Jun-ichi Kyuno scite author profile

Sphingosine-1-phosphate (S1P) and lysophosphatidic acid (LPA) are endogenous bioactive lipids which mediate a variety of biological cell responses such as cell proliferation, migration, differentiation and apoptosis. Their actions are mediated by binding to the G-proteincoupled endothelial differentiation gene (Edg) receptor subfamily, referred to as S1P1-5 and LPA1-5, and regulate a variety of signalling pathways involved in numerous physiological processes and pathological conditions. Their importance during embryogenesis has been demonstrated by the generation of knock-out mice and specific roles have been assigned to these receptors. However, potential functional redundancy and the lethality of some mutants have complicated functional analysis in these models. Here we report the cloning of the S1P and LPA receptors in Xenopus laevis and tropicalis. Phylogenetic analyses demonstrate the high level of conservation of these receptors between amphibian and other vertebrate species. We have conducted a comparative expression analysis of these receptors during development and in the adult frog, by both RT-PCR and whole mount in situ hybridisation. In particular, we show that S1P1, 2 and 5 display distinct embryonic specific expression patterns, suggesting potentially different developmental roles for these receptors, and therefore for their ligands, during amphibian embryogenesis.

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The lmx1b gene is pivotal in glomus development in Xenopus laevis

Haldin¹,

Massé²,

Bhamra³

et al. 2008

Developmental Biology

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We have previously shown that lmx1b, a LIM homeodomain protein, is expressed in the pronephric glomus. We now show temporal and spatial expression patterns of lmx1b and its potential binding partners in both dissected pronephric anlagen and in individual dissected components of stage 42 pronephroi. Morpholino oligonucleotide knock-down of lmx1b establishes a role for lmx1b in the development of the pronephric components. Depletion of lmx1b results in the formation of a glomus with reduced size. Pronephric tubules were also shown to be reduced in structure and/or coiling whereas more distal tubule structure was unaffected. Over-expression of lmx1b mRNA resulted in no significant phenotype. Given that lmx1b protein is known to function as a heterodimer, we have over-expressed lmx1b mRNA alone or in combination with potential interacting molecules and analysed the effects on kidney structures. Phenotypes observed by over-expression of lim1 and ldb1 are partially rescued by co-injection with lmx1b mRNA. Animal cap experiments confirm that co-injection of lmx1b with potential binding partners can up-regulate pronephric molecular markers suggesting that lmx1b lies upstream of wt1 in the gene network controlling glomus differentiation. This places lmx1b in a genetic hierarchy involved in pronephros development and suggests that it is the balance in levels of binding partners together with restricted expression domains of lmx1b and lim1 which influences differentiation into glomus or tubule derivatives in vivo.

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A functional screen for genes involved in Xenopus pronephros development

Kyuno

Massé

Jones

2008

Mechanisms of Development

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In Xenopus, the pronephros is the functional larval kidney and consists of two identifiable components; the glomus, the pronephric tubules, which can be divided into four separate segments, based on marker gene expression. The simplicity of this organ, coupled with the fact that it displays the same basic organization and function as more complex mesonephros and metanephros, makes this an attractive model to study vertebrate kidney formation. In this study, we have performed a functional screen specifically to identify genes involved in pronephros development in Xenopus. Gain-of-function screens are performed by injecting mRNA pools made from a non-redundant X. tropicalis full-length plasmid cDNA library into X. laevis eggs, followed by sib-selection to identify the single clone that caused abnormal phenotypes in the pronephros. Out of 768 egg and gastrula stage cDNA clones, 31 genes, approximately 4% of the screened clones, affected pronephric marker expression examined by whole mount in situ hybridization or antibody staining. Most of the positive clones had clear expression patterns in pronephros and predicted/established functions highly likely to be involved in developmental processes. In order to carry out a more detailed study, we selected Sox7, Cpeb3, P53csv, Mecr and Dnajc15, which had highly specific expression patterns in the pronephric region. The over-expression of these five selected clones indicated that they caused pronephric abnormalities with different temporal and spatial effects. These results suggest that our strategy to identify novel genes involved in pronephros development was highly successful, and that this strategy is effective for the identification of novel genes involved in late developmental events.

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GDNF expression during Xenopus development

Kyuno

Jones

2007

Gene Expression Patterns

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09-P068 Functional analysis of enpp4 and enpp6 in Xenopus pronephros development

Kyuno

Massé

Bhamra

et al. 2009

Mechanisms of Development

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Jun-ichi Kyuno

Identification and characterization of Xenopus NDRG1

The lysophosphatidic acid (LPA) and sphingosine-1-phosphate (S1P) receptor gene families: cloning and comparative expression analysis in Xenopus laevis

The lmx1b gene is pivotal in glomus development in Xenopus laevis

A functional screen for genes involved in Xenopus pronephros development

GDNF expression during Xenopus development

09-P068 Functional analysis of enpp4 and enpp6 in Xenopus pronephros development

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