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Lifespan-extending interventions induce consistent patterns of fatty acid oxidation in mouse livers

Kengo Watanabe, Tomasz Wilmanski, Priyanka Baloni, Max Robinson, Gonzalo G. Garcia, Michael R. Hoopmann, Mukul K. Midha, David Baxter, Michal Maes, Seamus R. Morrone, Kelly M. Crebs, Charu Kapil, Ulrike Kusebauch, Jack Wiedrick, Jodi Lapidus

Communications Biology · 2023 · ▲ 19 citations

Abstract

Aging manifests as progressive deteriorations in homeostasis, requiring systems-level perspectives to investigate the gradual molecular dysregulation of underlying biological processes. Here, we report systemic changes in the molecular regulation of biological processes under multiple lifespan-extending interventions. Differential Rank Conservation (DIRAC) analyses of mouse liver proteomics and transcriptomics data show that mechanistically distinct lifespan-extending interventions (acarbose, 17α-estradiol, mTOR(definition)-inhibiting drug studied for extending healthspan and lifespan." style="text-decoration:underline dotted; text-underline-offset:2px; cursor:help;">rapamycin(definition), and calorie restriction) generally tighten the regulation of biological modules. These tightening patterns are similar across the interventions, particularly in processes such as fatty acid oxidation, immune response, and stress response. Differences in DIRAC patterns between proteins and transcripts highlight specific modules which may be tightened via augmented cap-independent translation. Moreover, the systemic shifts in fatty acid metabolism are supported through integrated analysis of liver transcriptomics data with a mouse genome-scale metabolic model. Our findings highlight the power of systems-level approaches for identifying and characterizing the biological processes involved in aging and longevity.

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Provenance

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OpenAlex
DOI
10.1038/s42003-023-05128-y
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2026-06-29 MST

Cite this

APA
Watanabe, K., Wilmanski, T., Baloni, P., Robinson, M., Garcia, G.G., Hoopmann, M.R., Midha, M.K., Baxter, D., Maes, M., Morrone, S.R., Crebs, K.M., Kapil, C., Kusebauch, U., Wiedrick, J., Lapidus, J., Pflieger, L., Lausted, C., Roach, J.C., Glusman, G., &amp; Cummings, S.R. (2023). Lifespan-extending interventions induce consistent patterns of fatty acid oxidation in mouse livers. <em>Communications Biology</em>. https://doi.org/10.1038/s42003-023-05128-y
Vancouver
Watanabe K, Wilmanski T, Baloni P, Robinson M, Garcia GG, Hoopmann MR, et al. Lifespan-extending interventions induce consistent patterns of fatty acid oxidation in mouse livers. Communications Biology. 2023. doi:10.1038/s42003-023-05128-y.
BibTeX
@article{kengo2023Lifesp, title = {Lifespan-extending interventions induce consistent patterns of fatty acid oxidation in mouse livers}, author = {Kengo Watanabe and Tomasz Wilmanski and Priyanka Baloni and Max Robinson and Gonzalo G. Garcia and Michael R. Hoopmann and Mukul K. Midha and David Baxter and Michal Maes and Seamus R. Morrone and Kelly M. Crebs and Charu Kapil and Ulrike Kusebauch and Jack Wiedrick and Jodi Lapidus and Lance Pflieger and Christopher Lausted and Jared C. Roach and Gustavo Glusman and Steven R. Cummings and Nicholas J. Schork and Nathan D. Price and Leroy Hood and Richard A. Miller and Robert L. Moritz}, journal = {Communications Biology}, year = {2023}, doi = {10.1038/s42003-023-05128-y}, }

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