Regional differences in the expression of laminin isoforms during mouse neural tube development.

Andrew J Copp, Rita Carvalho, Adam Wallace, Lydia Sorokin, Takako Sasaki, Nicholas D E Greene, Patricia Ybot-Gonzalez

Matrix biology : journal of the International Society for Matrix Biology 2011 May

filter terms:

Many significant human birth defects originate around the time of neural tube closure or early during post-closure nervous system development. For example, failure of the neural tube to close generates anencephaly and spina bifida, faulty cell cycle progression is implicated in primary microcephaly, while defective migration of neuroblasts can lead to neuronal migration disorders such as lissencephaly. At the stage of neural tube closure, basement membranes are becoming organised around the neuroepithelium, and beneath the adjacent non-neural surface ectoderm. While there is circumstantial evidence to implicate basement membrane dynamics in neural tube and surface ectodermal development, we have an incomplete understanding of the molecular composition of basement membranes at this stage. In the present study, we examined the developing basement membranes of the mouse embryo at mid-gestation (embryonic day 9.5), with particular reference to laminin composition. We performed in situ hybridization to detect the mRNAs of all eleven individual laminin chains, and immunohistochemistry to identify which laminin chains are present in the basement membranes. From this information, we inferred the likely laminin variants and their tissues of origin: that is, whether a given basement membrane laminin is contributed by epithelium, mesenchyme, or both. Our findings reveal major differences in basement composition along the body axis, with the rostral neural tube (at mandibular arch and heart levels) exhibiting many distinct laminin variants, while the lumbar level where the neural tube is just closing shows a much simpler laminin profile. Moreover, there appears to be a marked difference in the extent to which the mesenchyme contributes laminin variants to the basement membrane, with potential contribution of several laminins rostrally, but no contribution caudally. This information paves the way towards a mechanistic analysis of basement membrane laminin function during early neural tube development in mammals. Copyright © 2011 International Society of Matrix Biology. Published by Elsevier B.V. All rights reserved.

Citation

Andrew J Copp, Rita Carvalho, Adam Wallace, Lydia Sorokin, Takako Sasaki, Nicholas D E Greene, Patricia Ybot-Gonzalez. Regional differences in the expression of laminin isoforms during mouse neural tube development. Matrix biology : journal of the International Society for Matrix Biology. 2011 May;30(4):301-9