Katherine M. Ross-Stewart scite author profile

Cardiac injury induces a sustained innate immune response in both zebrafish and mammals. Macrophages, highly plastic immune cells, perform a range of both beneficial and detrimental functions during mammalian cardiac repair yet their precise roles in zebrafish cardiac regeneration are not fully understood. Here we characterise cardiac regeneration in the rapidly regenerating larval zebrafish laser injury model and use macrophage ablation and macrophage-less irf8 mutants to define the requirement of macrophages for key stages of regeneration. We found macrophages to display cellular heterogeneity and plasticity in larval heart injury as in mammals. Live heartbeat-synchronised imaging and RNAseq revealed an early proinflammatory macrophage phase which then resolves to an anti-inflammatory, profibrotic phase. Macrophages are required for cardiomyocyte proliferation but not for functional or structural recovery following injury. Macrophages are specifically recruited to the epicardial-myocardial niche, triggering the expansion of the epicardium which upregulates mitogen VEGFaa. Experimental perturbation of VEGF signalling confirmed VEGFaa to be an important inducer of cardiomyocyte proliferation revealing a previously unrecognised mechanism by which macrophages aid cardiac regeneration.

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Macrophages Stimulate Epicardial <i>vegfaa</i> Expression to Trigger Cardiomyocyte Proliferation in Larval Zebrafish Heart Regeneration

Bruton

Kaveh

Ross-Stewart

et al. 2021

SSRN Journal

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Katherine M. Ross-Stewart

Macrophages trigger cardiomyocyte proliferation by increasing epicardial vegfaa expression during larval zebrafish heart regeneration

Macrophages stimulate epicardial VEGFaa expression to trigger cardiomyocyte proliferation in larval zebrafish heart regeneration

Macrophages Stimulate Epicardial <i>vegfaa</i> Expression to Trigger Cardiomyocyte Proliferation in Larval Zebrafish Heart Regeneration

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