Mammalian spermatozoa acquire the ability to fertilise an oocyte as they ascend the female reproductive tract. This process is characterised by a complex cascade of biophysical and biochemical changes collectively known as capacitation. The attainment of a capacitated state is accompanied by a dramatic reorganisation of the surface architecture which renders the spermatozoa competent to recognise the heterogenetic matrix of the zona pellucida surrounding the oocyte and initiate fertilisation. Emerging evidence from our laboratory indicates that this process is facilitated by molecular chaperone-mediated assembly of a multimeric receptor complex on the sperm surface. However, to date the presence and composition of such a complex has yet to be described. Through the novel application of blue native polyacrylamide gel electrophoresis (BN-PAGE), we have provided the first evidence that capacitated mouse spermatozoa express high molecular weight, multimeric protein complexes on their surface. Interestingly, at least two of these complexes contain heat shock protein 1 (HSPD1), a molecular chaperone that has previously been implicated in sperm-zona pellucida interaction. Furthermore, we were able to demonstrate that one of these complexes also possessed an affinity for solubilised zona pellucida as determined by Far-western blotting. 2D BN-PAGE was employed to further delineate the individual constituents of this high molecular weight complex, with several other chaperonin proteins not previously reported in functional sperm indentified. Collectively, these results support the notion the sperm-zona pellucida interaction are mediated by a multimeric receptor complex. Our current work is focussed on the identification of the key zona adhesion molecules that comprise this complex.
The spontaneous release of a high-molecular-weight aggregate containing immunoglobulin G from the surface of Ehrlich ascites tumor cells