Kamil Ahsan scite author profile

Our understanding of the neural crest, a key vertebrate innovation, is built upon studies of multiple model organisms. Early research on neural crest cells (NCCs) was dominated by analyses of accessible amphibian and avian embryos, with mouse genetics providing complementary insights in more recent years. The zebrafish model is a relative newcomer to the field, yet it offers unparalleled advantages for the study of NCCs. Specifically, zebrafish provide powerful genetic and transgenic tools, coupled with rapidly developing transparent embryos that are ideal for high-resolution real-time imaging of the dynamic process of neural crest development. While the broad principles of neural crest development are largely conserved across vertebrate species, there are critical differences in anatomy, morphogenesis, and genetics that must be considered before information from one model is extrapolated to another. Here, our goal is to provide the reader with a helpful primer specific to neural crest development in the zebrafish model. We focus largely on the earliest events-specification, delamination, and migrationdiscussing what is known about zebrafish NCC development and how it differs from NCC development in non-teleost species, as well as highlighting current gaps in knowledge.

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Neural crest and cancer: Divergent travelers on similar paths

Gallik

Treffy

Nacke

et al. 2017

Mechanisms of Development

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Neural crest cells are multipotent progenitors that dynamically interpret diverse microenvironments to migrate significant distances as a loosely associated collective and contribute to many tissues in the developing vertebrate embryo. Uncovering details of neural crest migration has helped to inform a general understanding of collective cell migration, including that which occurs during cancer metastasis. Here, we discuss several commonalities and differences of neural crest and cancer cell migration and behavior. First, we focus on some of the molecular pathways required for the initial specification and potency of neural crest cells and the roles of many of these pathways in cancer progression. We also describe epithelial-to-mesenchymal transition, which plays a critical role in initiating both neural crest migration and cancer metastasis. Finally, we evaluate studies that demonstrate myriad forms of cell-cell and cell-environment communication during neural crest and cancer collective migration to highlight the remarkable similarities in their molecular and cell biological regulation.

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Prickle1 is required for EMT and migration of zebrafish cranial neural crest

Ahsan

Singh

Rocha

et al. 2019

Developmental Biology

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Data for: Prickle1 is required for EMT and migration of zebrafish cranial neural crest

Prince¹,

Ahsan²,

Singh³

et al. 2019

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Kamil Ahsan

Neural crest development: insights from the zebrafish

Neural crest and cancer: Divergent travelers on similar paths

Prickle1 is required for EMT and migration of zebrafish cranial neural crest

Data for: Prickle1 is required for EMT and migration of zebrafish cranial neural crest

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