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Enhancer Reprogramming Confers Dependence on Glycolysis and IGF Signaling in KMT2D Mutant Melanoma

Histone methyltransferase KMT2D harbors frequent loss-of-function somatic point mutations in several tumor types, including melanoma. Here, we identify KMT2D as a potent tumor suppressor in melanoma through an in vivo epigenome-focused pooled RNAi screen and confirm the finding by using a geneticall...

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Autores principales:	Maitituoheti, Mayinuer, Keung, Emily Z., Tang, Ming, Yan, Liang, Alam, Hunain, Han, Guangchun, Singh, Anand K., Raman, Ayush T., Terranova, Christopher, Sarkar, Sharmistha, Orouji, Elias, Amin, Samir B., Sharma, Sneha, Williams, Maura, Samant, Neha S., Dhamdhere, Mayura, Zheng, Norman, Shah, Tara, Shah, Amiksha, Axelrad, Jacob B., Anvar, Nazanin E., Lin, Yu-Hsi, Jiang, Shan, Chang, Edward Q., Ingram, Davis R., Wang, Wei-Lien, Lazar, Alexander, Lee, Min Gyu, Muller, Florian, Wang, Linghua, Ying, Haoqiang, Rai, Kunal
Formato:	Online Artículo Texto
Lenguaje:	English
Publicado:	2020
Materias:	Article
Acceso en línea:	https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7649750/ https://www.ncbi.nlm.nih.gov/pubmed/33086062 http://dx.doi.org/10.1016/j.celrep.2020.108293

