Enhanced SREBP2-driven cholesterol biosynthesis by PKCλ/ι deficiency in intestinal epithelial cells promotes aggressive serrated tumorigenesis

Yu Muta; Juan F. Linares; Anxo Martinez-Ordoñez; Angeles Duran; Tania Cid-Diaz; Hiroto Kinoshita; Xiao Zhang; Qixiu Han; Yuki Nakanishi; Naoko Nakanishi; Thekla Cordes; Gurpreet K. Arora; Marc Ruiz-Martinez; Miguel Reina-Campos; Hiroaki Kasashima; Masakazu Yashiro; Kiyoshi Maeda; Ana Albaladejo-Gonzalez; Daniel Torres-Moreno; José García-Solano; Pablo Conesa-Zamora; Giorgio Inghirami; Christian M. Metallo; Timothy F. Osborne; Maria T. Diaz-Meco; Jorge Moscat

doi:10.1038/s41467-023-43690-5

Enhanced SREBP2-driven cholesterol biosynthesis by PKCλ/ι deficiency in intestinal epithelial cells promotes aggressive serrated tumorigenesis

Yu Muta, Juan F. Linares, Anxo Martinez-Ordoñez, Angeles Duran, Tania Cid-Diaz, Hiroto Kinoshita, Xiao Zhang, Qixiu Han, Yuki Nakanishi, Naoko Nakanishi, Thekla Cordes, Gurpreet K. Arora, Marc Ruiz-Martinez, Miguel Reina-Campos, Hiroaki Kasashima, Masakazu Yashiro, Kiyoshi Maeda, Ana Albaladejo-Gonzalez, Daniel Torres-Moreno, José García-SolanoPablo Conesa-Zamora, Giorgio Inghirami, Christian M. Metallo, Timothy F. Osborne, Maria T. Diaz-Meco, Jorge Moscat

School of Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

The metabolic and signaling pathways regulating aggressive mesenchymal colorectal cancer (CRC) initiation and progression through the serrated route are largely unknown. Although relatively well characterized as BRAF mutant cancers, their poor response to current targeted therapy, difficult preneoplastic detection, and challenging endoscopic resection make the identification of their metabolic requirements a priority. Here, we demonstrate that the phosphorylation of SCAP by the atypical PKC (aPKC), PKCλ/ι promotes its degradation and inhibits the processing and activation of SREBP2, the master regulator of cholesterol biosynthesis. We show that the upregulation of SREBP2 and cholesterol by reduced aPKC levels is essential for controlling metaplasia and generating the most aggressive cell subpopulation in serrated tumors in mice and humans. Since these alterations are also detected prior to neoplastic transformation, together with the sensitivity of these tumors to cholesterol metabolism inhibitors, our data indicate that targeting cholesterol biosynthesis is a potential mechanism for serrated chemoprevention.

Original language	English (US)
Article number	8075
Journal	Nature communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-43690-5
State	Published - Dec 2023

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Muta, Y., Linares, J. F., Martinez-Ordoñez, A., Duran, A., Cid-Diaz, T., Kinoshita, H., Zhang, X., Han, Q., Nakanishi, Y., Nakanishi, N., Cordes, T., Arora, G. K., Ruiz-Martinez, M., Reina-Campos, M., Kasashima, H., Yashiro, M., Maeda, K., Albaladejo-Gonzalez, A., Torres-Moreno, D., ... Moscat, J. (2023). Enhanced SREBP2-driven cholesterol biosynthesis by PKCλ/ι deficiency in intestinal epithelial cells promotes aggressive serrated tumorigenesis. Nature communications, 14(1), Article 8075. https://doi.org/10.1038/s41467-023-43690-5

Muta, Y, Linares, JF, Martinez-Ordoñez, A, Duran, A, Cid-Diaz, T, Kinoshita, H, Zhang, X, Han, Q, Nakanishi, Y, Nakanishi, N, Cordes, T, Arora, GK, Ruiz-Martinez, M, Reina-Campos, M, Kasashima, H, Yashiro, M, Maeda, K, Albaladejo-Gonzalez, A, Torres-Moreno, D, García-Solano, J, Conesa-Zamora, P, Inghirami, G, Metallo, CM, Osborne, TF, Diaz-Meco, MT & Moscat, J 2023, 'Enhanced SREBP2-driven cholesterol biosynthesis by PKCλ/ι deficiency in intestinal epithelial cells promotes aggressive serrated tumorigenesis', Nature communications, vol. 14, no. 1, 8075. https://doi.org/10.1038/s41467-023-43690-5

