None Natasha Hockaden scite author profile

None Natasha Hockaden

2Publications

8Citation Statements Received

65Citation Statements Given

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DePauw University

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Cauterization as a Simple Method for Regeneration Studies in the Zebrafish Heart

Dyck

Hockaden

Nelson

et al. 2020

JCDD

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In the last two decades, the zebrafish has emerged as an important model species for heart regeneration studies. Various approaches to model loss of cardiac myocytes and myocardial infarction in the zebrafish have been devised, and have included resection, genetic ablation, and cryoinjury. However, to date, the response of the zebrafish ventricle to cautery injury has not been reported. Here, we describe a simple and reproducible method using cautery injury via a modified nichrome inoculating needle as a probe to model myocardial infarction in the zebrafish ventricle. Using light and electron microscopy, we show that cardiac cautery injury is attended by significant inflammatory cell infiltration, accumulation of collagen in the injured area, and the reconstitution of the ventricular myocardium. Additionally, we document the ablation of cardiac nerve fibers, and report that the re-innervation of the injured zebrafish ventricle is protracted, compared to other repair processes that accompany the regeneration of the cauterized ventricle. Taken together, our study demonstrates that cautery injury is a simple and effective means for generating necrotic tissue and eliciting a remodeling and regenerative response in the zebrafish heart. This approach may serve as an important tool in the methods toolbox for regeneration studies in the zebrafish.

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Author response for "AKT1 mediates multiple phosphorylation events that functionally promote HSF1 activation"

Lu¹,

Omari²,

Ray³

et al. 2021

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