Involution of brown adipose tissue through a Syntaxin 4 dependent pyroptosis pathway

Xiaofan Yu; Gabrielle Benitez; Peter Tszki Wei; Sofia V. Krylova; Ziyi Song; Li Liu; Meifan Zhang; Alus M. Xiaoli; Henna Wei; Fenfen Chen; Simone Sidoli; Fajun Yang; Kosaku Shinoda; Jeffrey E. Pessin; Daorong Feng

doi:10.1038/s41467-024-46944-y

Involution of brown adipose tissue through a Syntaxin 4 dependent pyroptosis pathway

Xiaofan Yu, Gabrielle Benitez, Peter Tszki Wei, Sofia V. Krylova, Ziyi Song, Li Liu, Meifan Zhang, Alus M. Xiaoli, Henna Wei, Fenfen Chen, Simone Sidoli, Fajun Yang, Kosaku Shinoda, Jeffrey E. Pessin, Daorong Feng

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

Abstract

Aging, chronic high-fat diet feeding, or housing at thermoneutrality induces brown adipose tissue (BAT) involution, a process characterized by reduction of BAT mass and function with increased lipid droplet size. Single nuclei RNA sequencing of aged mice identifies a specific brown adipocyte population of Ucp1-low cells that are pyroptotic and display a reduction in the longevity gene syntaxin 4 (Stx4a). Similar to aged brown adipocytes, Ucp1-STX4KO mice display loss of brown adipose tissue mass and thermogenic dysfunction concomitant with increased pyroptosis. Restoration of STX4 expression or suppression of pyroptosis activation protects against the decline in both mass and thermogenic activity in the aged and Ucp1-STX4KO mice. Mechanistically, STX4 deficiency reduces oxidative phosphorylation, glucose uptake, and glycolysis leading to reduced ATP levels, a known triggering signal for pyroptosis. Together, these data demonstrate an understanding of rapid brown adipocyte involution and that physiologic aging and thermogenic dysfunction result from pyroptotic signaling activation.

Original language	English (US)
Article number	2856
Journal	Nature communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-46944-y
State	Published - Dec 2024

ASJC Scopus subject areas

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

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title = "Involution of brown adipose tissue through a Syntaxin 4 dependent pyroptosis pathway",

abstract = "Aging, chronic high-fat diet feeding, or housing at thermoneutrality induces brown adipose tissue (BAT) involution, a process characterized by reduction of BAT mass and function with increased lipid droplet size. Single nuclei RNA sequencing of aged mice identifies a specific brown adipocyte population of Ucp1-low cells that are pyroptotic and display a reduction in the longevity gene syntaxin 4 (Stx4a). Similar to aged brown adipocytes, Ucp1-STX4KO mice display loss of brown adipose tissue mass and thermogenic dysfunction concomitant with increased pyroptosis. Restoration of STX4 expression or suppression of pyroptosis activation protects against the decline in both mass and thermogenic activity in the aged and Ucp1-STX4KO mice. Mechanistically, STX4 deficiency reduces oxidative phosphorylation, glucose uptake, and glycolysis leading to reduced ATP levels, a known triggering signal for pyroptosis. Together, these data demonstrate an understanding of rapid brown adipocyte involution and that physiologic aging and thermogenic dysfunction result from pyroptotic signaling activation.",

author = "Xiaofan Yu and Gabrielle Benitez and Wei, {Peter Tszki} and Krylova, {Sofia V.} and Ziyi Song and Li Liu and Meifan Zhang and Xiaoli, {Alus M.} and Henna Wei and Fenfen Chen and Simone Sidoli and Fajun Yang and Kosaku Shinoda and Pessin, {Jeffrey E.} and Daorong Feng",

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doi = "10.1038/s41467-024-46944-y",

language = "English (US)",

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AU - Yu, Xiaofan

AU - Benitez, Gabrielle

AU - Wei, Peter Tszki

AU - Krylova, Sofia V.

AU - Song, Ziyi

AU - Liu, Li

AU - Zhang, Meifan

AU - Xiaoli, Alus M.

AU - Wei, Henna

AU - Chen, Fenfen

AU - Sidoli, Simone

AU - Yang, Fajun

AU - Shinoda, Kosaku

AU - Pessin, Jeffrey E.

AU - Feng, Daorong

PY - 2024/12

Y1 - 2024/12

N2 - Aging, chronic high-fat diet feeding, or housing at thermoneutrality induces brown adipose tissue (BAT) involution, a process characterized by reduction of BAT mass and function with increased lipid droplet size. Single nuclei RNA sequencing of aged mice identifies a specific brown adipocyte population of Ucp1-low cells that are pyroptotic and display a reduction in the longevity gene syntaxin 4 (Stx4a). Similar to aged brown adipocytes, Ucp1-STX4KO mice display loss of brown adipose tissue mass and thermogenic dysfunction concomitant with increased pyroptosis. Restoration of STX4 expression or suppression of pyroptosis activation protects against the decline in both mass and thermogenic activity in the aged and Ucp1-STX4KO mice. Mechanistically, STX4 deficiency reduces oxidative phosphorylation, glucose uptake, and glycolysis leading to reduced ATP levels, a known triggering signal for pyroptosis. Together, these data demonstrate an understanding of rapid brown adipocyte involution and that physiologic aging and thermogenic dysfunction result from pyroptotic signaling activation.

AB - Aging, chronic high-fat diet feeding, or housing at thermoneutrality induces brown adipose tissue (BAT) involution, a process characterized by reduction of BAT mass and function with increased lipid droplet size. Single nuclei RNA sequencing of aged mice identifies a specific brown adipocyte population of Ucp1-low cells that are pyroptotic and display a reduction in the longevity gene syntaxin 4 (Stx4a). Similar to aged brown adipocytes, Ucp1-STX4KO mice display loss of brown adipose tissue mass and thermogenic dysfunction concomitant with increased pyroptosis. Restoration of STX4 expression or suppression of pyroptosis activation protects against the decline in both mass and thermogenic activity in the aged and Ucp1-STX4KO mice. Mechanistically, STX4 deficiency reduces oxidative phosphorylation, glucose uptake, and glycolysis leading to reduced ATP levels, a known triggering signal for pyroptosis. Together, these data demonstrate an understanding of rapid brown adipocyte involution and that physiologic aging and thermogenic dysfunction result from pyroptotic signaling activation.

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Involution of brown adipose tissue through a Syntaxin 4 dependent pyroptosis pathway

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