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Full-Text Articles in Medicine and Health Sciences
Cdk Inhibitors (P16/P19/P21) Induce Senescence And Autophagy In Cancer-Associated Fibroblasts, "Fueling" Tumor Growth Via Paracrine Interactions, Without An Increase In Neo-Angiogenesis., Claudia Capparelli, Barbara Chiavarina, Diana Whitaker-Menezes, Timothy G Pestell, Richard Pestell, James Hulit, Sebastiano Andò, Anthony Howell, Ubaldo E. Martinez-Outshoorn, Federica Sotgia, Michael P. Lisanti
Cdk Inhibitors (P16/P19/P21) Induce Senescence And Autophagy In Cancer-Associated Fibroblasts, "Fueling" Tumor Growth Via Paracrine Interactions, Without An Increase In Neo-Angiogenesis., Claudia Capparelli, Barbara Chiavarina, Diana Whitaker-Menezes, Timothy G Pestell, Richard Pestell, James Hulit, Sebastiano Andò, Anthony Howell, Ubaldo E. Martinez-Outshoorn, Federica Sotgia, Michael P. Lisanti
Department of Stem Cell Biology and Regenerative Medicine Faculty Papers & Presentations
Here, we investigated the compartment-specific role of cell cycle arrest and senescence in breast cancer tumor growth. For this purpose, we generated a number of hTERT-immortalized senescent fibroblast cell lines overexpressing CDK inhibitors, such as p16(INK4A), p19(ARF) or p21(WAF1/CIP1). Interestingly, all these senescent fibroblast cell lines showed evidence of increased susceptibility toward the induction of autophagy (either at baseline or after starvation), as well as significant mitochondrial dysfunction. Most importantly, these senescent fibroblasts also dramatically promoted tumor growth (up to ~2-fold), without any comparable increases in tumor angiogenesis. Conversely, we generated human breast cancer cells (MDA-MB-231 cells) overexpressing CDK inhibitors, …
Metabolic Remodeling Of The Tumor Microenvironment: Migration Stimulating Factor (Msf) Reprograms Myofibroblasts Toward Lactate Production, Fueling Anabolic Tumor Growth., Valentina Carito, Gloria Bonuccelli, Ubaldo E Martinez-Outschoorn, Diana Whitaker-Menezes, Maria Cristina Caroleo, Erika Cione, Anthony Howell, Richard G Pestell, Michael P. Lisanti, Federica Sotgia
Metabolic Remodeling Of The Tumor Microenvironment: Migration Stimulating Factor (Msf) Reprograms Myofibroblasts Toward Lactate Production, Fueling Anabolic Tumor Growth., Valentina Carito, Gloria Bonuccelli, Ubaldo E Martinez-Outschoorn, Diana Whitaker-Menezes, Maria Cristina Caroleo, Erika Cione, Anthony Howell, Richard G Pestell, Michael P. Lisanti, Federica Sotgia
Department of Stem Cell Biology and Regenerative Medicine Faculty Papers & Presentations
Migration stimulating factor (MSF) is a genetically truncated N-terminal isoform of fibronectin that is highly expressed during mammalian development in fetal fibroblasts, and during tumor formation in human cancer-associated myofibroblasts. However, its potential functional role in regulating tumor metabolism remains unexplored. Here, we generated an immortalized fibroblast cell line that recombinantly overexpresses MSF and studied their properties relative to vector-alone control fibroblasts. Our results indicate that overexpression of MSF is sufficient to confer myofibroblastic differentiation, likely via increased TGF-b signaling. In addition, MSF activates the inflammation-associated transcription factor NFκB, resulting in the onset of autophagy/mitophagy, thereby driving glycolytic metabolism (L-lactate …