The Mechanism of Binding of Exogenous DNA to Sperm Cells: Factors Controlling the DNA Uptake

Abstract Mature sperm cells have the spontaneous capability of taking up exogenous DNA. Potential substrates for the interaction of the DNA with the sperm heads are specific classes of DNA-binding proteins. In the present work three major classes of DNA-binding proteins were identified by Southwestern analysis of sperm head protein extracts: a first class of about 50 kDa in molecular weight, a second one of 30-35 kDa, and finally a third one below 20 kDa. The latter group most probably contains sperm protamines. Our attention was particularly focused on the 30- to 35-kDa proteins as a substrate for DNA binding, as they represented the only group whose electrophoretic mobility was conserved among mammalian species. In addition they were the only class of DNA-binding proteins accessible to exogenous DNA in intact sperm cells. The purified 30- to 35-kDa proteins interacted in vitro with exogenous DNA and generated discrete protein/DNA complexes as determined by band shift assay. A factor blocking the binding of exogenous DNA to sperm cells was also identified in the seminal fluid of mammals and in echinoid spermatozoa. The factor also exerted a powerful inhibitory effect on DNA uptake in sperm cells of heterologous species. The 30- to 35-kDa DNA-binding proteins appeared to be the specific target through which the inhibition was mediated. In the presence of the inhibitory factor, the 30- to 35-kDa lost the ability to bind exogenous DNA. Thus, the interaction of exogenous DNA with sperm cells does not appear to be a casual event but, on the contrary, relies on a molecular mechanism based on the cooperation of specific protein factors.