Molecular basis of maturation promoting factor

Maturation promoting factor (MPF), which is functionally defined by its ability to induce Xenopus oocyte maturation, is an M phase (meiosis and mitosis) specific activity that is present in all species tested. It was hypothesized that MPF is a universal trigger of the interphase to M phase transition during the cell cycle. The current model for the molecular basis of MPF is that MPF is a protein kinase having the cdc2 protein as its catalytic subunit and is identical to the M phase-specific histone H1 kinase. In the present study, I have shown that more than just cdc2 kinase contributes to MPF activity, and M phase-specific H1 kinase is composed of at least two entities, instead of just cdc2 kinase. Therefore, the simple model of MPF = cdc2 kinase = M phase-specific H1 kinase should be ruled out.^ My study began with the characterization of the mitosis-specific monoclonal antibody MPM-2. MPM-2 reacts specifically with M phase cells from different species by recognizing a discrete set of proteins once they are phosphorylated at the G$\sb2$/M transition. I found that phosphorylation of MPM-2 antigens coincided with the appearance of MPF activity during oocyte maturation stimulated by progesterone. If MPM-2 was injected into oocytes before the stimulation, MPF activity failed to appear, and the oocytes could not mature. Furthermore, MPM-2 was able to deplete MPF activity from M phase extracts. These results identified MPM-2 as a probe that recognizes either MPF itself or a regulator of MPF.^ Since M phase-specific H1 kinase was believed to be identical to cdc2 kinase and MPF, I proceeded to determine whether MPM-2 recognized the M phase-specific H1 kinase. I found that MPM-2 did recognize an M phase-specific H1 kinase. However, this kinase was not cdc2 kinase. This kinase (MPM-2 kinase) is present in a latent form in immature oocytes and is activated in tandem with the activation of MPF during oocyte maturation. It appears to accelerate progesterone-induced oocyte maturation. Therefore, MPM-2 kinase may be a novel positive regulator of MPF activation.^ MPM-2 depletes MPF activity, but not cdc2 kinase activity. This discrepancy caused me to question the equivalency of MPF with cdc2 kinase. I found that when a high percentage of MPF activity was recovered from gel filtration of mature oocyte extract, the recovered MPF activity was due to two factors, cdc2 kinase and a factor recognized by MPM-2. This factor might activate and stabilize cdc2 kinase. Identification of this factor in the present study may contribute to the understanding of the autoactivation of MPF. ^