Wnt1 and wnt10b function redundantly at the zebrafish midbrain–hindbrain boundary

Lekven, Arne C.; Buckles, Gerri R.; Kostakis, Nicholas; Moon, Randall T.

doi:10.1016/s0012-1606(02)00044-1

Cited by 87 publications

(83 citation statements)

References 66 publications

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“…1D-F) and stripes are maintained through at least 48 hpf (data not shown). Similar patterns of expression are seen for wnt10b and wnt3a (Lekven et al, 2003;Fig. 1I, and data not shown).…”

Section: Resultssupporting

confidence: 78%

“…Expression of wnt1 is first detected at 8 hours postfertilization (hpf) (80% epiboly) in the future midbrain-hindbrain border (Lekven et al, 2003). Between 11 and 14 hpf (1-10 somites), expression marks dorsal hindbrain and spinal cord, and by 16 hpf (14 somites), expression shows segmental regions of up-regulation ( Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Embryos homozygous for a deletion that removes both wnt1 and wnt10b (Df w5 , Lekven et al, 2003) develop with nearly normal expression of dlA and hindbrain morphology ( Fig. 2A, and data not shown).…”

Section: Impairment Of the Wnt Pathwaymentioning

confidence: 85%

“…The Df(LG23)wnt1 w5 deletion (herein referred to as Df w5 ) was induced by gamma-irradiation and identified in a polymerase chain reactionbased screen for loss of wnt1 (Lekven et al, 2000). Subsequent mapping showed that Df w5 removes 500 kb or less of LG 23, including the closely linked wnt10b locus (Lekven et al, 2003). Reference to mutants in the text indicates homozygous mutants unless otherwise noted.…”

Section: Strains and Developmental Conditionsmentioning

confidence: 99%

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Rhombomere boundaries are Wnt signaling centers that regulate metameric patterning in the zebrafish hindbrain

Riley

Chiang

Storch

et al. 2004

Developmental Dynamics

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The vertebrate hindbrain develops from a series of segments (rhombomeres) distributed along the anteroposterior axis. We are studying the roles of Wnt and Delta-Notch signaling in maintaining rhombomere boundaries as organizing centers in the zebrafish hindbrain. Several wnt genes (wnt1, wnt3a, wnt8b, and wnt10b) show elevated expression at rhombomere boundaries, whereas several delta genes (dlA, dlB, and dlD) are expressed in transverse stripes flanking rhombomere boundaries. Partial disruption of Wnt signaling by knockdown of multiple wnt genes, or the Wnt mediator tcf3b, ablates boundaries and associated cell types. Expression of dlA is chaotic, and cell types associated with rhombomere centers are disorganized. Similar patterning defects are observed in segmentation mutants spiel-ohne-grenzen (spg) and valentino (val), which fail to form rhombomere boundaries due to faulty interactions between adjacent rhombomeres. Stripes of wnt expression are variably disrupted, with corresponding disturbances in metameric patterning. Mutations in dlA or mind bomb (mib) disrupt Delta-Notch signaling and cause a wide range of patterning defects in the hindbrain. Stripes of wnt1 are initially normal but subsequently dissipate, and metameric patterning becomes increasingly disorganized. Driving wnt1 expression using a heat-shock construct partially rescues metameric patterning in mib mutants. Thus, rhombomere boundaries act as Wnt signaling centers required for precise metameric patterning, and Delta signals from flanking cells provide feedback to maintain wnt expression at boundaries. Similar feedback mechanisms operate in the Drosophila wing disc and vertebrate limb bud, suggesting coaptation of a conserved signaling module that spatially organizes cells in complex organ systems.

