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American Heart Association

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Final ID: Tu090

P21-activated kinase 1 safeguards cardiac function from impairment during fasting

Abstract Body: Excessive calorie intake poses a heightened risk for cardiovascular disease, while caloric restriction and intermittent fasting have demonstrated benefits in enhancing cardiovascular health and improving cardiometabolic risk profiles. Despite this knowledge, the precise mechanisms underlying the cardioprotective effects of these dietary regimens remain inadequately understood. P21-activated kinase 1 (PAK1) is a serine/threonine protein kinase known to play a crucial role in promoting cardiomyocyte survival in response to various stressors. In this study, we aimed to elucidate the role of PAK1 in maintaining cardiac function during fasting, utilizing mice with modified PAK1 activity in the heart. Under normal feeding conditions, heart function exhibited no discernible differences among wild type (WT), transgenic (TG), and knockout (KO) mice, as evidenced by consistent fractional shortening (FS), ejection fraction (EF), E/A ratio, and isovolumic relaxation time (IVRT). After a one-day fast, systolic contractile function remained robust across all groups of mice. However, the E/A ratio decreased in KO mice, and IVRT was prolonged in KO mice, while shortened in TG mice, highlighting the crucial role of PAK1 in maintaining diastolic cardiac function. Upon a two-day fast, systolic function was compromised in both WT and KO mice, whereas TG mice exhibited preserved function, as evidenced by FS and EF measurements, emphasizing PAK1's equal significance in sustaining systolic cardiac function. Furthermore, fasting accelerated mitophagy, a process eliminating dysfunctional mitochondria through lysosomal degradation, as observed by mitochondria-associated LC3-II and a dual fluorescent mitophagy reporter. Additionally, we established PAK1 as a positive regulator of mitophagy, suggesting its potential protective role in the heart during fasting via mitophagy modulation. In summary, PAK1 emerges as a critical mediator of cardiac function during fasting, presenting promising avenues for therapeutic interventions aimed at improving cardiovascular health.
  • Yarbro, John  ( NYIT COLLEGE OSTEOPATHIC MEDICINE , Old Westbury , New York , United States )
  • Huang, Yuan  ( New York Institute of Technology , Old Westbury , New York , United States )
  • Kobayashi, Satoru  ( New York Institute of Technology , Old Westbury , New York , United States )
  • Liang, Qiangrong  ( NYIT COLLEGE OSTEOPATHIC MEDICINE , Old Westbury , New York , United States )
  • Chong, Lionel  ( NYIT COLLEGE OSTEOPATHIC MEDICINE , Old Westbury , New York , United States )
  • Sooknanan, Caleb  ( NYIT COLLEGE OSTEOPATHIC MEDICINE , Old Westbury , New York , United States )
  • Mathew, Chris  ( NYIT COLLEGE OSTEOPATHIC MEDICINE , Old Westbury , New York , United States )
  • Singh, Pritpaul  ( NYIT COLLEGE OSTEOPATHIC MEDICINE , Old Westbury , New York , United States )
  • Kim, Michelle  ( NYIT COLLEGE OSTEOPATHIC MEDICINE , Old Westbury , New York , United States )
  • Ahmed, Kinza  ( NYIT COLLEGE OSTEOPATHIC MEDICINE , Old Westbury , New York , United States )
  • Francis, Rohan  ( NYIT COLLEGE OSTEOPATHIC MEDICINE , Old Westbury , New York , United States )
  • Kobayashi, Tamayo  ( NYIT College Osteopathic Medicine , Glen Cove , New York , United States )
  • Author Disclosures:
    John Yarbro: DO NOT have relevant financial relationships | Yuan Huang: DO NOT have relevant financial relationships | Satoru Kobayashi: DO have relevant financial relationships ; Research Funding (PI or named investigator):NIH:Active (exists now) | Qiangrong Liang: DO NOT have relevant financial relationships | Lionel Chong: DO NOT have relevant financial relationships | Caleb Sooknanan: DO NOT have relevant financial relationships | Chris Mathew: DO NOT have relevant financial relationships | Pritpaul Singh: DO NOT have relevant financial relationships | Michelle Kim: No Answer | Kinza Ahmed: No Answer | Rohan Francis: DO NOT have relevant financial relationships | Tamayo Kobayashi: DO NOT have relevant financial relationships
Meeting Info:

Basic Cardiovascular Sciences

2024

Chicago, Illinois

Session Info:

Poster Session and Reception 2

Tuesday, 07/23/2024 , 04:30PM - 07:00PM

Poster Session and Reception

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