Cellular allostatic load is linked to increased energy expenditure and accelerated biological aging

Bobba-Alves, N., Sturm, G., Lin, J., Ware, S. A., Karan, K. R., Monzel, A. S., Bris, C., Procaccio, V., Lenaers, G., Higgins-Chen, A., Levine, M., Horvath, S., Santhanam, B. S., Kaufman, B. A., Hirano, M., Epel, E., & Picard, M. (2023). Cellular allostatic load is linked to increased energy expenditure and accelerated biological aging. Psychoneuroendocrinology, 155, 106322. https://doi.org/10.1016/j.psyneuen.2023.106322
Authors:
Natalia Bobba-Alves
Gabriel Sturm
Jue Lin
Christopher M. Monaco
Kalpita R. Karan
Anna S. Monzel
Céline Bris
Vincent Procaccio
Guy Lenaers
Albert T. Higgins-Chen
Morgan E. Levine
Steve Horvath
Balaji Santhanam
Brett A. Kaufman
Michio Hirano
Elissa S. Epel
Martin Picard
Affiliated Authors:
Michio Hirano
Columbia Affiliation:
Subjects:
Allostasis (MeSH)
Molecular Mechanisms of Aging and Longevity (OpenAlex Topic)
Brown Adipose Tissue Function and Physiology (OpenAlex Topic)
Cellular Senescence and Aging-Related Diseases (OpenAlex Topic)
Author Keywords:
aging
allostatic load
chronic stress
epigenetic aging
glucocorticoid
hypermetabolism
mitochondria
telomere
elink
Publication Type:
Article
Unique ID:
10.1016/j.psyneuen.2023.106322
PMID:
37423094
DOI:
10.1016/j.psyneuen.2023.106322
Journal:
Psychoneuroendocrinology
Publication Date:
Data Source:
OpenAlex
Source Link:
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Record Created: