Common clonal hematopoiesis driver mutations have disparate effects on macrophage cytokines, clonal expansion, and atherogenesis.
Paul R. Carter, Lauren Kitt, Amanda C. Rodgers, Nichola Figg, Ang Zhou, Chengrui Zhu, Ziyang Wang, Peter Libby, Stephen Burgess, George S. Vassiliou, Murray C.H. Clarke
Paul R. Carter, Lauren Kitt, Amanda C. Rodgers, Nichola Figg, Ang Zhou, Chengrui Zhu, Ziyang Wang, Peter Libby, Stephen Burgess, George S. Vassiliou, Murray C.H. Clarke
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Research Article Immunology Inflammation Vascular biology

Common clonal hematopoiesis driver mutations have disparate effects on macrophage cytokines, clonal expansion, and atherogenesis.

Abstract

Clonal hematopoiesis of indeterminate potential (CHIP) is the expansion of blood stem cells and progeny after somatic mutation. CHIP associates with increased cardiovascular disease (CVD), with inflammation from macrophages a proposed common effector. However, mouse CHIP studies are discordant for clonal expansion and inflammation. Similarly, directionality of association between CHIP and CVD remains debated. We investigated effects of 3 CHIP mutations on macrophage cytokines, clonal expansion, and atherosclerosis in parallel. We found that cytokine release and inflammasome activation are increased by Tet2 mutation but decreased by Dnmt3a. However, Jak2 mutant macrophages produced equivalent cytokine as WT. In mice, Tet2 mutants clonally expanded, but Dnmt3a and Jak2 mutants did not. Expansion was unaffected by systemic inflammation, while hyperlipidemia expanded Tet2–/– cells but not mono-allelic mutants. Similarly, human Mendelian randomization showed no effect of serum cytokines or CVD on CHIP risk. Experimental atherosclerosis was increased in females with Tet2 and males with Jak2, but it was unchanged with Dnmt3a mutations. Together, common CHIP mutations have disparate effects on macrophage cytokines and clonal expansion, and they have sex-dependent effects on atherogenesis, suggesting a common mechanism across CHIP is unlikely. Thus, CHIP mutations differ in pathophysiology and clinical sequelae across sexes and should be treated as different entities.

Authors

Paul R. Carter, Lauren Kitt, Amanda C. Rodgers, Nichola Figg, Ang Zhou, Chengrui Zhu, Ziyang Wang, Peter Libby, Stephen Burgess, George S. Vassiliou, Murray C.H. Clarke

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Figure 6

Systemic inflammation and atherogenesis do not accelerate clonal expansion in most mouse models of CHIP.

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Systemic inflammation and atherogenesis do not accelerate clonal expansi...
(A and B) Tet2+/– (red), Dnmt3aWT/RH (blue), and Jak2WT/VF (green) mice were injected with IL-1α (+α) and serum IL-6 (A) and blood cells (B) quantified. WBC, white blood cells; Lymph, lymphocyte; Gran, granulocyte. (CE) Longitudinal measurement of clonal expansion via CD45.2 in mice transplanted with 10% Tet2+/– (male) (C), 10% Dnmt3aWT/RH (female) (D), or 30% Jak2WT/VF (male) (E) cells, or equivalent WT, followed by treatment with PBS (gray) or IL-1α (color). Weeks = time after BM transplant. (F) Mendelian randomization (MR) analysis of genetically predicted cytokine levels on CHIP risk in humans within the UK BioBank. Point estimates represent odds ratio ± 95% CIs. (GI) Longitudinal measurement of clonal expansion via CD45.2 in mice transplanted with 10% Tet2+/– (G), 10% Dnmt3aWT/RH (H), or 30% Jak2WT/VF (I) cells (all female), or equivalent WT cells, followed by feeding a normal chow (Cont; gray) or HFD (color). (J) MR analysis of genetically predicted cardiovascular disease on CHIP risk in humans within the UK BioBank. CAD, coronary artery disease; MI, myocardial infarction; isch, ischemic; art, artery; C.Em, cardioembolic; HF, heart failure; AF, atrial fibrillation. Data represent mean ±SEM of n = 4/4 (AE, and H), 3/3 (G), 4/3 (I); *P ≤ 0.05, **P ≤ 0.01, ***P ≤ 0.001, ****P ≤ 0.0001 by unpaired t test (A and B) or generalized linear mixed models (CE and GI).