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24 June 2009 Linker Histones Stimulate HSPA2 ATPase Activity Through NASP Binding and Inhibit CDC2/Cyclin B1 Complex Formation During Meiosis in the Mouse
Oleg M. Alekseev, Richard T. Richardson, Michael G. O'Rand
Author Affiliations +
Abstract

In mammalian spermatocytes, cell division cycle protein 2 (CDC2)/cyclin B1 and the chaperone heat shock protein A2 (HSPA2) are required for the G2→M transition in prophase I. Here, we demonstrate that in primary spermatocytes, linker histone chaperone testis/embryo form of nuclear autoantigenic sperm protein (tNASP) binds the heat shock protein HSPA2, which localizes on the synaptonemal complex of spermatocytes. Significantly, the tNASP-HSPA2 complex binds linker histones and CDC2, forming a larger complex. We demonstrate that increasing amounts of tNASP favor tNASP-HSPA2-CDC2 complex formation. Binding of linker histones to tNASP significantly increases HSPA2 ATPase activity and the capacity of tNASP to bind HSPA2 and CDC2, precluding CDC2/cyclin B1 complex formation and, consequently, decreasing CDC2/cyclin B1 kinase activity. Linker histone binding to NASP controls the ability of HSPA2 to activate CDC2 for CDC2/cyclin B1 complex formation; therefore, tNASP's role is to provide the functional link between linker histones and cell cycle progression during meiosis.

Oleg M. Alekseev, Richard T. Richardson, and Michael G. O'Rand "Linker Histones Stimulate HSPA2 ATPase Activity Through NASP Binding and Inhibit CDC2/Cyclin B1 Complex Formation During Meiosis in the Mouse," Biology of Reproduction 81(4), 739-748, (24 June 2009). https://doi.org/10.1095/biolreprod.109.076497
Received: 28 January 2009; Accepted: 1 June 2009; Published: 24 June 2009
KEYWORDS
CDC2/cyclin B1
cell cycle
HSPA2
linker histones
meiosis
NASP
spermatogenesis
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