APOL1-associated kidney disease: modulators of the genotype-phenotype relationship.

Purpose Of Review: Apolipoprotein-L1 (APOL1) G1 and G2 risk variants, found in people of recent west sub-Saharan African ancestry, dramatically increase the likelihood of kidney disease, yet the incomplete penetrance an diverse clinical manifestations underscore the need to understand the molecular and environmental factors that modulate APOL1-mediated toxicity.

Recent Findings: Recent studies confirm that risk variants exert a toxic gain-of-function effect, exacerbated by inflammatory triggers such as HIV infection and COVID-19. Epigenetic mechanisms and microRNA pathways further modulate APOL1 expression, influencing disease penetrance. Multiple models have clarified how subcellular localization, signal peptide processing, and interactions with the endoplasmic reticulum may contribute to pathogenesis. Therapeutic advances include inhibitors targeting APOL1 ion channel activity and strategies that block key inflammatory signaling pathways.

Summary: These findings highlight a multifaceted disease process driven by both the intrinsic toxic potential of APOL1 variants and numerous extrinsic triggers. Understanding this complex interplay will be pivotal for risk stratification and the development of precision therapies, potentially improving outcomes for populations disproportionately affected by APOL1-associated kidney disease.