Clonal hematopoiesis of indeterminate potential is associated with acute kidney injury.
Caitlyn VlasschaertCassianne Robinson-CohenJianchun ChenElvis AkwoAlyssa C ParkerSamuel A SilverPavan K BhatrajuHannah PoisnerShirong CaoMing JiangYinqiu WangAolei NiuEdward SiewJoseph C Van AmburgHolly J KramerAnna KottgenNora FranceschiniBruce M PsatyRussell P TracyAlvaro AlonsoDan E ArkingJosef CoreshChristie M BallantyneEric BoerwinkleMorgan E GramsMing-Zhi ZhangBryan KestenbaumMatthew B LanktreeMichael J RauhRaymond C HarrisAlexander G BickPublished in: Nature medicine (2024)
Age is a predominant risk factor for acute kidney injury (AKI), yet the biological mechanisms underlying this risk are largely unknown. Clonal hematopoiesis of indeterminate potential (CHIP) confers increased risk for several chronic diseases associated with aging. Here we sought to test whether CHIP increases the risk of AKI. In three population-based epidemiology cohorts, we found that CHIP was associated with a greater risk of incident AKI, which was more pronounced in patients with AKI requiring dialysis and in individuals with somatic mutations in genes other than DNMT3A, including mutations in TET2 and JAK2. Mendelian randomization analyses supported a causal role for CHIP in promoting AKI. Non-DNMT3A-CHIP was also associated with a nonresolving pattern of injury in patients with AKI. To gain mechanistic insight, we evaluated the role of Tet2-CHIP and Jak2 V617F -CHIP in two mouse models of AKI. In both models, CHIP was associated with more severe AKI, greater renal proinflammatory macrophage infiltration and greater post-AKI kidney fibrosis. In summary, this work establishes CHIP as a genetic mechanism conferring impaired kidney function recovery after AKI via an aberrant inflammatory response mediated by renal macrophages.
Keyphrases
- acute kidney injury
- cardiac surgery
- high throughput
- circulating tumor cells
- inflammatory response
- dna methylation
- cardiovascular disease
- genome wide
- adipose tissue
- type diabetes
- mouse model
- gene expression
- risk factors
- early onset
- climate change
- lps induced
- end stage renal disease
- peritoneal dialysis
- breast cancer risk