Akt enhances the vulnerability of cancer cells to VCP/p97 inhibition-mediated paraptosis

Dong Min Lee; In Young Kim; Hong Jae Lee; Min Ji Seo; Mi Young Cho; Hae In Lee; Gyesoon Yoon; Jae Hoon Ji; Seok Soon Park; Seong Yun Jeong; Eun Kyung Choi; Yong Hyeon Choi; Chae Ok Yun; Mirae Yeo; Eunhee Kim; Kyeong Sook Choi

doi:10.1038/s41419-024-06434-x

Akt enhances the vulnerability of cancer cells to VCP/p97 inhibition-mediated paraptosis

Dong Min Lee, In Young Kim, Hong Jae Lee, Min Ji Seo, Mi Young Cho, Hae In Lee, Gyesoon Yoon, Jae Hoon Ji, Seok Soon Park, Seong Yun Jeong, Eun Kyung Choi, Yong Hyeon Choi, Chae Ok Yun, Mirae Yeo, Eunhee Kim, Kyeong Sook Choi

Producción científica: Article › revisión exhaustiva

4 Citas (Scopus)

Resumen

Valosin-containing protein (VCP)/p97, an AAA+ ATPase critical for maintaining proteostasis, emerges as a promising target for cancer therapy. This study reveals that targeting VCP selectively eliminates breast cancer cells while sparing non-transformed cells by inducing paraptosis, a non-apoptotic cell death mechanism characterized by endoplasmic reticulum and mitochondria dilation. Intriguingly, oncogenic HRas sensitizes non-transformed cells to VCP inhibition-mediated paraptosis. The susceptibility of cancer cells to VCP inhibition is attributed to the non-attenuation and recovery of protein synthesis under proteotoxic stress. Mechanistically, mTORC2/Akt activation and eIF3d-dependent translation contribute to translational rebound and amplification of proteotoxic stress. Furthermore, the ATF4/DDIT4 axis augments VCP inhibition-mediated paraptosis by activating Akt. Given that hyperactive Akt counteracts chemotherapeutic-induced apoptosis, VCP inhibition presents a promising therapeutic avenue to exploit Akt-associated vulnerabilities in cancer cells by triggering paraptosis while safeguarding normal cells.

Idioma original	English (US)
Número de artículo	48
Publicación	Cell Death and Disease
Volumen	15
N.º	1
DOI	https://doi.org/10.1038/s41419-024-06434-x
Estado	Published - ene 2024

ASJC Scopus subject areas

Immunology
Cellular and Molecular Neuroscience
Cell Biology
Cancer Research

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Lee, D. M., Kim, I. Y., Lee, H. J., Seo, M. J., Cho, M. Y., Lee, H. I., Yoon, G., Ji, J. H., Park, S. S., Jeong, S. Y., Choi, E. K., Choi, Y. H., Yun, C. O., Yeo, M., Kim, E., & Choi, K. S. (2024). Akt enhances the vulnerability of cancer cells to VCP/p97 inhibition-mediated paraptosis. Cell Death and Disease, 15(1), Artículo 48. https://doi.org/10.1038/s41419-024-06434-x

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title = "Akt enhances the vulnerability of cancer cells to VCP/p97 inhibition-mediated paraptosis",

abstract = "Valosin-containing protein (VCP)/p97, an AAA+ ATPase critical for maintaining proteostasis, emerges as a promising target for cancer therapy. This study reveals that targeting VCP selectively eliminates breast cancer cells while sparing non-transformed cells by inducing paraptosis, a non-apoptotic cell death mechanism characterized by endoplasmic reticulum and mitochondria dilation. Intriguingly, oncogenic HRas sensitizes non-transformed cells to VCP inhibition-mediated paraptosis. The susceptibility of cancer cells to VCP inhibition is attributed to the non-attenuation and recovery of protein synthesis under proteotoxic stress. Mechanistically, mTORC2/Akt activation and eIF3d-dependent translation contribute to translational rebound and amplification of proteotoxic stress. Furthermore, the ATF4/DDIT4 axis augments VCP inhibition-mediated paraptosis by activating Akt. Given that hyperactive Akt counteracts chemotherapeutic-induced apoptosis, VCP inhibition presents a promising therapeutic avenue to exploit Akt-associated vulnerabilities in cancer cells by triggering paraptosis while safeguarding normal cells.",