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author	Maitituoheti, Mayinuer Keung, Emily Z. Tang, Ming Yan, Liang Alam, Hunain Han, Guangchun Singh, Anand K. Raman, Ayush T. Terranova, Christopher Sarkar, Sharmistha Orouji, Elias Amin, Samir B. Sharma, Sneha Williams, Maura Samant, Neha S. Dhamdhere, Mayura Zheng, Norman Shah, Tara Shah, Amiksha Axelrad, Jacob B. Anvar, Nazanin E. Lin, Yu-Hsi Jiang, Shan Chang, Edward Q. Ingram, Davis R. Wang, Wei-Lien Lazar, Alexander Lee, Min Gyu Muller, Florian Wang, Linghua Ying, Haoqiang Rai, Kunal
author_facet	Maitituoheti, Mayinuer Keung, Emily Z. Tang, Ming Yan, Liang Alam, Hunain Han, Guangchun Singh, Anand K. Raman, Ayush T. Terranova, Christopher Sarkar, Sharmistha Orouji, Elias Amin, Samir B. Sharma, Sneha Williams, Maura Samant, Neha S. Dhamdhere, Mayura Zheng, Norman Shah, Tara Shah, Amiksha Axelrad, Jacob B. Anvar, Nazanin E. Lin, Yu-Hsi Jiang, Shan Chang, Edward Q. Ingram, Davis R. Wang, Wei-Lien Lazar, Alexander Lee, Min Gyu Muller, Florian Wang, Linghua Ying, Haoqiang Rai, Kunal
author_sort	Maitituoheti, Mayinuer
collection	PubMed
description	Histone methyltransferase KMT2D harbors frequent loss-of-function somatic point mutations in several tumor types, including melanoma. Here, we identify KMT2D as a potent tumor suppressor in melanoma through an in vivo epigenome-focused pooled RNAi screen and confirm the finding by using a genetically engineered mouse model (GEMM) based on conditional and melanocyte-specific deletion of KMT2D. KMT2D-deficient tumors show substantial reprogramming of key metabolic pathways, including glycolysis. KMT2D deficiency aberrantly upregulates glycolysis enzymes, intermediate metabolites, and glucose consumption rates. Mechanistically, KMT2D loss causes genome-wide reduction of H3K4me1-marked active enhancer chromatin states. Enhancer loss and subsequent repression of IGFBP5 activates IGF1R-AKT to increase glycolysis in KMT2D-deficient cells. Pharmacological inhibition of glycolysis and insulin growth factor (IGF) signaling reduce proliferation and tumorigenesis preferentially in KMT2D-deficient cells. We conclude that KMT2D loss promotes tumorigenesis by facilitating an increased use of the glycolysis pathway for enhanced biomass needs via enhancer reprogramming, thus presenting an opportunity for therapeutic intervention through glycolysis or IGF pathway inhibitors.
format	Online Article Text
id	pubmed-7649750
institution	National Center for Biotechnology Information
language	English
publishDate	2020
record_format	MEDLINE/PubMed
spelling	pubmed-76497502020-11-09 Enhancer Reprogramming Confers Dependence on Glycolysis and IGF Signaling in KMT2D Mutant Melanoma Maitituoheti, Mayinuer Keung, Emily Z. Tang, Ming Yan, Liang Alam, Hunain Han, Guangchun Singh, Anand K. Raman, Ayush T. Terranova, Christopher Sarkar, Sharmistha Orouji, Elias Amin, Samir B. Sharma, Sneha Williams, Maura Samant, Neha S. Dhamdhere, Mayura Zheng, Norman Shah, Tara Shah, Amiksha Axelrad, Jacob B. Anvar, Nazanin E. Lin, Yu-Hsi Jiang, Shan Chang, Edward Q. Ingram, Davis R. Wang, Wei-Lien Lazar, Alexander Lee, Min Gyu Muller, Florian Wang, Linghua Ying, Haoqiang Rai, Kunal Cell Rep Article Histone methyltransferase KMT2D harbors frequent loss-of-function somatic point mutations in several tumor types, including melanoma. Here, we identify KMT2D as a potent tumor suppressor in melanoma through an in vivo epigenome-focused pooled RNAi screen and confirm the finding by using a genetically engineered mouse model (GEMM) based on conditional and melanocyte-specific deletion of KMT2D. KMT2D-deficient tumors show substantial reprogramming of key metabolic pathways, including glycolysis. KMT2D deficiency aberrantly upregulates glycolysis enzymes, intermediate metabolites, and glucose consumption rates. Mechanistically, KMT2D loss causes genome-wide reduction of H3K4me1-marked active enhancer chromatin states. Enhancer loss and subsequent repression of IGFBP5 activates IGF1R-AKT to increase glycolysis in KMT2D-deficient cells. Pharmacological inhibition of glycolysis and insulin growth factor (IGF) signaling reduce proliferation and tumorigenesis preferentially in KMT2D-deficient cells. We conclude that KMT2D loss promotes tumorigenesis by facilitating an increased use of the glycolysis pathway for enhanced biomass needs via enhancer reprogramming, thus presenting an opportunity for therapeutic intervention through glycolysis or IGF pathway inhibitors. 2020-10-20 /pmc/articles/PMC7649750/ /pubmed/33086062 http://dx.doi.org/10.1016/j.celrep.2020.108293 Text en This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle	Article Maitituoheti, Mayinuer Keung, Emily Z. Tang, Ming Yan, Liang Alam, Hunain Han, Guangchun Singh, Anand K. Raman, Ayush T. Terranova, Christopher Sarkar, Sharmistha Orouji, Elias Amin, Samir B. Sharma, Sneha Williams, Maura Samant, Neha S. Dhamdhere, Mayura Zheng, Norman Shah, Tara Shah, Amiksha Axelrad, Jacob B. Anvar, Nazanin E. Lin, Yu-Hsi Jiang, Shan Chang, Edward Q. Ingram, Davis R. Wang, Wei-Lien Lazar, Alexander Lee, Min Gyu Muller, Florian Wang, Linghua Ying, Haoqiang Rai, Kunal Enhancer Reprogramming Confers Dependence on Glycolysis and IGF Signaling in KMT2D Mutant Melanoma
title	Enhancer Reprogramming Confers Dependence on Glycolysis and IGF Signaling in KMT2D Mutant Melanoma
title_full	Enhancer Reprogramming Confers Dependence on Glycolysis and IGF Signaling in KMT2D Mutant Melanoma
title_fullStr	Enhancer Reprogramming Confers Dependence on Glycolysis and IGF Signaling in KMT2D Mutant Melanoma
title_full_unstemmed	Enhancer Reprogramming Confers Dependence on Glycolysis and IGF Signaling in KMT2D Mutant Melanoma
title_short	Enhancer Reprogramming Confers Dependence on Glycolysis and IGF Signaling in KMT2D Mutant Melanoma
title_sort	enhancer reprogramming confers dependence on glycolysis and igf signaling in kmt2d mutant melanoma
topic	Article
url	https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7649750/ https://www.ncbi.nlm.nih.gov/pubmed/33086062 http://dx.doi.org/10.1016/j.celrep.2020.108293
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Enhancer Reprogramming Confers Dependence on Glycolysis and IGF Signaling in KMT2D Mutant Melanoma

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