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A palmitate-rich metastatic niche enables metastasis growth via p65 acetylation resulting in pro-metastatic NF-κB signaling.

ABSTRACT: Metabolic rewiring is often considered an adaptive pressure limiting metastasis formation; however, some nutrients available at distant organs may inherently promote metastatic growth. We find that the lung and liver are lipid-rich environments. Moreover, we observe that pre-metastatic niche formation increases palmitate availability only in the lung, whereas a high-fat diet increases it in both organs. In line with this, targeting palmitate processing inhibits breast cancer-derived lung metastasis formation. Mechanistically, breast cancer cells use palmitate to synthesize acetyl-CoA in a carnitine palmitoyltransferase 1a-dependent manner. Concomitantly, lysine acetyltransferase 2a expression is promoted by palmitate, linking the available acetyl-CoA to the acetylation of the nuclear factor-kappaB subunit p65. Deletion of lysine acetyltransferase 2a or carnitine palmitoyltransferase 1a reduces metastasis formation in lean and high-fat diet mice, and lung and liver metastases from patients with breast cancer show coexpression of both proteins. In conclusion, palmitate-rich environments foster metastases growth by increasing p65 acetylation, resulting in a pro-metastatic nuclear factor-kappaB signaling.

SUBMITTER: Altea-Manzano P 

PROVIDER: S-EPMC7615234 | biostudies-literature | 2023 Mar

REPOSITORIES: biostudies-literature

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A palmitate-rich metastatic niche enables metastasis growth via p65 acetylation resulting in pro-metastatic NF-κB signaling.

Altea-Manzano Patricia P   Doglioni Ginevra G   Liu Yawen Y   Cuadros Alejandro M AM   Nolan Emma E   Fernández-García Juan J   Wu Qi Q   Planque Mélanie M   Laue Kathrin Julia KJ   Cidre-Aranaz Florencia F   Liu Xiao-Zheng XZ   Marin-Bejar Oskar O   Van Elsen Joke J   Vermeire Ines I   Broekaert Dorien D   Demeyer Sofie S   Spotbeen Xander X   Idkowiak Jakub J   Montagne Aurélie A   Demicco Margherita M   Alkan H Furkan HF   Rabas Nick N   Riera-Domingo Carla C   Richard François F   Geukens Tatjana T   De Schepper Maxim M   Leduc Sophia S   Hatse Sigrid S   Lambrechts Yentl Y   Kay Emily Jane EJ   Lilla Sergio S   Alekseenko Alisa A   Geldhof Vincent V   Boeckx Bram B   de la Calle Arregui Celia C   Floris Giuseppe G   Swinnen Johannes V JV   Marine Jean-Christophe JC   Lambrechts Diether D   Pelechano Vicent V   Mazzone Massimiliano M   Zanivan Sara S   Cools Jan J   Wildiers Hans H   Baud Véronique V   Grünewald Thomas G P TGP   Ben-David Uri U   Desmedt Christine C   Malanchi Ilaria I   Fendt Sarah-Maria SM  

Nature cancer 20230202 3

Metabolic rewiring is often considered an adaptive pressure limiting metastasis formation; however, some nutrients available at distant organs may inherently promote metastatic growth. We find that the lung and liver are lipid-rich environments. Moreover, we observe that pre-metastatic niche formation increases palmitate availability only in the lung, whereas a high-fat diet increases it in both organs. In line with this, targeting palmitate processing inhibits breast cancer-derived lung metasta  ...[more]

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