a complex process that is initiated with the programming of cells in the primary tumor. The formation of distant metastatic foci is correlated with poor prognosis and limited effective treatment options. We and others have correlated Mouse double minute 2 (Mdm2) with metastasis; however, the mechanisms involved have not been elucidated. Here, it is reported that shRNA-mediated silencing of Mdm2 inhibits epithelial–mesenchymal transition (EMT) and cell migration. In vivo analysis demonstrates that silencing Mdm2 in both post-EMT and basal/triple-negative breast cancers resulted in decreased primary tumor vasculature, circulating tumor cells, and metastatic lung foci. Combined, these results demonstrate the importance of Mdm2 in orchestrating the initial stages of migration and metastasis.