PUBLICATION

A novel mechanism of gland formation in zebrafish involving transdifferentiation of renal epithelial cells and live cell extrusion

Authors
Naylor, R.W., Chang, H.G., Qubisi, S., Davidson, A.J.
ID
ZDB-PUB-181106-27
Date
2018
Source
eLIFE   7: (Journal)
Registered Authors
Davidson, Alan, Naylor, Richard
Keywords
developmental biology, zebrafish
MeSH Terms
  • Endocrine Glands/embryology*
  • Receptors, Notch/metabolism
  • Signal Transduction
  • Animals
  • Zebrafish Proteins/metabolism
  • Cell Transdifferentiation*
  • Zebrafish/embryology*
  • Hepatocyte Nuclear Factor 1-beta/metabolism
  • Epithelial Cells/physiology*
(all 9)
PubMed
30394875 Full text @ Elife
Abstract
Transdifferentiation is the poorly understood phenomenon whereby a terminally differentiated cell acquires a completely new identity. Here, we describe a rare example of a naturally occurring transdifferentiation event in zebrafish in which kidney distal tubule epithelial cells are converted into an endocrine gland known as the Corpuscles of Stannius (CS). We find that this process requires Notch signalling and is associated with the cytoplasmic sequestration of the Hnf1b transcription factor, a master-regulator of renal tubule fate. A deficiency in the Irx3b transcription factor results in ectopic transdifferentiation of distal tubule cells to a CS identity but in a Notch-dependent fashion. Using live-cell imaging we show that CS cells undergo apical constriction en masse and are then extruded from the tubule to form a distinct organ. This system provides a valuable new model to understand the molecular and morphological basis of transdifferentiation and will advance efforts to exploit this rare phenomenon therapeutically.
Genes / Markers
Figures
Figure Gallery (14 images) / 2
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Expression
Gene Antibody Fish Conditions Stage Qualifier Anatomy Assay Figure
atp1a1a.4TUstandard conditionsLong-pecISH
atp1a1a.4TUstandard conditionsPrim-5ISH
atp1a1a.4TUstandard conditionsLong-pecISH
atp1a1a.4TUstandard conditions26+ somitesISH
atp1a1a.4TUstandard conditionsPrim-5ISH
atp1a1a.4TUstandard conditionsLong-pecISH
atp1a1a.4TU + MO1-irx3bstandard conditionsLong-pecISH
atp1a1a.4TU + MO1-irx3bstandard conditionsPrim-5ISH
atp1a1a.4TU + MO1-irx3bstandard conditionsLong-pecISH
atp1a1a.4TU + MO1-irx3bstandard conditionsPrim-5ISH
1 - 10 of 176
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Phenotype
Fish Conditions Stage Phenotype Figure
TUchemical treatment by environment: blebbistatinLong-pec
TUchemical treatment by environment: blebbistatinLong-pec
TUchemical treatment by environment: blebbistatinLong-pec
TUchemical treatment by environment: compound ELong-pec
TUchemical treatment by environment: compound ELong-pec
TU + CRISPR1-irx3b + CRISPR2-irx3bcontrolLong-pec
TU + CRISPR1-irx3b + CRISPR2-irx3bcontrolLong-pec
TU + CRISPR1-irx3b + CRISPR2-irx3bcontrolLong-pec
TU + CRISPR1-irx3b + CRISPR2-irx3bcontrolLong-pec
TU + CRISPR1-irx3b + CRISPR2-irx3bchemical treatment by environment: compound ELong-pec
1 - 10 of 67
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Mutations / Transgenics
Allele Construct Type Affected Genomic Region
hi1843TgTransgenic Insertion
nz1TgTransgenic Insertion
    nz14
      		Small Deletion
      s940TgTransgenic Insertion
        1 - 4 of 4
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        Human Disease / Model
        No data available
        Sequence Targeting Reagents
        Target Reagent Reagent Type
        hnf1bbMO1-hnf1bbMRPHLNO
        irx3bCRISPR1-irx3bCRISPR
        irx3bCRISPR2-irx3bCRISPR
        irx3bMO1-irx3bMRPHLNO
        1 - 4 of 4
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        Fish
        Fish
        hnf1bahi1843Tg/hi1843Tg + MO1-hnf1bb
        irx3bnz14/nz14
        nz1Tg
        nz1Tg + MO1-irx3b
        s940Tg
        s940Tg + CRISPR1-irx3b + CRISPR2-irx3b
        TU
        TU + CRISPR1-irx3b + CRISPR2-irx3b
        TU + MO1-irx3b
        1 - 9 of 9
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        Antibodies
        Name Type Antigen Genes Isotypes Host Organism
        Ab1-hnf1bpolyclonal
          		IgGRabbit
          Ab2-hnf1bpolyclonal
            		Rabbit
            Ab8-cdh1polyclonal
              		IgGRabbit
              1 - 3 of 3
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              Orthology
              No data available
              Engineered Foreign Genes
              Marker Marker Type Name
              EGFPEFGEGFP
              VenusEFGVenus
              1 - 2 of 2
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              Mapping
              No data available
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              Citation
              Naylor, R.W., Chang, H.G., Qubisi, S., Davidson, A.J. (2018) A novel mechanism of gland formation in zebrafish involving transdifferentiation of renal epithelial cells and live cell extrusion. eLIFE. 7:.