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William Wright, PhD

Head, Division of Reproductive Biology

Professor

Departmental Affiliation(s):

Biochemistry and Molecular Biology
Division: Reproductive Biology

Contact Information

615 N. Wolfe Street W3508
Baltimore , Maryland   21205
US        

410-955-7830
410-955-2926

Education

PhD , State University of New York , 1979

Overview

Our laboratory studies cell-cell interactions that underlie the formation and function of the male gamete. Successful development of sperm requires specific and precise communication between somatic, Sertoli cells and developing male germ cells. These interactions are evident in the effects of germ cells on transcription of the cathepsin L gene by Sertoli cells. We have shown that germ cells sequentially repress, stimulate and re-repress transcription of this gene and have identified, using transgenic animals, the region of this gene containing the cis-acting elements which confer both Sertoli cell-specific expression and the transcriptional response to germ cells. The goal of current studies is to identify the cis-acting elements and transcription factors which mediate the effects of germ cells on gene transcription by Sertoli cells.

A key step in mouse fertilization is the tight binding of sperm to glycans on zona pellucida glycoprotein-3 (ZP3), one of the three glycoproteins in the egg's extracellular coat. The goals of our studies are to identify the glycans on ZP3 which bind the sperm and to isolate and characterize their cognate sperm-surface receptors. To this end, we have used glycans of known structures as inhibitors of the binding of sperm both to eggs and to purified ZP3. Additionally, we have tested the abilities of these glycans, when covalently attached on BSA, to mimic ZP3's ability to induce the sperm to undergo the acrosome-reaction. We have shown that the Lewis X trisaccharide, Galb1,4[Fuca1,3]GlcNAc, binds the ZP3 receptor on sperm and mimics the ability of ZP3 to induce the acrosome-reaction. The aims of current studies are to identify the sperm surface receptors that bind the Lewis X glycan, to identify the signal transduction pathways coupled to these receptors and to test the hypothesis that the Lewis X glycan, or a glycan with related structure, is present on ZP3.

  • Biochemistry and molecular biology
  • reproductive biology
  • cell-cell interactions
  • testis
  • Sertoli cells
  • germ cells
  • spermatogenesis
  • gene expression