Masahiro Shin scite author profile

SUMMARY The widespread availability of programmable site-specific nucleases now enables targeted gene disruption in the zebrafish. In this study, we applied site-specific nucleases to generate zebrafish lines bearing individual mutations in more than twenty genes. We found that mutations in only a small proportion of genes caused defects in embryogenesis. Moreover, mutants for ten different genes failed to recapitulate published Morpholino-induced phenotypes (morphants). The absence of phenotypes in mutant embryos was not likely due to maternal effects or failure to eliminate gene function. Consistently, a comparison of published morphant defects with the Sanger Zebrafish Mutation Project revealed that approximately eighty percent of morphant phenotypes were not observed in mutant embryos, similar to our mutant collection. Based on these results, we suggest that mutant phenotypes become the standard metric to define gene function in zebrafish, after which Morpholinos that recapitulate respective phenotypes could be reliably applied for ancillary analyses.

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Lymphatic vessels arise from specialized angioblasts within a venous niche

Nicenboim¹,

Malkinson²,

Lupo³

et al. 2015

Nature

205

235

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How cells acquire their fate is a fundamental question in developmental and regenerative biology. Multipotent progenitors undergo cell-fate restriction in response to cues from the microenvironment, the nature of which is poorly understood. In the case of the lymphatic system, venous cells from the cardinal vein are thought to generate lymphatic vessels through trans-differentiation. Here we show that in zebrafish, lymphatic progenitors arise from a previously uncharacterized niche of specialized angioblasts within the cardinal vein, which also generates arterial and venous fates. We further identify Wnt5b as a novel lymphatic inductive signal and show that it also promotes the ‘angioblast-to-lymphatic’ transition in human embryonic stem cells, suggesting that this process is evolutionarily conserved. Our results uncover a novel mechanism of lymphatic specification, and provide the first characterization of the lymphatic inductive niche. More broadly, our findings highlight the cardinal vein as a heterogeneous structure, analogous to the haematopoietic niche in the aortic floor.

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The Risk of Hemorrhage after Radiosurgery for Cerebral Arteriovenous Malformations

et al. 2005

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Vegfc acts through ERK to induce sprouting and differentiation of trunk lymphatic progenitors

et al. 2016

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There was an error published in Development 143, 3785-3795.In the Materials and Methods section we provided an incorrect serine residue number for the map2k2b mutation. The corrected section of text is as follows:An activated myc-tagged form of MEK was generated from zebrafish map2k2b by mutating serines 221 and 225 to aspartic acid (Schramek et al., 1997) by PCR, followed by BP cloning to generate pME-myc-act-map2k2b.In addition, we have since verified that the pME-myc-act-map2k2b plasmid used in the original studies and submitted to Addgene contains the correct sequence. This plasmid contains several nucleotide changes in comparison to the GenBank reference sequence (accession number: NM_001128281). However, all of these changes have been noted in a previous annotation of single nucleotide polymorphisms in the zebrafish and are naturally occurring variants (Butler et al., 2015).We apologize for any confusion that this may have caused and we thank the researchers who discovered the error for bringing it to our attention. ABSTRACTVascular endothelial growth factor C (Vegfc) activates its receptor, Flt4, to induce lymphatic development. However, the signals that act downstream of Flt4 in this context in vivo remain unclear. To understand Flt4 signaling better, we generated zebrafish bearing a deletion in the Flt4 cytoplasmic domain that eliminates tyrosines Y1226 and 1227. Embryos bearing this deletion failed to initiate sprouting or differentiation of trunk lymphatic vessels and did not form a thoracic duct. Deletion of Y1226/7 prevented ERK phosphorylation in lymphatic progenitors, and ERK inhibition blocked trunk lymphatic sprouting and differentiation. Conversely, endothelial autonomous ERK activation rescued lymphatic sprouting and differentiation in flt4 mutants. Interestingly, embryos bearing the Y1226/7 deletion formed a functional facial lymphatic network enabling them to develop normally to adulthood. By contrast, flt4 null larvae displayed hypoplastic facial lymphatics and severe lymphedema. Thus, facial lymphatic vessels appear to be the first functional lymphatic network in the zebrafish, whereas the thoracic duct is initially dispensable for lymphatic function. Moreover, distinct signaling pathways downstream of Flt4 govern lymphatic morphogenesis and differentiation in different anatomical locations.

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Vegfa signals through ERK to promote angiogenesis, but not artery differentiation

et al. 2016

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Vascular endothelial growth factor a (Vegfa) is essential for blood vessel formation and can induce activation of numerous signaling effectors in endothelial cells. However, it is unclear how and where these function in developmental contexts during vascular morphogenesis. To address this issue, we have visualized activation of presumptive Vegfa effectors at single-cell resolution in zebrafish blood vessels. From these studies, we find that phosphorylation of the serine/threonine kinase ERK ( pERK) preferentially occurs in endothelial cells undergoing angiogenesis, but not in committed arterial endothelial cells. pERK in endothelial cells was ectopically induced by Vegfa and lost in Vegfa signaling mutants. Both chemical and endothelial autonomous inhibition of ERK prevented endothelial sprouting, but did not prevent initial artery differentiation. Timed chemical inhibition during angiogenesis caused a loss of genes implicated in coordinating tip/stalk cell behaviors, including flt4 and, at later stages, dll4. ERK inhibition also blocked excessive angiogenesis and ectopic flt4 expression in Notchdeficient blood vessels. Together, these studies implicate ERK as a specific effector of Vegfa signaling in the induction of angiogenic genes during sprouting.

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Masahiro Shin

Reverse Genetic Screening Reveals Poor Correlation between Morpholino-Induced and Mutant Phenotypes in Zebrafish

Lymphatic vessels arise from specialized angioblasts within a venous niche

The Risk of Hemorrhage after Radiosurgery for Cerebral Arteriovenous Malformations

Vegfc acts through ERK to induce sprouting and differentiation of trunk lymphatic progenitors

Vegfa signals through ERK to promote angiogenesis, but not artery differentiation

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