The annexin 1-/- mouse: phenotypic studies

Wells, D. and Wells, K. and Liu, K. and Hannon, Robert and Croxtall, Jamie D. and Damazo, A.S. and Oliani, Sonia M. and Getting, Stephen J. and Parente, Luca and Paul-Clark, Mark and Yona, Simon and Gavins, Felicity N.E. and Martin, Joanne and Christian, Helen C. and Cover, Patricia O. and John, C.D. and Solito, Egle and Morris, John F. and Perretti, Mauro and Buckingham, Julia C. and Flower, Roderick J. (2004) The annexin 1-/- mouse: phenotypic studies. Annexins, 1 (2). pp. 109-120. ISSN 1547-6294

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Abstract

We investigated the phenotype of Anx-A1-/- mice and studied the appearance of the gene expression during embryonic and postnatal development. Anx-A1-/- mice are fertile and there were no apparent differences in litter sizes or other breeding statistics when compared to litter mate Anx-A1+/+ controls. The null mice grew at the same rate as the Anx-A1+/+ controls and appeared normal at all ages. Plasma sodium, potassium and possibly calcium were slightly elevated in an apparently genotype-dependent fashion, although all these differences were probably still within the normal range. The liver enzyme ALT was significantly elevated in the Anx-A1-/- mice but most other aspects of blood chemistry were no different. In terms of post mortem pathology, there were few exceptional findings although genotype related changes were seen in the weight of the liver, heart, thymus, pancreas, pituitary gland and kidney at necroscopy. Examination by western blotting of the tissue concentrations of other members of the annexin family revealed that Anx-A1 gene deletion lead, in some organs (e.g. lung and thymus), to changes in the tissue concentration of other annexins as well as the pro-inflammatory enzymes COX-2, cPLA2 and iNOS. There was some evidence of a sexual dimorphism in this effect. Anx-A1 gene expression was first detected at embryonic day 10.5 in the corneal epithelium. Thereafter, the skin, bone and respiratory tract were among several sites that displayed strong gene expression during embryonic development whereas the brain and the heart exhibited little gene expression at any developmental stage. These findings are discussed in relation to several proposed roles for the protein.

Item Type: Article
Subjects: University of Westminster > Science and Technology > Life Sciences, School of (No longer in use)
Depositing User: Rachel Wheelhouse
Date Deposited: 18 Jul 2012 14:51
Last Modified: 24 Jul 2012 09:50
URI: http://westminsterresearch.wmin.ac.uk/id/eprint/10846

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