Sigma1 Regulates Lipid Droplet–Mediated Redox Homeostasis Required for Prostate Cancer Proliferation

Lipid droplets (LD) are dynamic organelles that serve as hubs of cellular metabolic processes. Emerging evidence shows that LDs also play a critical role in maintaining redox homeostasis and can mitigate lipid oxidative stress. In multiple cancers, including prostate cancer, LD accumulation is assoc...

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Autores principales: Oyer, Halley M., Steck, Alexandra R., Longen, Charles G., Venkat, Sanjana, Bayrak, Konuralp, Munger, Eleanor B., Fu, Dan, Castagnino, Paola A., Sanders, Christina M., Tancler, Nathalia A., Mai, My T., Myers, Justin P., Schiewer, Matthew J., Chen, Nan, Mostaghel, Elahe A., Kim, Felix J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Association for Cancer Research 2023
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10615122/
https://www.ncbi.nlm.nih.gov/pubmed/37874216
http://dx.doi.org/10.1158/2767-9764.CRC-22-0371
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author Oyer, Halley M.
Steck, Alexandra R.
Longen, Charles G.
Venkat, Sanjana
Bayrak, Konuralp
Munger, Eleanor B.
Fu, Dan
Castagnino, Paola A.
Sanders, Christina M.
Tancler, Nathalia A.
Mai, My T.
Myers, Justin P.
Schiewer, Matthew J.
Chen, Nan
Mostaghel, Elahe A.
Kim, Felix J.
author_facet Oyer, Halley M.
Steck, Alexandra R.
Longen, Charles G.
Venkat, Sanjana
Bayrak, Konuralp
Munger, Eleanor B.
Fu, Dan
Castagnino, Paola A.
Sanders, Christina M.
Tancler, Nathalia A.
Mai, My T.
Myers, Justin P.
Schiewer, Matthew J.
Chen, Nan
Mostaghel, Elahe A.
Kim, Felix J.
author_sort Oyer, Halley M.
collection PubMed
description Lipid droplets (LD) are dynamic organelles that serve as hubs of cellular metabolic processes. Emerging evidence shows that LDs also play a critical role in maintaining redox homeostasis and can mitigate lipid oxidative stress. In multiple cancers, including prostate cancer, LD accumulation is associated with cancer aggressiveness, therapy resistance, and poor clinical outcome. Prostate cancer arises as an androgen receptor (AR)-driven disease. Among its myriad roles, AR mediates the biosynthesis of LDs, induces autophagy, and modulates cellular oxidative stress in a tightly regulated cycle that promotes cell proliferation. The factors regulating the interplay of these metabolic processes downstream of AR remain unclear. Here, we show that Sigma1/SIGMAR1, a unique ligand-operated scaffolding protein, regulates LD metabolism in prostate cancer cells. Sigma1 inhibition triggers lipophagy, an LD selective form of autophagy, to prevent accumulation of LDs which normally act to sequester toxic levels of reactive oxygen species (ROS). This disrupts the interplay between LDs, autophagy, buffering of oxidative stress and redox homeostasis, and results in the suppression of cell proliferation in vitro and tumor growth in vivo. Consistent with these experimental results, SIGMAR1 transcripts are strongly associated with lipid metabolism and ROS pathways in prostate tumors. Altogether, these data reveal a novel, pharmacologically responsive role for Sigma1 in regulating the redox homeostasis required by oncogenic metabolic programs that drive prostate cancer proliferation. SIGNIFICANCE: To proliferate, cancer cells must maintain productive metabolic and oxidative stress (eustress) while mitigating destructive, uncontrolled oxidative stress (distress). LDs are metabolic hubs that enable adaptive responses to promote eustress. Targeting the unique Sigma1 protein can trigger distress by disrupting the LD-mediated homeostasis required for proliferation.
