JAK2V617F-Mediated Clonal Hematopoiesis Accelerates Pathological Remodeling in Murine Heart Failure

Soichi Sano; Ying Wang; Yoshimitsu Yura; Miho Sano; Kosei Oshima; Yue Yang; Yasufumi Katanasaka; Kyung‐Duk Min; Shinobu Matsuura; Katya Ravid; Golam Mohi; Kenneth Walsh

doi:10.1016/j.jacbts.2019.05.013

JAK2V617F-Mediated Clonal Hematopoiesis Accelerates Pathological Remodeling in Murine Heart Failure

Soichi Sano(University of Virginia), Ying Wang(University of Virginia), Yoshimitsu Yura(University of Virginia), Miho Sano(University of Virginia), Kosei Oshima(Boston University), Yue Yang(University of Virginia), Yasufumi Katanasaka(University of Shizuoka), Kyung‐Duk Min(University of Virginia), Shinobu Matsuura(Boston University), Katya Ravid(Boston University), Golam Mohi(University of Virginia), Kenneth Walsh(University of Virginia)

JACC Basic to Translational Science

September 18, 2019

10.1016/j.jacbts.2019.05.013

Cited by 168Open Access

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Abstract

Janus kinase 2 (valine to phenylalanine at residue 617) (JAK2V617F) mutations lead to myeloproliferative neoplasms associated with elevated myeloid, erythroid, and megakaryocytic cells. Alternatively these same mutations can lead to the condition of clonal hematopoiesis with no impact on blood cell counts. Here, a model of myeloid-restricted JAK2V617F expression from lineage-negative bone marrow cells was developed and evaluated. This model displayed greater cardiac inflammation and dysfunction following permanent left anterior descending artery ligation and transverse aortic constriction. These data suggest that JAK2V617Fmutations arising in myeloid progenitor cells may contribute to cardiovascular disease by promoting the proinflammatory properties of circulating myeloid cells.

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