Skip to content
Open access · CC-BY via OpenAlex

A new AMPK isoform mediates glucose-restriction induced longevity non-cell autonomously by promoting membrane fluidity

Jin-Hyuck Jeong, Jun-Seok Han, Youngae Jung, Seung-Min Lee, So‐Hyun Park, Mooncheol Park, Min-Gi Shin, Nami Kim, Mi Sun Kang, Seokho Kim, Kwang‐Pyo Lee, Ki‐Sun Kwon, Chun-A. Kim, Yong Ryoul Yang, Geum‐Sook Hwang

Nature Communications · 2023 · ▲ 37 citations

Abstract

Abstract Dietary restriction (DR) delays aging and the onset of age-associated diseases. However, it is yet to be determined whether and how restriction of specific nutrients promote longevity. Previous genome-wide screens isolated several Escherichia coli mutants that extended lifespan of Caenorhabditis elegans . Here, using 1 H-NMR metabolite analyses and inter-species genetics, we demonstrate that E. coli mutants depleted of intracellular glucose extend C. elegans lifespans, serving as bona fide glucose-restricted (GR) diets. Unlike general DR, GR diets don’t reduce the fecundity of animals, while still improving stress resistance and ameliorating neuro-degenerative pathologies of Aβ 42 . Interestingly, AAK-2a, a new AMPK isoform, is necessary and sufficient for GR-induced longevity. AAK-2a functions exclusively in neurons to modulate GR-mediated longevity via neuropeptide signaling. Last, we find that GR/AAK-2a prolongs longevity through PAQR-2/NHR-49/Δ9 desaturases by promoting membrane fluidity in peripheral tissues. Together, our studies identify the molecular mechanisms underlying prolonged longevity by glucose specific restriction in the context of whole animals.

◌ CITATION ONLY
Full text is not openly licensed for redistribution here. Read it at the source:

Read at source →

Provenance

Source
OpenAlex
DOI
10.1038/s41467-023-35952-z
Canonical
link ↗
Fetched
2026-06-29 MST

Cite this

APA
Jeong, J., Han, J., Jung, Y., Lee, S., Park, S., Park, M., Shin, M., Kim, N., Kang, M.S., Kim, S., Lee, K., Kwon, K., Kim, C., Yang, Y.R., Hwang, G., &amp; Kwon, E. (2023). A new AMPK isoform mediates glucose-restriction induced longevity non-cell autonomously by promoting membrane fluidity. <em>Nature Communications</em>. https://doi.org/10.1038/s41467-023-35952-z
Vancouver
Jeong J, Han J, Jung Y, Lee S, Park S, Park M, et al. A new AMPK isoform mediates glucose-restriction induced longevity non-cell autonomously by promoting membrane fluidity. Nature Communications. 2023. doi:10.1038/s41467-023-35952-z.
BibTeX
@article{jinhyuck2023AnewAM, title = {A new AMPK isoform mediates glucose-restriction induced longevity non-cell autonomously by promoting membrane fluidity}, author = {Jin-Hyuck Jeong and Jun-Seok Han and Youngae Jung and Seung-Min Lee and So‐Hyun Park and Mooncheol Park and Min-Gi Shin and Nami Kim and Mi Sun Kang and Seokho Kim and Kwang‐Pyo Lee and Ki‐Sun Kwon and Chun-A. Kim and Yong Ryoul Yang and Geum‐Sook Hwang and Eun‐Soo Kwon}, journal = {Nature Communications}, year = {2023}, doi = {10.1038/s41467-023-35952-z}, }

Research neighborhood

References, citing works, and semantically nearest findings. Click a node to open it.

Related findings