Aubrey G.A. Howard scite author profile

Neural crest cells (NCCs) are vertebrate stem cells that give rise to various cell types throughout the developing body in early life. Here, we utilized single-cell transcriptomic analyses to delineate NCC-derivatives along the posterior developing vertebrate, zebrafish, during the late embryonic to early larval stage, a period when NCCs are actively differentiating into distinct cellular lineages. We identified several major NCC/NCC-derived cell-types including mesenchyme, neural crest, neural, neuronal, glial, and pigment, from which we resolved over three dozen cellular subtypes. We dissected gene expression signatures of pigment progenitors delineating into chromatophore lineages, mesenchyme cells, and enteric NCCs transforming into enteric neurons. Global analysis of NCC derivatives revealed they were demarcated by combinatorial hox gene codes, with distinct profiles within neuronal cells. From these analyses, we present a comprehensive cell-type atlas that can be utilized as a valuable resource for further mechanistic and evolutionary investigations of NCC differentiation.

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Genetic deletion of caspase-2 accelerates MMTV/c-neu-driven mammary carcinogenesis in mice

Parsons

McCormick

Janke

et al. 2013

Cell Death Differ

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Migration and diversification of the vagal neural crest

Hutchins

Kunttas

Piacentino

et al. 2018

Developmental Biology

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Arising within the neural tube between the cranial and trunk regions of the body axis, the vagal neural crest shares interesting similarities in its migratory routes and derivatives with other neural crest populations. However, the vagal neural crest is also unique in its ability to contribute to diverse organs including the heart and enteric nervous system. This review highlights the migratory routes of the vagal neural crest and compares them across multiple vertebrates. We also summarize recent advances in understanding vagal neural crest ontogeny and discuss the contribution of this important neural crest population to the cardiovascular system and endoderm-derived organs, including the thymus, lungs and pancreas.

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A protocol for whole-mount immuno-coupled hybridization chain reaction (WICHCR) in zebrafish embryos and larvae

Ibarra‐García‐Padilla

Howard

Singleton

et al. 2021

STAR Protocols

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Summary Characterizing mRNA and protein expression with temporal and spatial resolution is a valuable component of nearly every developmental study. Here, we describe a protocol that combines in situ hybridization chain reaction (HCR) and immunofluorescence, allowing for the detection of mRNAs and proteins simultaneously, in zebrafish embryos and larvae. This protocol expands the flexibility of multiplexed HCR by coupling it with traditional immunofluorescence detection. For complete details on the use and execution of this protocol, please refer to Choi et al. (2010 , 2016 , 2018) and Howard et al. (2021) .

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Single-cell imaging of inflammatory caspase dimerization reveals differential recruitment to inflammasomes

Sanders¹,

Parsons

Howard

et al. 2015

Cell Death Dis

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The human inflammatory caspases, including caspase-1, -4, -5 and -12, are considered as key regulators of innate immunity protecting from sepsis and numerous inflammatory diseases. Caspase-1 is activated by proximity-induced dimerization following recruitment to inflammasomes but the roles of the remaining inflammatory caspases in inflammasome assembly are unclear. Here, we use caspase bimolecular fluorescence complementation to visualize the assembly of inflammasomes and dimerization of inflammatory caspases in single cells. We observed caspase-1 dimerization induced by the coexpression of a range of inflammasome proteins and by lipospolysaccharide (LPS) treatment in primary macrophages. Caspase-4 and -5 were only dimerized by select inflammasome proteins, whereas caspase-12 dimerization was not detected by any investigated treatment. Strikingly, we determined that certain inflammasome proteins could induce heterodimerization of caspase-1 with caspase-4 or -5. Caspase-5 homodimerization and caspase-1/-5 heterodimerization was also detected in LPS-primed primary macrophages in response to cholera toxin subunit B. The subcellular localization and organization of the inflammasome complexes varied markedly depending on the upstream trigger and on which caspase or combination of caspases were recruited. Three-dimensional imaging of the ASC (apoptosis-associated speck-like protein containing a caspase recruitment domain)/caspase-1 complexes revealed a large spherical complex of ASC with caspase-1 dimerized on the outer surface. In contrast, NALP1 (NACHT leucine-rich repeat protein 1)/caspase-1 complexes formed large filamentous structures. These results argue that caspase-1, -4 or -5 can be recruited to inflammasomes under specific circumstances, often leading to distinctly organized and localized complexes that may impact the functions of these proteases.

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Aubrey G.A. Howard

An atlas of neural crest lineages along the posterior developing zebrafish at single-cell resolution

Genetic deletion of caspase-2 accelerates MMTV/c-neu-driven mammary carcinogenesis in mice

Migration and diversification of the vagal neural crest

A protocol for whole-mount immuno-coupled hybridization chain reaction (WICHCR) in zebrafish embryos and larvae

Single-cell imaging of inflammatory caspase dimerization reveals differential recruitment to inflammasomes

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