185 A NOVEL AND EFFECTIVE PROCEDURE FOR REMOVING HIV-1 AND HEPATITIS B AND C VIRUSES FROM SPIKED HUMAN SEMEN
N.M. Loskutoff A , C. Huyser B , R. Singh B , K.A. Morfeld A , D.L. Walker C , A.R. Thornhill C , M. Smith D , L. Morris D and L. Webber EA Center for Conservation and Research, Henry Doorly Zoo, Omaha, NE 68107, USA
B Department of Obstetrics & Gynaecology, PAH, University of Pretoria, Pretoria, South Africa
C Department of Obstetrics and Gynecology, Mayo Clinic College of Medicine, Rochester, MN 55904, USA
D National Institute for Communicable Disease, AIDS Unit, Johannesburg, South Africa
E Virology and Molecular Biology Unit, Lancet Laboratories, Johannesburg, South Africa. Email: NaidaL@omahazoo.com
Reproduction, Fertility and Development 17(2) 243-243 https://doi.org/10.1071/RDv17n2Ab185
Submitted: 1 August 2004 Accepted: 1 October 2004 Published: 1 January 2005
Abstract
The objectives of this study were to determine the effectiveness of a novel, trypsinized density gradient treatment designed to remove viruses from semen and to evaluate sperm viability after treatment. Exp. 1: Cryopreserved human semen (n = 6 donors) was layered on 2-mL columns of 45% Isolate (Irvine Scientific, Santa Ana, CA, USA) with or without 0.25% trypsin (trypsin-exposed and control, respectively), which overlaid 2-mL columns of 90% Isolate with or without 10 μg/mL soy-based trypsin inactivator (Sigma, St. Louis, MO, USA) and centrifuged (700g for 30 min). The layering of multiple density gradients is facilitated by a novel polypropylene tube insert, which also prevents contamination when extracting treated sperm (USA and international patents pending). Pellets were washed and then incubated at room temperature. Sperm were examined (motility and supravital staining) at 0, 2, 24, and 48 h post-treatment and the results evaluated using Wilcoxon Signed Rank and Rank Sum tests. Exp. 2: A cytopathic cell (MT-2) assay was conducted (6 replicates) to determine the effect of trypsin (1-min exposure) on HIV-1 RNA infectivity. Viral replication was assessed by syncytium formation and p24 antigen production. Exp. 3: Two pools of fresh human semen (N1 = 3 and N2 = 8 donors) were inoculated (1:1) with 1 × 108 copies/mL of cultured HIV-1 RNA, and one pool (N2) was inoculated (1:1) with plasma collected from patients infected with either Hepatitis B DNA (HBV) or C (HCV) RNA viruses; spiked and non-spiked aliquots were processed as in Exp. 1. Treated sperm pellets were analyzed for HIV-1 or HBV and HCV concentrations by the Bayer Versant branched DNA (bDNA; version 3.0) and/or the Roche Amplicor quantitative RT-PCR (1.5 ultrasensitive) assays at Toga Laboratories (Pty), Ltd. (Edenvale, South Africa). As a result of Exp. 1, there was significantly (P < 0.05) lower motility (but not supravital staining) between trypsin-treated and control sperm at 0 h (58.0 vs. 69.3%) and 2 h (54.7 vs. 62.9%) post-washing; however, no differences were noted after 24 h (P > 0.05). In Exp. 2, trypsin exposure affected HIV-1 RNA infectivity negatively as compared to controls in terms of MT-2 cell syncytium formation and p24 antigen production. Results of the bDNA and/or RT-PCR assays in Exp. 3 indicated that the procedure effectively reduced HIV-1, HBV, and HCV viral copies in the spiked semen samples to undetectable levels or levels below clinical relevance. In conclusion, the novel trypsin density gradient procedure was effective for removing HIV-1, HBV and HCV from spiked semen without markedly affecting sperm survival. Extrapolation of these results to natural infections may be unfounded for viruses (e.g. HBV) that are thought to integrate into sperm chromatin.