author = "Lee, {Dong Min} and Kim, {In Young} and Lee, {Hong Jae} and Seo, {Min Ji} and Cho, {Mi Young} and Lee, {Hae In} and Gyesoon Yoon and Ji, {Jae Hoon} and Park, {Seok Soon} and Jeong, {Seong Yun} and Choi, {Eun Kyung} and Choi, {Yong Hyeon} and Yun, {Chae Ok} and Mirae Yeo and Eunhee Kim and Choi, {Kyeong Sook}",

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doi = "10.1038/s41419-024-06434-x",

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AU - Kim, In Young

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AU - Seo, Min Ji

AU - Cho, Mi Young

AU - Lee, Hae In

AU - Yoon, Gyesoon

AU - Ji, Jae Hoon

AU - Park, Seok Soon

AU - Jeong, Seong Yun

AU - Choi, Eun Kyung

AU - Choi, Yong Hyeon

AU - Yun, Chae Ok

AU - Yeo, Mirae

AU - Kim, Eunhee

AU - Choi, Kyeong Sook

PY - 2024/1

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N2 - Valosin-containing protein (VCP)/p97, an AAA+ ATPase critical for maintaining proteostasis, emerges as a promising target for cancer therapy. This study reveals that targeting VCP selectively eliminates breast cancer cells while sparing non-transformed cells by inducing paraptosis, a non-apoptotic cell death mechanism characterized by endoplasmic reticulum and mitochondria dilation. Intriguingly, oncogenic HRas sensitizes non-transformed cells to VCP inhibition-mediated paraptosis. The susceptibility of cancer cells to VCP inhibition is attributed to the non-attenuation and recovery of protein synthesis under proteotoxic stress. Mechanistically, mTORC2/Akt activation and eIF3d-dependent translation contribute to translational rebound and amplification of proteotoxic stress. Furthermore, the ATF4/DDIT4 axis augments VCP inhibition-mediated paraptosis by activating Akt. Given that hyperactive Akt counteracts chemotherapeutic-induced apoptosis, VCP inhibition presents a promising therapeutic avenue to exploit Akt-associated vulnerabilities in cancer cells by triggering paraptosis while safeguarding normal cells.

AB - Valosin-containing protein (VCP)/p97, an AAA+ ATPase critical for maintaining proteostasis, emerges as a promising target for cancer therapy. This study reveals that targeting VCP selectively eliminates breast cancer cells while sparing non-transformed cells by inducing paraptosis, a non-apoptotic cell death mechanism characterized by endoplasmic reticulum and mitochondria dilation. Intriguingly, oncogenic HRas sensitizes non-transformed cells to VCP inhibition-mediated paraptosis. The susceptibility of cancer cells to VCP inhibition is attributed to the non-attenuation and recovery of protein synthesis under proteotoxic stress. Mechanistically, mTORC2/Akt activation and eIF3d-dependent translation contribute to translational rebound and amplification of proteotoxic stress. Furthermore, the ATF4/DDIT4 axis augments VCP inhibition-mediated paraptosis by activating Akt. Given that hyperactive Akt counteracts chemotherapeutic-induced apoptosis, VCP inhibition presents a promising therapeutic avenue to exploit Akt-associated vulnerabilities in cancer cells by triggering paraptosis while safeguarding normal cells.

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Akt enhances the vulnerability of cancer cells to VCP/p97 inhibition-mediated paraptosis

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