Abstract
Aging is the primary risk factor for cardiovascular disease, cancer, neurodegeneration, and other chronic disorders. Therefore, targeting the hallmarks of aging has emerged as a promising strategy to extend healthspan. Liver X receptors (LXRs) are ligand-dependent nuclear receptors that are activated by specific oxysterols and cholesterol derivatives. They are traditionally known as key regulators of cholesterol homeostasis. However, recent evidence reveals that LXRs also influence autophagy, mitochondrial function, epigenetics, senescence, stem cell dynamics, and intercellular communication. This positions LXRs at the crossroads of multiple hallmarks of aging. This review synthesizes current knowledge on endogenous and synthetic LXR ligands, their transcriptional mechanisms, and their effects on the aforementioned hallmarks and age-related pathophysiology. The clinical development of pan-LXR agonists for atherosclerosis has been hindered by side effects, notably hepatic steatosis. Emerging strategies, including LXRβ-selective ligands, selective LXR modulators (SLiMs), and biased agonists such as dendrogenin A, offer ways to separate the protective vascular, metabolic, and neuroprotective effects from adverse outcomes. Additionally, we explore how LXR signaling intersects with the hallmarks of aging and how it can be leveraged to intervene in atherosclerosis, diabetes, cancer, osteoporosis, age-related macular degeneration, and neurodegenerative diseases. Positioning LXRs within the geroscience framework suggests that LXRs may serve as pharmacological hubs to delay aging and its comorbidities. Future work should prioritize isoform- and tissue-selective approaches, metabolite-inspired ligand design, and integration with the hallmarks of aging to unlock the full therapeutic potential of LXRs.