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“…1D-F) and stripes are maintained through at least 48 hpf (data not shown). Similar patterns of expression are seen for wnt10b and wnt3a (Lekven et al, 2003;Fig. 1I, and data not shown).…”

Section: Resultssupporting

confidence: 78%

Section: Resultsmentioning

confidence: 99%

Section: Impairment Of the Wnt Pathwaymentioning

confidence: 85%

Section: Strains and Developmental Conditionsmentioning

confidence: 99%

See 2 more Smart Citations

Rhombomere boundaries are Wnt signaling centers that regulate metameric patterning in the zebrafish hindbrain

Riley

Chiang

Storch

et al. 2004

Developmental Dynamics

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show abstract

“…Partial redundancy of duplicated zebrafish jagged gene function is compatible with overlapping jagged gene expression patterns at early developmental time points and may explain several aspects of the zebrafish jagged morphant phenotypes. Such models of organ-specific gene compensation are compatible with the function of other zebrafish gene families (Dorsky et al, 2003;Henry et al, 2002;Lekven et al, 2003).…”

Section: Perturbation Of Notch Signaling In Zebrafish Causes Multi-ormentioning

confidence: 78%

Inhibition of Jagged-mediated Notch signaling disrupts zebrafish biliary development and generates multi-organ defects compatible with an Alagille syndrome phenocopy

et al. 2004

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The Alagille Syndrome (AGS) is a heritable disorder affecting the liver and other organs. Causative dominant mutations in human Jagged 1 have been identified in most AGS patients. Related organ defects occur in mice that carry jagged 1 and notch 2 mutations. Multiple jagged and notch genes are expressed in the developing zebrafish liver. Compound jagged and notch gene knockdowns alter zebrafish biliary, kidney, pancreatic, cardiac and craniofacial development in a manner compatible with an AGS phenocopy. These data confirm an evolutionarily conserved role for Notch signaling in vertebrate liver development, and support the zebrafish as a model system for diseases of the human biliary system.

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The zebrafish cerebellar upper rhombic lip generates tegmental hindbrain nuclei by long‐distance migration in an evolutionary conserved manner

Volkmann

Chen

Harris

et al. 2010

J of Comparative Neurology

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The upper rhombic lip (URL) of the developing mammalian cerebellum produces different neuronal cell types in a temporal sequence. The first neuronal populations arising from this proliferation zone include the progenitors of the parabrachial, parabigeminal, and laterodorsal-pedunculopontine tegmental hindbrain nuclei. By means of expression analysis, histology, and retrograde neuronal tracing, we have identified the zebrafish homologues of these nuclei, namely, the secondary gustatory/viscerosensory nucleus, the nucleus isthmi, and the superior reticular nucleus, respectively, in the embryonic and larval brain of a stable transgenic wnt1:Gal4-VP16-14 x UAS:GFP zebrafish strain. Combining time-lapse confocal imaging with individual cell tracing, we characterize the migratory behavior of these neuronal precursor populations in detail by revealing their migration path, velocity, and directionality. In addition, we identify neuronal progenitors of the secondary gustatory/viscerosensory nucleus and nucleus isthmi/superior reticular nucleus as belonging to the polysialic acid (PSA)-expressing cell population in the cerebellar plate that migrates in a PSA-dependent manner. Finally, we reveal that circuitries involved in the processing of sensory information (visual, gustatory, general viscerosensory) are already established in the zebrafish larva at day 4 of development. Also the wnt1-expressing pretectal neuronal precursors (not originating from the URL) sending mossy fiber-like projections into the cerebellar corpus are established at that time. In sum, our results show that the origin of neurons of some tegmental hindbrain nuclei, namely, nucleus isthmi/superior reticular nucleus and secondary gustatory/viscerosensory nucleus is in the URL, and that the temporal order of cell types produced by the URL and their developmental program are conserved among vertebrate species.

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Wnt1 and wnt10b function redundantly at the zebrafish midbrain–hindbrain boundary

Cited by 87 publications

References 66 publications

Rhombomere boundaries are Wnt signaling centers that regulate metameric patterning in the zebrafish hindbrain

Rhombomere boundaries are Wnt signaling centers that regulate metameric patterning in the zebrafish hindbrain

Inhibition of Jagged-mediated Notch signaling disrupts zebrafish biliary development and generates multi-organ defects compatible with an Alagille syndrome phenocopy

The zebrafish cerebellar upper rhombic lip generates tegmental hindbrain nuclei by long‐distance migration in an evolutionary conserved manner

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