Evidence for a role of human blood-borne factors in mediating age-associated changes in molecular circadian rhythms

Jessica E. Schwarz; Antonijo Mrčela; Nicholas F. Lahens; Yongjun Li; Cynthia T. Hsu; Gregory Grant; Carsten Skarke; Shirley Zhang; Amita Sehgal

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Correspondence: Amita Sehgal, amita@pennmedicine.upenn.edu; Shirley L. Zhang, shirley.zhang2@emory.edu

Acknowledgements: We wish to extend our sincere gratitude to the study volunteers. Ms. LaVenia Banas provided excellent logistical study support. We thank Dr. Andrew Liu for the BMAL1-luc plasmid. We thank the RIA Biomarker Core of the Penn Diabetes Research Center, P30-DK19525 for cortisol measurements. We thank Sara Bernardez-Noya and Rebecca Moore for input on analysis and data presentation.

Author contributions: Jessica E Schwarz: Conceptualization, Methodology, Formal Analysis, Investigation, Writing – Original Draft Preparation, Writing – Review & Editing, Visualization Antonijo Mrčela: Methodology, Formal Analysis, Writing – Review & Editing, Visualization Nicholas F Lahens: Methodology, Formal Analysis, Writing – Review & Editing, Visualization Yongjun Li: Methodology, Formal Analysis, Writing – Review & Editing Cynthia T Hsu: Methodology, Formal Analysis, Writing – Review & Editing Gregory Grant: Methodology, Writing – Review & Editing Carsten Skarke: Methodology, Investigation, Writing – Review & Editing Shirley L Zhang: Methodology, Formal Analysis, Investigation, Writing – Review & Editing, Supervision Amita Sehgal: Conceptualization, Methodology, Writing – Original Draft Preparation, Writing – Review & Editing, Supervision

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The project described was supported by the National Center for Research Resources and the National Center for Advancing Translational Sciences, National Institutes of Health, through Grant 5UL1TR001878 (A.S.) and National Heart, Blood, and Lung Institutes of Health, through Grant R00HL147212 (S.L.Z.). C.S. is the Robert L. McNeil Jr. Fellow in Translational Medicine and Therapeutics. A.S. is an investigator of the Howard Hughes Medical Institute. J.E.S. was supported by a training grant in Neuroscience (NIH T32-NS105607), an National Institutes of Health Diversity Supplement (NIH NS48471), and by a grant to the University of Pennsylvania from the Howard Hughes Medical Institute through the James H. Gilliam Fellowship for Advanced Study program.

Keywords:

Aging
circulating factors
peripheral rhythms
oxidative phosphorylation
Alzheimer’s Disease

Evidence for a role of human blood-borne factors in mediating age-associated changes in molecular circadian rhythms

Jessica E. Schwarz, University of Pennsylvania

Antonijo Mrčela, University of Pennsylvania

Nicholas F. Lahens, University of Pennsylvania

Yongjun Li, University of Pennsylvania

Cynthia T. Hsu, University of Pennsylvania

Gregory Grant, University of Pennsylvania

Carsten Skarke, University of Pennsylvania

Shirley Zhang, Emory University

Amita Sehgal, University of Pennsylvania

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bioRxiv

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NIH | 2024-07-01, Pages 537477-None

Type of Work:

Article | Preprint: Prior to Peer Review

Permanent URL:

http://pid.emory.edu/ark:/25593/wcf97

Publisher DOI:

http://doi.org/10.1101/2023.04.19.537477

Abstract:

Aging is associated with a number of physiologic changes including perturbed circadian rhythms; however, mechanisms by which rhythms are altered remain unknown. To test the idea that circulating factors mediate age-dependent changes in peripheral rhythms, we compared the ability of human serum from young and old individuals to synchronize circadian rhythms in culture. We collected blood from apparently healthy young (age 25–30) and old (age 70–76) individuals at 14:00 and used the serum to synchronize cultured fibroblasts. We found that young and old sera are equally competent at initiating robust ~24h oscillations of a luciferase reporter driven by clock gene promoter. However, cyclic gene expression is affected, such that young and old sera promote cycling of different sets of genes. Genes that lose rhythmicity with old serum entrainment are associated with oxidative phosphorylation and Alzheimer’s Disease as identified by STRING and IPA analyses. Conversely, the expression of cycling genes associated with cholesterol biosynthesis increased in the cells entrained with old serum. Genes involved in the cell cycle and transcription/translation remain rhythmic in both conditions. We did not observe a global difference in the distribution of phase between groups, but found that peak expression of several clock-controlled genes (PER3, NR1D1, NR1D2, CRY1, CRY2, and TEF) lagged in the cells synchronized ex vivo with old serum. Taken together, these findings demonstrate that age-dependent blood-borne factors affect circadian rhythms in peripheral cells and have the potential to impact health and disease via maintaining or disrupting rhythms respectively.

Copyright information:

https://doi.org/10.1101/2023.04.19.537477

This is an Open Access work distributed under the terms of the Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by/4.0/).

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Evidence for a role of human blood-borne factors in mediating age-associated changes in molecular circadian rhythms

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