LSD1 promotes prostate cancer reprogramming by repressing TP53 signaling independently of its demethylase function

Anbarasu Kumaraswamy; Zhi Duan; Diana Flores; Chao Zhang; Archana Sehrawat; Ya Mei Hu; Olivia A. Swaim; Eva Rodansky; William K. Storck; Joshua A. Kuleape; Karan Bedi; Rahul Mannan; Xiao Ming Wang; Aaron Udager; Visweswaran Ravikumar; Armand Bankhead; Ilsa Coleman; John K. Lee; Colm Morrissey; Peter S. Nelson; Arul M. Chinnaiyan; Arvind Rao; Zheng Xia; Joel A. Yates; Joshi J. Alumkal

doi:10.1172/jci.insight.167440

LSD1 promotes prostate cancer reprogramming by repressing TP53 signaling independently of its demethylase function

Anbarasu Kumaraswamy, Zhi Duan, Diana Flores, Chao Zhang, Archana Sehrawat, Ya Mei Hu, Olivia A. Swaim, Eva Rodansky, William K. Storck, Joshua A. Kuleape, Karan Bedi, Rahul Mannan, Xiao Ming Wang, Aaron Udager, Visweswaran Ravikumar, Armand Bankhead, Ilsa Coleman, John K. Lee, Colm Morrissey, Peter S. NelsonArul M. Chinnaiyan, Arvind Rao, Zheng Xia, Joel A. Yates, Joshi J. Alumkal

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2 Scopus citations

Abstract

Lysine-specific demethylase 1 (LSD1) is a histone demethylase that promotes stemness and cell survival in cancers such as prostate cancer. Most prostate malignancies are adenocarcinomas with luminal differentiation. However, some tumors undergo cellular reprogramming to a more lethal subset termed neuroendocrine prostate cancer (NEPC) with neuronal differentiation. The frequency of NEPC is increasing since the widespread use of potent androgen receptor signaling inhibitors. Currently, there are no effective treatments for NEPC. We previously determined that LSD1 promotes survival of prostate adenocarcinoma tumors. However, the role of LSD1 in NEPC is unknown. Here, we determined that LSD1 is highly upregulated in NEPC versus adenocarcinoma patient tumors. LSD1 suppression with RNAi or allosteric LSD1 inhibitors — but not catalytic inhibitors — reduced NEPC cell survival. RNA-Seq analysis revealed that LSD1 represses pathways linked to luminal differentiation, and TP53 was the top reactivated pathway. We confirmed that LSD1 suppressed the TP53 pathway by reducing TP53 occupancy at target genes while LSD1’s catalytic function was dispensable for this effect. Mechanistically, LSD1 inhibition disrupted LSD1-HDAC interactions, increasing histone acetylation at TP53 targets. Finally, LSD1 inhibition suppressed NEPC tumor growth in vivo. These findings suggest that blocking LSD1’s noncatalytic function may be a promising treatment strategy for NEPC.

Original language	English (US)
Article number	e167440
Journal	JCI Insight
Volume	8
Issue number	15
DOIs	https://doi.org/10.1172/jci.insight.167440
State	Published - 2023

ASJC Scopus subject areas

General Medicine

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Kumaraswamy, A., Duan, Z., Flores, D., Zhang, C., Sehrawat, A., Hu, Y. M., Swaim, O. A., Rodansky, E., Storck, W. K., Kuleape, J. A., Bedi, K., Mannan, R., Wang, X. M., Udager, A., Ravikumar, V., Bankhead, A., Coleman, I., Lee, J. K., Morrissey, C., ... Alumkal, J. J. (2023). LSD1 promotes prostate cancer reprogramming by repressing TP53 signaling independently of its demethylase function. JCI Insight, 8(15), Article e167440. https://doi.org/10.1172/jci.insight.167440

Kumaraswamy, A, Duan, Z, Flores, D, Zhang, C, Sehrawat, A, Hu, YM, Swaim, OA, Rodansky, E, Storck, WK, Kuleape, JA, Bedi, K, Mannan, R, Wang, XM, Udager, A, Ravikumar, V, Bankhead, A, Coleman, I, Lee, JK, Morrissey, C, Nelson, PS, Chinnaiyan, AM, Rao, A, Xia, Z, Yates, JA & Alumkal, JJ 2023, 'LSD1 promotes prostate cancer reprogramming by repressing TP53 signaling independently of its demethylase function', JCI Insight, vol. 8, no. 15, e167440. https://doi.org/10.1172/jci.insight.167440

@article{a7b231261c0b404e80f92f84614752e8,

title = "LSD1 promotes prostate cancer reprogramming by repressing TP53 signaling independently of its demethylase function",

abstract = "Lysine-specific demethylase 1 (LSD1) is a histone demethylase that promotes stemness and cell survival in cancers such as prostate cancer. Most prostate malignancies are adenocarcinomas with luminal differentiation. However, some tumors undergo cellular reprogramming to a more lethal subset termed neuroendocrine prostate cancer (NEPC) with neuronal differentiation. The frequency of NEPC is increasing since the widespread use of potent androgen receptor signaling inhibitors. Currently, there are no effective treatments for NEPC. We previously determined that LSD1 promotes survival of prostate adenocarcinoma tumors. However, the role of LSD1 in NEPC is unknown. Here, we determined that LSD1 is highly upregulated in NEPC versus adenocarcinoma patient tumors. LSD1 suppression with RNAi or allosteric LSD1 inhibitors — but not catalytic inhibitors — reduced NEPC cell survival. RNA-Seq analysis revealed that LSD1 represses pathways linked to luminal differentiation, and TP53 was the top reactivated pathway. We confirmed that LSD1 suppressed the TP53 pathway by reducing TP53 occupancy at target genes while LSD1{\textquoteright}s catalytic function was dispensable for this effect. Mechanistically, LSD1 inhibition disrupted LSD1-HDAC interactions, increasing histone acetylation at TP53 targets. Finally, LSD1 inhibition suppressed NEPC tumor growth in vivo. These findings suggest that blocking LSD1{\textquoteright}s noncatalytic function may be a promising treatment strategy for NEPC.",

