@article{e6ac82c403be4769af18bd3bea523098,
title = "TRPML1 Promotes Protein Homeostasis in Melanoma Cells by Negatively Regulating MAPK and mTORC1 Signaling",
abstract = "We screen ion channels and transporters throughout the genome to identify those required by human melanoma cells but not by normal human melanocytes. We discover that Mucolipin-1 (MCOLN1), which encodes the lysosomal cation channel TRPML1, is preferentially required for the survival and proliferation of melanoma cells. Loss of MCOLN1/TRPML1 function impairs the growth of patient-derived melanomas in culture and in xenografts but does not affect the growth of human melanocytes. TRPML1 expression and macropinocytosis are elevated in melanoma cells relative to melanocytes. TRPML1 is required in melanoma cells to negatively regulate MAPK pathway and mTORC1 signaling. TRPML1-deficient melanoma cells exhibit decreased survival, proliferation, tumor growth, and macropinocytosis, as well as serine depletion and proteotoxic stress. All of these phenotypes are partially or completely rescued by mTORC1 inhibition. Melanoma cells thus increase TRPML1 expression relative to melanocytes to attenuate MAPK and mTORC1 signaling, to sustain macropinocytosis, and to avoid proteotoxic stress. Kasitinon et al. conduct an in vivo short hairpin RNA (shRNA) screen of ion channels/transporters and identify TRPML1, a lysosomal cation channel, as preferentially required by melanoma cells. TRPML1 negatively regulates MAPK and mTORC1 signaling to maintain protein homeostasis, to sustain macropinocytosis, and to promote the survival and proliferation of melanoma cells.",
keywords = "MAPK, MCOLN1, TRPML1, ion channel, mTOR, macropinocytosis, melanoma, proteostasis, signaling",
author = "Kasitinon, {Stacy Y.} and Ugur Eskiocak and M. Martin and D. Bezwada and Vishal Khivansara and Alpaslan Tasdogan and Z. Zhao and Thomas Mathews and Aurora, {Arin B.} and Morrison, {Sean J.}",
note = "Funding Information: S.J.M. is a Howard Hughes Medical Institute investigator, the Mary McDermott Cook Chair in Pediatric Genetics, the Kathryn and Gene Bishop Distinguished Chair in Pediatric Research, the director of the Hamon Laboratory for Stem Cells and Cancer, and a Cancer Prevention and Research Institute of Texas scholar. The research was supported by the Howard Hughes Medical Institute , the Cancer Prevention and Research Institute of Texas ( RP170114 , RP170633 , and RP180778 ), and the Once Upon a Time Foundation . S.Y.K. and D.B. were each supported by Ruth L. Kirschstein National Research Service Award Predoctoral Fellowships from the National Cancer Institute ( F30 CA216885 and F31 CA239330 ). A.T. was supported by the Leopoldina Fellowship Program ( LPDS2016-16 ) of the German National Academy of Sciences . We thank Jian Xu for sequencing, as well as N. Loof of the Moody Foundation Flow Cytometry Facility and K. Luby-Phelps and A. Bugde of the Live Cell Imaging Facility at UT Southwestern. We also thank the UT Southwestern BioHPC (high-performance computing) cluster. The graphic in Figure 1 A and the graphical abstract were created using BioRender. Funding Information: S.J.M. is a Howard Hughes Medical Institute investigator, the Mary McDermott Cook Chair in Pediatric Genetics, the Kathryn and Gene Bishop Distinguished Chair in Pediatric Research, the director of the Hamon Laboratory for Stem Cells and Cancer, and a Cancer Prevention and Research Institute of Texas scholar. The research was supported by the Howard Hughes Medical Institute, the Cancer Prevention and Research Institute of Texas (RP170114, RP170633, and RP180778), and the Once Upon a Time Foundation. S.Y.K. and D.B. were each supported by Ruth L. Kirschstein National Research Service Award Predoctoral Fellowships from the National Cancer Institute (F30 CA216885 and F31 CA239330). A.T. was supported by the Leopoldina Fellowship Program (LPDS2016-16) of the German National Academy of Sciences. We thank Jian Xu for sequencing, as well as N. Loof of the Moody Foundation Flow Cytometry Facility and K. Luby-Phelps and A. Bugde of the Live Cell Imaging Facility at UT Southwestern. We also thank the UT Southwestern BioHPC (high-performance computing) cluster. The graphic in Figure 1A and the graphical abstract were created using BioRender. Conceptualization, S.Y.K. and S.J.M.; Methodology, S.Y.K. U.E. V.K. and A.B.A.; Validation, S.Y.K. M.M. D.B. and T.M.; Formal Analysis, Z.Z.; Investigation, S.Y.K. U.E. M.M. D.B. A.T. and T.M.; Resources, V.K.; Writing ? Original Draft, S.Y.K. and S.J.M.; Visualization, S.Y.K.; Supervision, S.Y.K. U.E. and S.J.M.; Funding Acquisition, S.Y.K. D.B. A.T. A.B.A. and S.J.M. The authors declare no competing interests. Publisher Copyright: {\textcopyright} 2019 The Authors",
year = "2019",
month = aug,
day = "27",
doi = "10.1016/j.celrep.2019.07.086",
language = "English (US)",
volume = "28",
pages = "2293--2305.e9",
journal = "Cell Reports",
issn = "2211-1247",
publisher = "Cell Press",
number = "9",
}