PUBLICATION

Loss of ascl1a prevents secretory cell differentiation within the zebrafish intestinal epithelium resulting in a loss of distal intestinal motility

Authors
Roach, G., Heath Wallace, R., Cameron, A., Emrah Ozel, R., Hongay, C.F., Baral, R., Andreescu, S., and Wallace, K.N.
ID
ZDB-PUB-130207-8
Date
2013
Source
Developmental Biology   376(2): 171-186 (Journal)
Registered Authors
Wallace, Kenneth
Keywords
intestine, ascl1a, enteroendocrine, enterocyte, enterochromaffin, goblet cell, serotonin, notch, motility, spatotemporal mapping, smooth muscle, enteric neurons, differential pulse voltammetry
MeSH Terms
  • Cell Differentiation
  • Zebrafish
  • Zebrafish Proteins/genetics*
  • Zebrafish Proteins/physiology*
  • Basic Helix-Loop-Helix Transcription Factors/genetics*
  • Basic Helix-Loop-Helix Transcription Factors/physiology*
  • Epithelial Cells/cytology*
  • Enterochromaffin Cells/cytology
  • Gene Expression Regulation, Developmental
  • Enterocytes/metabolism
  • Models, Biological
  • Models, Genetic
  • Animals
  • Signal Transduction
  • Goblet Cells/cytology
  • Gastrointestinal Motility
  • Mutation
  • Cell Lineage
  • Intestines/embryology*
(all 19)
PubMed
23353550 Full text @ Dev. Biol.
Abstract

The vertebrate intestinal epithelium is renewed continuously from stem cells at the base of the crypt in mammals or base of the fold in fish over the life of the organism. As stem cells divide, newly formed epithelial cells make an initial choice between a secretory or enterocyte fate. This choice has previously been demonstrated to involve Notch signaling as well as Atonal and Her transcription factors in both embryogenesis and adults. Here, we demonstrate that in contrast to the atoh1 in mammals, ascl1a is responsible for formation of secretory cells in zebrafish. ascl1a/ embryos lack all intestinal epithelial secretory cells and instead differentiate into enterocytes. ascl1a/ embryos also fail to induce intestinal epithelial expression of deltaD suggesting that ascl1a plays a role in initiation of Notch signaling. Inhibition of Notch signaling increases the number of ascl1a and deltaD expressing intestinal epithelial cells as well as the number of developing secretory cells during two specific time periods: between 30 and 34 hpf and again between 64 and 74 hpf. Loss of enteroendocrine products results in loss of anterograde motility in ascl1a/ embryos. 5HT produced by enterochromaffin cells is critical in motility and secretion within the intestine. We find that addition of exogenous 5HT to ascl1a/ embryos at near physiological levels (measured by differential pulse voltammetry) induce anterograde motility at similar levels to wild type velocity, distance, and frequency. Removal or doubling the concentration of 5HT in WT embryos does not significantly affect anterograde motility, suggesting that the loss of additional enteroendocrine products in ascl1a-/- embryos also contributes to intestinal motility. Thus, zebrafish intestinal epithelial cells appear to have a common secretory progenitor from which all subtypes form. Loss of enteroendocrine cells reveals the critical need for enteroendocrine products in maintenance of normal intestinal motility.

Genes / Markers
Figures
Figure Gallery (8 images)
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Expression
Phenotype
Fish Conditions Stage Phenotype Figure
ascl1at25215/t25215standard conditionsProtruding-mouth
ascl1at25215/t25215standard conditionsProtruding-mouth
ascl1at25215/t25215standard conditionsDay 4
ascl1at25215/t25215standard conditionsDay 4
ascl1at25215/t25215standard conditionsDay 5
ascl1at25215/t25215standard conditionsDay 5
ascl1at25215/t25215standard conditionsDay 5
ascl1at25215/t25215standard conditionsDay 5
ascl1at25215/t25215standard conditionsDay 5
ascl1at25215/t25215standard conditionsDay 5
1 - 10 of 17
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Mutations / Transgenics
Allele Construct Type Affected Genomic Region
t25215
    		Point Mutation
    1 - 1 of 1
    Show
    Human Disease / Model
    No data available
    Sequence Targeting Reagents
    No data available
    Fish
    Fish
    AB
    ascl1at25215/t25215
    1 - 2 of 2
    Show
    Antibodies
    Orthology
    No data available
    Engineered Foreign Genes
    No data available
    Mapping
    No data available
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    Citation
    Roach, G., Heath Wallace, R., Cameron, A., Emrah Ozel, R., Hongay, C.F., Baral, R., Andreescu, S., and Wallace, K.N. (2013) Loss of ascl1a prevents secretory cell differentiation within the zebrafish intestinal epithelium resulting in a loss of distal intestinal motility. Developmental Biology. 376(2):171-186.