Abstract
Histone post-translational modifications (PTMs) are critical regulators of chromatin structure and gene expression, with broad implications for development, metabolism, and aging. While canonical modifications such as methylation and acetylation are well characterized, the role of histone succinylation remains poorly understood. Here, we investigated histone succinylation in the context of aging and exceptional longevity. Using mass spectrometry-based proteomics, we quantified histone succinylation in B-cells from four groups: young individuals, older individuals without parental longevity (OPUS), long-lived individuals, and offspring of long-lived individuals (OPEL). We found that histone succinylation was significantly elevated in the OPEL group compared to both young and OPUS cohorts. Nuclear proteomics further revealed enrichment of succinylated proteins in OPEL samples, supporting a role for succinylation in chromatin organization. To test whether succinate availability impacts healthspan, we supplemented middle-aged mice with succinic acid. While body weight, frailty index, and cognition were unaffected, succinic acid improved motor coordination and muscle strength. Together, our findings provide preliminary evidence that enhanced histone succinylation may serve as a protective epigenetic mechanism in individuals predisposed to exceptional longevity, and that succinate supplementation can selectively improve aspects of physical performance during aging.