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Full-Text Articles in Medical Molecular Biology
Clinical Application Of Oncolytic Viruses: A Systematic Review, Mary Cook, Aman Chauhan
Clinical Application Of Oncolytic Viruses: A Systematic Review, Mary Cook, Aman Chauhan
Internal Medicine Faculty Publications
Leveraging the immune system to thwart cancer is not a novel strategy and has been explored via cancer vaccines and use of immunomodulators like interferons. However, it was not until the introduction of immune checkpoint inhibitors that we realized the true potential of immunotherapy in combating cancer. Oncolytic viruses are one such immunotherapeutic tool that is currently being explored in cancer therapeutics. We present the most comprehensive systematic review of all oncolytic viruses in Phase 1, 2, and 3 clinical trials published to date. We performed a systematic review of all published clinical trials indexed in PubMed that utilized oncolytic …
Upregulation Of Cpt1a Is Essential For The Tumor-Promoting Effect Of Adipocytes In Colon Cancer, Xiaopeng Xiong, Yang-An Wen, Rachelle Fairchild, Yekaterina Y. Zaytseva, Heidi L. Weiss, B. Mark Evers, Tianyan Gao
Upregulation Of Cpt1a Is Essential For The Tumor-Promoting Effect Of Adipocytes In Colon Cancer, Xiaopeng Xiong, Yang-An Wen, Rachelle Fairchild, Yekaterina Y. Zaytseva, Heidi L. Weiss, B. Mark Evers, Tianyan Gao
Markey Cancer Center Faculty Publications
Colon tumors grow in an adipose tissue-enriched microenvironment. Locally advanced colon cancers often invade into surrounding adipose tissue with a direct contact with adipocytes. We have previously shown that adipocytes promote tumor growth by modulating cellular metabolism. Here we demonstrate that carnitine palmitoyltransferase I (CPT1A), a key enzyme controlling fatty acid oxidation (FAO), was upregulated in colon cancer cells upon exposure to adipocytes or fatty acids. In addition, CPT1A expression was increased in invasive tumor cells within the adipose tissue compared to tumors without direct contact with adipocytes. Silencing CPT1A abolished the protective effect provided by fatty acids against nutrient …
Hypusination Of Eif5a Regulates Cytoplasmic Tdp-43 Aggregation And Accumulation In A Stress-Induced Cellular Model, Shayna Smeltzer, Zainuddin Quadri, Abraian Miller, Frank Zamudio, Jordan Hunter, Nicholas J.F. Stewart, Sheba Saji, Daniel C. Lee, Dale Chaput, Maj-Linda B. Selenica
Hypusination Of Eif5a Regulates Cytoplasmic Tdp-43 Aggregation And Accumulation In A Stress-Induced Cellular Model, Shayna Smeltzer, Zainuddin Quadri, Abraian Miller, Frank Zamudio, Jordan Hunter, Nicholas J.F. Stewart, Sheba Saji, Daniel C. Lee, Dale Chaput, Maj-Linda B. Selenica
Sanders-Brown Center on Aging Faculty Publications
TAR DNA-binding protein 43 (TDP-43) is a nuclear RNA/DNA binding protein involved in mRNA metabolism. Aberrant mislocalization to the cytoplasm and formation of phosphorylated/aggregated TDP-43 inclusions remains the hallmark pathology in a spectrum of neurodegenerative diseases, including frontotemporal disorders and Alzheimer's disease. Eukaryotic Translation Initiation Factor 5A undergoes a unique post-translation modification of lysine to hypusine (K50), which determines eIF5A binding partners. We used a sodium arsenite-induced cellular stress model to investigate the role of hypusinated eIF5A (eIF5AHypK50) in governing TDP-43 cytoplasmic mislocalization and accumulation in stress granule. Our proteomics and functional data provide evidence that eIF5A interacts …