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      PathoClock and PhysioClock in mice recapitulate human multimorbidity and heterogeneous aging

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          Abstract

          Background: Multimorbidity is a public health concern and an essential component of aging and healthspan but understudied because investigative tools are lacking that can be translatable to capture similarities and differences of the aging process across species and variability between individuals and individual organs. Methods: To help address this need, body organ disease number (BODN) borrowed from human studies was applied to C57BL/6 (B6) and CB6F1 mouse strains at 8, 16, 24, and 32 months of age, as a measure of systems morbidity based on pathology lesions to develop a mouse PathoClock resembling clinically-based Body Clock in humans, using Bayesian inference. A mouse PhysioClock was also developed based on measures of physiological domains including cardiovascular, neuromuscular, and cognitive function in the same two mouse strains so that alignment with BODN was predictable. Results: Between- and within-age variabilities in PathoClock and PhysioClock, as well as between-strain variabilities. Both PathoClock and PhysioClock correlated with chronological age more strongly in CB6F1 than C57BL/6. Prediction models were then developed, designated as PathoAge and PhysioAge, using regression models of pathology and physiology measures on chronological age. PathoAge better predicted chronological age than PhysioAge as the predicted chronological and observed chronological age for PhysioAge were complex rather than linear. Conclusion: PathoClock and PhathoAge can be used to capture biological changes that predict BODN, a metric developed in humans, and compare multimorbidity across species. These mouse clocks are potential translational tools that could be used in aging intervention studies.

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          Author and article information

          Contributors
          Journal
          Aging Pathobiology and Therapeutics
          ANT Publishing Corporation
          31 December 2021
          : 3
          : 4
          : 107-126
          Affiliations
          [1 ] University of Maryland
          [2 ] University of Washington
          Article
          10.31491/APT.2021.12.074
          3a8e73c3-89f5-454e-950c-4c9fbed54418

          All content is published under a https://creativecommons.org/licenses/by-sa/4.0/ license. Users are allowed to share (copy and redistribute the material in any medium or format) and adapt (remix, transform, and build upon the material for any purpose, even commercially), as long as the authors and the publisher are explicitly identified and properly acknowledged as the original source, and the derivative is distributed under the same license as the original.

          History

          Pathology,Medicine,Geriatric medicine,Human biology,Genetics
          Multimorbidity,aging,pathology,physiology,pathoClock,physioClock,pathoAge,physioAge

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