Two species of histones in sea urchin sperm (Sp H1 and Sp H2B) are chimeric molecules whose highly basic amino-terminal domains are dephosphorylated at the last stage of sperm cell differentiation, and rephosphorylated immediately following fertilization. The phosphorylated regions consist largely of repeating tetrapeptides with two basic residues flanking Ser-Pro residues ('SPKK' motifs) and are predicted to have beta-turn secondary structures. Alteration of the charge and structure of the SPKK sites may play a role in the unusually dense DNA packaging of the mature sperm chromatin. The motif resembles the target site of cell-cycle-associated cdc2 kinases and is found in several other proteins whose nucleic acid affinities may be altered during the cell cycle.
Decondensation of compact and inactive sperm chromatin by egg cytoplasm at fertilization is necessary to convert the male germ cell chromatin to an active somatic form. We studied decondensation of sea urchin sperm nuclei in a cell-free extract of sea urchin eggs to define conditions promoting decondensation. We find that egg cytosol specifically phosphorylates two sperm-specific (Sp) histones in vitro in the same regions as in vivo. This activity is blocked by olomoucine, an inhibitor of cdc2-like kinases, but not by chelerythrine, an inhibitor of protein kinase C (PKC). PKC phosphorylates and solubilizes the sperm nuclear lamina, one requirement for decondensation. Olomoucine, which does not inhibit lamina removal, blocks sperm nuclear decondensation in the same concentration range over which it is effective in blocking Sp histone phosphorylation. In a system free of other soluble proteins, neither PKC nor cdc2 alone elicit sperm chromatin decondensation, but the two act synergistically to decondense sperm nuclei. We conclude that two kinases activities are sufficient for sea urchin male pronuclear decondensation in vitro, a lamin kinase (PKC) and a cdc2-like Sp histone kinase.
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