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Full-Text Articles in Medicine and Health Sciences
The Long Non-Coding Rna Pcat-1 Promotes Prostate Cancer Cell Proliferation Through Cmyc., John R. Prensner, Wei Chen, Sumin Han, Matthew K. Iyer, Qi Cao, Vishal Kothari, Joseph R. Evans, Karen E. Knudsen, Michelle T. Paulsen, Mats Ljungman, Theodore S. Lawrence, Arul M. Chinnaiyan, Felix Y. Feng
The Long Non-Coding Rna Pcat-1 Promotes Prostate Cancer Cell Proliferation Through Cmyc., John R. Prensner, Wei Chen, Sumin Han, Matthew K. Iyer, Qi Cao, Vishal Kothari, Joseph R. Evans, Karen E. Knudsen, Michelle T. Paulsen, Mats Ljungman, Theodore S. Lawrence, Arul M. Chinnaiyan, Felix Y. Feng
Department of Cancer Biology Faculty Papers
Long non-coding RNAs (lncRNAs) represent an emerging layer of cancer biology, contributing to tumor proliferation, invasion, and metastasis. Here, we describe a role for the oncogenic lncRNA PCAT-1 in prostate cancer proliferation through cMyc. We find that PCAT-1-mediated proliferation is dependent on cMyc protein stabilization, and using expression profiling, we observed that cMyc is required for a subset of PCAT-1-induced expression changes. The PCAT-1-cMyc relationship is mediated through the post-transcriptional activity of the MYC 3' untranslated region, and we characterize a role for PCAT-1 in the disruption of MYC-targeting microRNAs. To further elucidate a role for post-transcriptional regulation, we demonstrate …
Identification Of A Developmental Gene Expression Signature, Including Hox Genes, For The Normal Human Colonic Crypt Stem Cell Niche: Overexpression Of The Signature Parallels Stem Cell Overpopulation During Colon Tumorigenesis., Seema Bhatlekar, Sankar Addya, Moreh Salunek, Christopher R Orr, Saul Surrey, Steven E. Mckenzie, Jeremy Z Fields, Bruce M Boman
Identification Of A Developmental Gene Expression Signature, Including Hox Genes, For The Normal Human Colonic Crypt Stem Cell Niche: Overexpression Of The Signature Parallels Stem Cell Overpopulation During Colon Tumorigenesis., Seema Bhatlekar, Sankar Addya, Moreh Salunek, Christopher R Orr, Saul Surrey, Steven E. Mckenzie, Jeremy Z Fields, Bruce M Boman
Kimmel Cancer Center Faculty Papers
Our goal was to identify a unique gene expression signature for human colonic stem cells (SCs). Accordingly, we determined the gene expression pattern for a known SC-enriched region--the crypt bottom. Colonic crypts and isolated crypt subsections (top, middle, and bottom) were purified from fresh, normal, human, surgical specimens. We then used an innovative strategy that used two-color microarrays (∼18,500 genes) to compare gene expression in the crypt bottom with expression in the other crypt subsections (middle or top). Array results were validated by PCR and immunostaining. About 25% of genes analyzed were expressed in crypts: 88 preferentially in the bottom, …