Angiogenesis is a precise process mediated by a variety of signals and the environmental niche. Although the essential trace element zinc and its homeostasis are essential for maintaining proper cellular functions, whether zinc plays a role in angiogenesis is currently unknown. Using zebrafish embryos as a model system, we found that zinc treatment significantly increased the expression of the
slc39a5
gene, which encodes the zinc transporter Slc39a5. Moreover, knocking down
slc39a5
expression using either a morpholino or CRISPR/Cas9-mediated gene editing led to cardiac ischaemia and an accumulation of red blood cells in the caudal vein plexus (CVP), as well as delayed venous sprouting and fewer vascular loops in the CVP region during early development. Further analysis revealed significantly reduced proliferation and delayed cell migration in the caudal vein of
slc39a5
morphants. At the mechanistic level, we found increased levels of systemic zinc in
slc39a5
-deficient embryos, and chelating zinc restored CVP development. In addition, we found that zinc overload in wild-type embryos leads to impaired CVP formation. Taken together, these results indicate that Slc39a5 plays a critical role in endothelial sprouting and migration in venous angiogenesis by regulating zinc homeostasis.
The pharyngeal arch (PA) is a neural crest (NC)‐derived organ that is transiently developed during embryogenesis and is required for the subsequent development of various tissues. However, the role of zinc during PA differentiation from NC progenitor cells is unknown. Here, we found that the metal transporters Slc30a1a and Slc30a1b mediate zinc homeostasis during PA differentiation. Slc30a1‐deficient zebrafish develop zinc accumulation in NC cells, with increased expression of stemness markers and PA dorsal genes, and SMART‐seq analyses revealed that the genes
snai2
and
jag1b
may serve as downstream targets. Furthermore, functional studies showed that knocking down either
snai2
or
jag1b
rescues PA development in Slc30a1‐deficient zebrafish. Notably, we identified the double zinc‐finger domain in the transcription factor Snai2 as a zinc‐responsive element that regulates
jag1b
expression. Our findings indicate that the Slc30a1/zinc‐
snai2
‐
jag1b
axis is an essential regulatory network controlling PA differentiation, shedding new light on the function of zinc homeostasis in maintaining NC cell stemness and multipotency in vertebrates.
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