Hue-Eileen Phan scite author profile

Hue-Eileen Phan

3Publications

39Citation Statements Received

200Citation Statements Given

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University of Ottawa

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A regulatory pathway involving retinoic acid and calcineurin demarcates and maintains joint cells and osteoblasts in the fin regenerate

McMillan

Zhang

Phan

et al. 2018

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During zebrafish fin regeneration, blastema cells lining the epidermis differentiate into osteoblasts and joint cells to reconstruct the segmented bony rays. We show that osteoblasts and joint cells originate from a common cell lineage, but are committed to different cell fates. Pre-osteoblasts expressing commit to the osteoblast lineage upon expressing, whereas the strong upregulation of correlates with a commitment to a joint cell type. In the distal regenerate,, and are sequentially upregulated at regular intervals to define the newly identified presumptive joint cells. Presumptive joint cells mature into joint-forming cells, a distinct cell cluster that maintains the expression of these factors. Analysis of null mutants reveals that is acting upstream of and downstream of or in parallel with Calcineurin activity, potentially through the inhibition of retinoic acid signaling, regulates , and expression during joint formation. Furthermore, retinoic acid treatment induces osteoblast differentiation in mature joint cells, leading to ectopic bone deposition in joint regions. Overall, our data reveal a novel regulatory pathway essential for joint formation in the regenerating fin.

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Differential actinodin1 regulation in embryonic development and adult fin regeneration in Danio rerio

et al. 2019

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Actinotrichia are the first exoskeletal elements formed during zebrafish fin development. These rigid fibrils serve as skeletal support for the fin fold and as substrates for mesenchymal cell migration. In the adult intact fins, actinotrichia are restricted to the distal domain of the fin. Following fin amputation, actinotrichia also reform during regeneration. The actinodin gene family codes for structural proteins of actinotrichia. We have previously identified cis- acting regulatory elements in a 2kb genomic region upstream of the first exon of actinodin1 , termed 2P, required for tissue-specific expression in the fin fold ectoderm and mesenchyme during embryonic development. Indeed, 2P contains an ectodermal enhancer in a 150bp region named epi . Deletion of epi from 2P results in loss of ectodermal-specific activity. In the present study, we sought to further characterize the activity of these regulatory sequences throughout fin development and during adult fin regeneration. Using a reporter transgenic approach, we show that a site within the epi region, termed epi3 , contains an early mesenchymal-specific repressor. We also show that the larval fin fold ectodermal enhancer within epi3 remains functional in the basal epithelial layer during fin regeneration. We show that the first non-coding exon and first intron of actinodin1 contains a transcriptional enhancer and an alternative promoter that are necessary for the persistence of reporter expression reminiscent of actinodin1 expression during adulthood. Altogether, we have identified cis -acting regulatory elements that are required for tissue-specific expression as well as full recapitulation of actinodin1 expression during adulthood. Furthermore, the characterization of these elements provides us with useful molecular tools for the enhancement of transgene expression in adulthood.

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Regulatory Mechanisms Underlying Regeneration of the Adult Zebrafish Exoskeleton

Phan¹

2018

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Hue-Eileen Phan

A regulatory pathway involving retinoic acid and calcineurin demarcates and maintains joint cells and osteoblasts in the fin regenerate

Differential actinodin1 regulation in embryonic development and adult fin regeneration in Danio rerio

Regulatory Mechanisms Underlying Regeneration of the Adult Zebrafish Exoskeleton

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