author = "Anbarasu Kumaraswamy and Zhi Duan and Diana Flores and Chao Zhang and Archana Sehrawat and Hu, {Ya Mei} and Swaim, {Olivia A.} and Eva Rodansky and Storck, {William K.} and Kuleape, {Joshua A.} and Karan Bedi and Rahul Mannan and Wang, {Xiao Ming} and Aaron Udager and Visweswaran Ravikumar and Armand Bankhead and Ilsa Coleman and Lee, {John K.} and Colm Morrissey and Nelson, {Peter S.} and Chinnaiyan, {Arul M.} and Arvind Rao and Zheng Xia and Yates, {Joel A.} and Alumkal, {Joshi J.}",

note = "Publisher Copyright: {\textcopyright} 2023, Kumaraswamy et al. This is an open access article published under the terms of the Creative Commons Attribution 4.0 International License.",

year = "2023",

doi = "10.1172/jci.insight.167440",

language = "English (US)",

volume = "8",

journal = "JCI Insight",

issn = "2379-3708",

publisher = "The American Society for Clinical Investigation",

number = "15",

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TY - JOUR

T1 - LSD1 promotes prostate cancer reprogramming by repressing TP53 signaling independently of its demethylase function

AU - Kumaraswamy, Anbarasu

AU - Duan, Zhi

AU - Flores, Diana

AU - Zhang, Chao

AU - Sehrawat, Archana

AU - Hu, Ya Mei

AU - Swaim, Olivia A.

AU - Rodansky, Eva

AU - Storck, William K.

AU - Kuleape, Joshua A.

AU - Bedi, Karan

AU - Mannan, Rahul

AU - Wang, Xiao Ming

AU - Udager, Aaron

AU - Ravikumar, Visweswaran

AU - Bankhead, Armand

AU - Coleman, Ilsa

AU - Lee, John K.

AU - Morrissey, Colm

AU - Nelson, Peter S.

AU - Chinnaiyan, Arul M.

AU - Rao, Arvind

AU - Xia, Zheng

AU - Yates, Joel A.

AU - Alumkal, Joshi J.

PY - 2023

Y1 - 2023

N2 - Lysine-specific demethylase 1 (LSD1) is a histone demethylase that promotes stemness and cell survival in cancers such as prostate cancer. Most prostate malignancies are adenocarcinomas with luminal differentiation. However, some tumors undergo cellular reprogramming to a more lethal subset termed neuroendocrine prostate cancer (NEPC) with neuronal differentiation. The frequency of NEPC is increasing since the widespread use of potent androgen receptor signaling inhibitors. Currently, there are no effective treatments for NEPC. We previously determined that LSD1 promotes survival of prostate adenocarcinoma tumors. However, the role of LSD1 in NEPC is unknown. Here, we determined that LSD1 is highly upregulated in NEPC versus adenocarcinoma patient tumors. LSD1 suppression with RNAi or allosteric LSD1 inhibitors — but not catalytic inhibitors — reduced NEPC cell survival. RNA-Seq analysis revealed that LSD1 represses pathways linked to luminal differentiation, and TP53 was the top reactivated pathway. We confirmed that LSD1 suppressed the TP53 pathway by reducing TP53 occupancy at target genes while LSD1’s catalytic function was dispensable for this effect. Mechanistically, LSD1 inhibition disrupted LSD1-HDAC interactions, increasing histone acetylation at TP53 targets. Finally, LSD1 inhibition suppressed NEPC tumor growth in vivo. These findings suggest that blocking LSD1’s noncatalytic function may be a promising treatment strategy for NEPC.

AB - Lysine-specific demethylase 1 (LSD1) is a histone demethylase that promotes stemness and cell survival in cancers such as prostate cancer. Most prostate malignancies are adenocarcinomas with luminal differentiation. However, some tumors undergo cellular reprogramming to a more lethal subset termed neuroendocrine prostate cancer (NEPC) with neuronal differentiation. The frequency of NEPC is increasing since the widespread use of potent androgen receptor signaling inhibitors. Currently, there are no effective treatments for NEPC. We previously determined that LSD1 promotes survival of prostate adenocarcinoma tumors. However, the role of LSD1 in NEPC is unknown. Here, we determined that LSD1 is highly upregulated in NEPC versus adenocarcinoma patient tumors. LSD1 suppression with RNAi or allosteric LSD1 inhibitors — but not catalytic inhibitors — reduced NEPC cell survival. RNA-Seq analysis revealed that LSD1 represses pathways linked to luminal differentiation, and TP53 was the top reactivated pathway. We confirmed that LSD1 suppressed the TP53 pathway by reducing TP53 occupancy at target genes while LSD1’s catalytic function was dispensable for this effect. Mechanistically, LSD1 inhibition disrupted LSD1-HDAC interactions, increasing histone acetylation at TP53 targets. Finally, LSD1 inhibition suppressed NEPC tumor growth in vivo. These findings suggest that blocking LSD1’s noncatalytic function may be a promising treatment strategy for NEPC.

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U2 - 10.1172/jci.insight.167440

DO - 10.1172/jci.insight.167440

M3 - Article

C2 - 37440313

AN - SCOPUS:85167477554

SN - 2379-3708

VL - 8

JO - JCI Insight

JF - JCI Insight

IS - 15

M1 - e167440

ER -

LSD1 promotes prostate cancer reprogramming by repressing TP53 signaling independently of its demethylase function

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