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title = "Enhanced SREBP2-driven cholesterol biosynthesis by PKCλ/ι deficiency in intestinal epithelial cells promotes aggressive serrated tumorigenesis",

abstract = "The metabolic and signaling pathways regulating aggressive mesenchymal colorectal cancer (CRC) initiation and progression through the serrated route are largely unknown. Although relatively well characterized as BRAF mutant cancers, their poor response to current targeted therapy, difficult preneoplastic detection, and challenging endoscopic resection make the identification of their metabolic requirements a priority. Here, we demonstrate that the phosphorylation of SCAP by the atypical PKC (aPKC), PKCλ/ι promotes its degradation and inhibits the processing and activation of SREBP2, the master regulator of cholesterol biosynthesis. We show that the upregulation of SREBP2 and cholesterol by reduced aPKC levels is essential for controlling metaplasia and generating the most aggressive cell subpopulation in serrated tumors in mice and humans. Since these alterations are also detected prior to neoplastic transformation, together with the sensitivity of these tumors to cholesterol metabolism inhibitors, our data indicate that targeting cholesterol biosynthesis is a potential mechanism for serrated chemoprevention.",

author = "Yu Muta and Linares, {Juan F.} and Anxo Martinez-Ordo{\~n}ez and Angeles Duran and Tania Cid-Diaz and Hiroto Kinoshita and Xiao Zhang and Qixiu Han and Yuki Nakanishi and Naoko Nakanishi and Thekla Cordes and Arora, {Gurpreet K.} and Marc Ruiz-Martinez and Miguel Reina-Campos and Hiroaki Kasashima and Masakazu Yashiro and Kiyoshi Maeda and Ana Albaladejo-Gonzalez and Daniel Torres-Moreno and Jos{\'e} Garc{\'i}a-Solano and Pablo Conesa-Zamora and Giorgio Inghirami and Metallo, {Christian M.} and Osborne, {Timothy F.} and Diaz-Meco, {Maria T.} and Jorge Moscat",

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AU - Muta, Yu

AU - Linares, Juan F.

AU - Martinez-Ordoñez, Anxo

AU - Duran, Angeles

AU - Cid-Diaz, Tania

AU - Kinoshita, Hiroto

AU - Zhang, Xiao

AU - Han, Qixiu

AU - Nakanishi, Yuki

AU - Nakanishi, Naoko

AU - Cordes, Thekla

AU - Arora, Gurpreet K.

AU - Ruiz-Martinez, Marc

AU - Reina-Campos, Miguel

AU - Kasashima, Hiroaki

AU - Yashiro, Masakazu

AU - Maeda, Kiyoshi

AU - Albaladejo-Gonzalez, Ana

AU - Torres-Moreno, Daniel

AU - García-Solano, José

AU - Conesa-Zamora, Pablo

AU - Inghirami, Giorgio

AU - Metallo, Christian M.

AU - Osborne, Timothy F.

AU - Diaz-Meco, Maria T.

AU - Moscat, Jorge

PY - 2023/12

Y1 - 2023/12

N2 - The metabolic and signaling pathways regulating aggressive mesenchymal colorectal cancer (CRC) initiation and progression through the serrated route are largely unknown. Although relatively well characterized as BRAF mutant cancers, their poor response to current targeted therapy, difficult preneoplastic detection, and challenging endoscopic resection make the identification of their metabolic requirements a priority. Here, we demonstrate that the phosphorylation of SCAP by the atypical PKC (aPKC), PKCλ/ι promotes its degradation and inhibits the processing and activation of SREBP2, the master regulator of cholesterol biosynthesis. We show that the upregulation of SREBP2 and cholesterol by reduced aPKC levels is essential for controlling metaplasia and generating the most aggressive cell subpopulation in serrated tumors in mice and humans. Since these alterations are also detected prior to neoplastic transformation, together with the sensitivity of these tumors to cholesterol metabolism inhibitors, our data indicate that targeting cholesterol biosynthesis is a potential mechanism for serrated chemoprevention.

AB - The metabolic and signaling pathways regulating aggressive mesenchymal colorectal cancer (CRC) initiation and progression through the serrated route are largely unknown. Although relatively well characterized as BRAF mutant cancers, their poor response to current targeted therapy, difficult preneoplastic detection, and challenging endoscopic resection make the identification of their metabolic requirements a priority. Here, we demonstrate that the phosphorylation of SCAP by the atypical PKC (aPKC), PKCλ/ι promotes its degradation and inhibits the processing and activation of SREBP2, the master regulator of cholesterol biosynthesis. We show that the upregulation of SREBP2 and cholesterol by reduced aPKC levels is essential for controlling metaplasia and generating the most aggressive cell subpopulation in serrated tumors in mice and humans. Since these alterations are also detected prior to neoplastic transformation, together with the sensitivity of these tumors to cholesterol metabolism inhibitors, our data indicate that targeting cholesterol biosynthesis is a potential mechanism for serrated chemoprevention.

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Enhanced SREBP2-driven cholesterol biosynthesis by PKCλ/ι deficiency in intestinal epithelial cells promotes aggressive serrated tumorigenesis

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