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spelling pubmed-106151222023-10-31 Sigma1 Regulates Lipid Droplet–Mediated Redox Homeostasis Required for Prostate Cancer Proliferation Oyer, Halley M. Steck, Alexandra R. Longen, Charles G. Venkat, Sanjana Bayrak, Konuralp Munger, Eleanor B. Fu, Dan Castagnino, Paola A. Sanders, Christina M. Tancler, Nathalia A. Mai, My T. Myers, Justin P. Schiewer, Matthew J. Chen, Nan Mostaghel, Elahe A. Kim, Felix J. Cancer Res Commun Research Article Lipid droplets (LD) are dynamic organelles that serve as hubs of cellular metabolic processes. Emerging evidence shows that LDs also play a critical role in maintaining redox homeostasis and can mitigate lipid oxidative stress. In multiple cancers, including prostate cancer, LD accumulation is associated with cancer aggressiveness, therapy resistance, and poor clinical outcome. Prostate cancer arises as an androgen receptor (AR)-driven disease. Among its myriad roles, AR mediates the biosynthesis of LDs, induces autophagy, and modulates cellular oxidative stress in a tightly regulated cycle that promotes cell proliferation. The factors regulating the interplay of these metabolic processes downstream of AR remain unclear. Here, we show that Sigma1/SIGMAR1, a unique ligand-operated scaffolding protein, regulates LD metabolism in prostate cancer cells. Sigma1 inhibition triggers lipophagy, an LD selective form of autophagy, to prevent accumulation of LDs which normally act to sequester toxic levels of reactive oxygen species (ROS). This disrupts the interplay between LDs, autophagy, buffering of oxidative stress and redox homeostasis, and results in the suppression of cell proliferation in vitro and tumor growth in vivo. Consistent with these experimental results, SIGMAR1 transcripts are strongly associated with lipid metabolism and ROS pathways in prostate tumors. Altogether, these data reveal a novel, pharmacologically responsive role for Sigma1 in regulating the redox homeostasis required by oncogenic metabolic programs that drive prostate cancer proliferation. SIGNIFICANCE: To proliferate, cancer cells must maintain productive metabolic and oxidative stress (eustress) while mitigating destructive, uncontrolled oxidative stress (distress). LDs are metabolic hubs that enable adaptive responses to promote eustress. Targeting the unique Sigma1 protein can trigger distress by disrupting the LD-mediated homeostasis required for proliferation. American Association for Cancer Research 2023-10-30 /pmc/articles/PMC10615122/ /pubmed/37874216 http://dx.doi.org/10.1158/2767-9764.CRC-22-0371 Text en © 2023 The Authors; Published by the American Association for Cancer Research https://creativecommons.org/licenses/by/4.0/This open access article is distributed under the Creative Commons Attribution 4.0 International (CC BY 4.0) license.
spellingShingle Research Article
Oyer, Halley M.
Steck, Alexandra R.
Longen, Charles G.
Venkat, Sanjana
Bayrak, Konuralp
Munger, Eleanor B.
Fu, Dan
Castagnino, Paola A.
Sanders, Christina M.
Tancler, Nathalia A.
Mai, My T.
Myers, Justin P.
Schiewer, Matthew J.
Chen, Nan
Mostaghel, Elahe A.
Kim, Felix J.
Sigma1 Regulates Lipid Droplet–Mediated Redox Homeostasis Required for Prostate Cancer Proliferation
title Sigma1 Regulates Lipid Droplet–Mediated Redox Homeostasis Required for Prostate Cancer Proliferation
title_full Sigma1 Regulates Lipid Droplet–Mediated Redox Homeostasis Required for Prostate Cancer Proliferation
title_fullStr Sigma1 Regulates Lipid Droplet–Mediated Redox Homeostasis Required for Prostate Cancer Proliferation
title_full_unstemmed Sigma1 Regulates Lipid Droplet–Mediated Redox Homeostasis Required for Prostate Cancer Proliferation
title_short Sigma1 Regulates Lipid Droplet–Mediated Redox Homeostasis Required for Prostate Cancer Proliferation
title_sort sigma1 regulates lipid droplet–mediated redox homeostasis required for prostate cancer proliferation
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10615122/
https://www.ncbi.nlm.nih.gov/pubmed/37874216
http://dx.doi.org/10.1158/2767-9764.CRC-22-0371
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