Your search keyword '"Motohiro Homma"' showing total 2 results

1. SDF-1 alpha regulates mesendodermal cell migration during frog gastrulation

Author

Makoto Asashima, Motohiro Homma, Akimasa Fukui, Junko Kitamoto, and Toshiyasu Goto

Subjects

Receptors, CXCR4, Polarity in embryogenesis, Biophysics, Xenopus, Biochemistry, Mesoderm, Xenopus laevis, Cell Movement, medicine, Animals, Molecular Biology, Genetics, biology, Blastocoel, Endoderm, breakpoint cluster region, Cell migration, Embryo, Cell Biology, Gastrula, biology.organism_classification, Chemokine CXCL12, Cell biology, Gastrulation, medicine.anatomical_structure, embryonic structures, Chemokines, CXC

Abstract

During frog gastrulation, mesendodermal cells become apposed to the blastocoel roof (BCR) by endoderm rotation, and migrate towards the animal pole. The leading edge of the mesendodermal cells (LEM) contributes to the directional migration of involuting marginal zone (IMZ) cells, but the molecular mechanism of this process is not well understood. Here we show that CXCR4/SDF-1 signaling mediates the directional movement of the LEM in Xenopus embryos. Expression of xCXCR4 was detected in the IMZ, and was complemented by xSDF-1α expression in the inner surface of the BCR. Over-expression of xCXCR4 and xSDF-1α caused gastrulation defects. An xCXCR4 N-terminus deletion construct and xSDF-1α-MO also inhibited gastrulation. Furthermore, explants of LEM migrate towards the dorsal BCR in the presence of xSDF-1α , and altered xCXCR4 expression in the LEM inhibited LEM migration. These results suggest that CXCR4/SDF-1 signaling is necessary for the migrations of massive numbers of cells during gastrulation.

Published

2006

2. Attractant binding alters arrangements of Chemoreceptor dimers within its cluster at a cell pole.

Author

Motohiro Homma, Peter G., Daisuke Shiomi, Peter G., Michio Homma, Peter G., and Ikuro Kawagishi, Peter G.

Subjects

*PROTEIN binding, *CHEMORECEPTORS, *DIMERS, *SENSE organs, *OLIGOMERS, *BIOCHEMISTRY

Abstract

Many sensory systems involve multiple steps of Signal amplification to produce a significant response. One such mechanism may be the clustering of transmembrane receptors. In bacterial chemotaxis, where astoichiometric His-Asp phosphorelay from the kinase CheA to the response regulator CheY plays a central role, the chemoreceptors (methyl-accepting chemotaxis proteins) cluster together with CheA and the adaptor CheW, at a pole of a rod-shaped cell. This clustering led to a proposal that signal amplification occurs through an interaction between chemoreceptor homodimers. Here, by using in vivo disulfide cross-linking assays, we examined an inter-dimer interaction of the aspartate chemoreceptor (Tar). Two cysteine residues were introduced into Tar: one at the subunit interface and the other at the external surface of the dimer. Crosslinked dimers and higher oligomers (especially a deduced hexamer) were detected and their abundance depended on CheA and CheW. The ligand aspartate significantly reduced the amounts of higher oligomers but did not affect the polar localization of Tar-GFP. Thus, the binding of aspartate alters the rate of collisions between tar dimers in assembled signaling complexes, most likely due to a change in the relative positions or trajectories of the dimers. These collisions could occur within a trimer-of-dimers predicted by crystallography, or between such timers. These results are consistent with the proposal that the interaction of chemoreceptor dimers is involved in signal transduction. [ABSTRACT FROM AUTHOR]

Published

2004