Molecular Human Reproduction

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Molecular Human Reproduction, Vol. 7, No. 3, 237-244, March 2001
© 2001 European Society of Human Reproduction and Embryology

Testis and spermatogenesis

A critical investigation of NADPH oxidase activity in human spermatozoa

Samantha C. Richer and W.C.L. Ford^,1

University of Bristol, Division of Obstetrics & Gynaecology, St Michael's Hospital, Southwell Street, Bristol BS2 8EG, UK

Abstract

It has been suggested that human spermatozoa contain an NADPH oxidase that could generate reactive oxygen species involved in signalling pathways to promote fertility. The proposal depends on observations that the addition of NADPH to purified human spermatozoa stimulates chemiluminescence by the superoxide (O₂^–) probe, lucigenin. We confirmed these observations, but demonstrated that lucigenin increases NADPH consumption by spermatozoa and stimulates artefactual O₂^– production via a diphenyleneiodonium (DPI) sensitive flavoprotein. In the absence of cytochrome c, DPI-inhibitable NADPH oxidation by permeabilized spermatozoa was 8 times too small to account for the rate of NADPH-stimulated cytochrome c reduction. Thus NADPH can directly reduce cytochrome c by a flavoprotein dependent mechanism making this O₂^– assay also unreliable in sperm suspensions. We were unable to observe O₂^– production by 40 x 10⁶ spermatozoa/ml using electron paramagnetic resonance spectroscopy but could identify O₂^– generation from 2000 4ß-phorbol-12-myristate-13-actetate (PMA)-stimulated leukocytes. Using spectrophotometry, we did not detect the reduced cytochrome b₅₅₈ component of the neutrophil NADPH oxidase in human spermatozoa. No hydrogen peroxide generation was observed using a sensitive Amplex Red assay. We conclude that human spermatozoa do not possess significant NADPH oxidase activity and that the mechanism by which NADPH promotes capacitation must be re-evaluated.

human spermatozoa/lucigenin/NADPH oxidase/spin trapping/superoxide

Notes

¹ To whom correspondence should be addressed. E-mail: chris.ford{at}bristol.ac.uk

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