The spermostatic and microbicidal actions of quinones and maleimides: Toward a dual-purpose contraceptive agent

Hughes, Louise M.; Griffith, Renate; Carey, Alison; Butler, Trent; Donne, Scott W; Beagley, Ken W.; Aitken, R. John

Title: The spermostatic and microbicidal actions of quinones and maleimides: Toward a dual-purpose contraceptive agent
Creator: Hughes, Louise M.; Griffith, Renate; Carey, Alison; Butler, Trent; Donne, Scott W; Beagley, Ken W.; Aitken, R. John
Relation: Molecular Pharmacology Vol. 76, Issue 1, p. 113-124
Publisher Link: http://dx.doi.org/10.1124/mol.108.053645
Publisher: American Society for Pharmacology and Experimental Therapeutics
Resource Type: journal article
Date: 2009
Description: There is an urgent need to develop safe, effective, dual-purpose contraceptive agents that combine the prevention of pregnancy with protection against sexually transmitted diseases. Here we report the identification of a group of compounds that on contact with human spermatozoa induce a state of “spermostasis,” characterized by the extremely rapid inhibition of sperm movement without compromising cell viability. These spermostatic agents were more active and significantly less toxic than the reagent in current clinical use, nonoxynol 9, giving therapeutic indices (ratio of spermostatic to cytotoxic activity) that were orders of magnitude greater than this traditional spermicide. Although certain compounds could trigger reactive oxygen species generation by spermatozoa, this activity was not correlated with spermostasis. Rather, the latter was associated with alkylation of two major sperm tail proteins that were identified as A Kinase-Anchoring Proteins (AKAP3 and AKAP4) by mass spectrometry. As a consequence of disrupted AKAP function, the abilities of cAMP to drive protein kinase A-dependent activities in the sperm tail, such as the activation of SRC and the consequent stimulation of tyrosine phosphorylation, were suppressed. Furthermore, analysis of microbicidal activity using Chlamydia muridarum revealed powerful inhibitory effects at the same low micromolar doses that suppressed sperm movement. In this case, the microbicidal action was associated with alkylation of Major Outer Membrane Protein (MOMP), a major chlamydial membrane protein. Taken together, these results have identified for the first time a novel set of cellular targets and chemical principles capable of providing simultaneous defense against both fertility and the spread of sexually transmitted disease.
Subject: spermatozoa; tyrosine phosphorylation; superoxide dismutase; sperm motility; capacitation; nonoxynol 9; contraception
Identifier: uon:8305
Identifier: http://hdl.handle.net/1959.13/917434
Identifier: ISSN:0026-895X
Reviewed

Hits: 9091
Visitors: 8931
Downloads: 0

		Thumbnail	File	Description	Size	Format