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The podosomal-adaptor protein SH3PXD2B is essential for normal postnatal development
Authors:Mao Mao  Daniel R. Thedens  Bo Chang  Belinda S. Harris  Qing Yin Zheng  Kenneth R. Johnson  Leah Rae Donahue  Michael G. Anderson
Affiliation:(1) Department of Molecular Physiology and Biophysics, The University of Iowa, 6-430 Bowen Science Building, 51 Newton Road, Iowa City, IA 52242, USA;(2) Department of Radiology, The University of Iowa, Iowa City, IA 52242, USA;(3) The Jackson Laboratory, Bar Harbor, ME 04609, USA;(4) Department of Ophthalmology and Visual Sciences, The University of Iowa, Iowa City, IA 52242, USA;(5) Present address: Department of Otolaryngology-Head and Neck Surgery, Case Western Reserve University, University Hospitals-Case Medical Center, Cleveland, OH 44106, USA;
Abstract:Podosome-type adhesions are actin-based membrane protrusions involved in cell-matrix adhesion and extracellular matrix degradation. Despite growing knowledge of many proteins associated with podosome-type adhesions, much remains unknown concerning the function of podosomal proteins at the level of the whole animal. In this study, the spontaneous mouse mutant nee was used to identify a component of podosome-type adhesions that is essential for normal postnatal growth and development. Mice homozygous for the nee allele exhibited runted growth, craniofacial and skeletal abnormalities, ocular anterior segment dysgenesis, and hearing impairment. Adults also exhibited infertility and a form of lipodystrophy. Using genetic mapping and DNA sequencing, the cause of nee phenotypes was identified as a 1-bp deletion within the Sh3pxd2b gene on mouse Chromosome 11. Whereas the wild-type Sh3pxd2b gene is predicted to encode a protein with one PX domain and four SH3 domains, the nee mutation is predicted to cause a frameshift and a protein truncation altering a portion of the third SH3 domain and deleting all of the fourth SH3 domain. The SH3PXD2B protein is believed to be an important component of podosomes likely to mediate protein-protein interactions with membrane-spanning metalloproteinases. Testing this directly, SH3PXD2B localized to podosomes in constitutively active Src-transfected fibroblasts and through its last SH3 domain associated with a transmembrane member of a disintegrin and metalloproteinase family of proteins, ADAM15. These results identify SH3PXD2B as a podosomal-adaptor protein required for postnatal growth and development, particularly within physiologic contexts involving extracellular matrix regulation.
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