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  • Author: Cottrell T Tamessar x
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Cottrell T Tamessar C Tamessar, School of Environmental and Life Sciences, College of Engineering, Science and Environment, The University of Newcastle Australia, Callaghan, Australia

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Amanda L. Anderson A Anderson, School of Environmental and Life Sciences, College of Engineering, Science and Environment, The University of Newcastle Australia, Callaghan, Australia

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Elizabeth G Bromfield E Bromfield, School of Environmental and Life Sciences, College of Engineering, Science and Environment, The University of Newcastle Australia, Callaghan, Australia

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Natalie A Trigg N Trigg, School of Environmental and Life Sciences, College of Engineering, Science and Environment, The University of Newcastle Australia, Callaghan, Australia

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Shanmathi Parameswaran S Parameswaran, School of Environmental and Life Sciences, College of Engineering, Science and Environment, The University of Newcastle Australia, Callaghan, Australia

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Simone J Stanger S Stanger, School of Environmental and Life Sciences, College of Engineering, Science and Environment, The University of Newcastle Australia, Callaghan, Australia

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Judith Weidenhofer J Weidenhofer, School of Biomedical Sciences and Pharmacy, College of Health, Medicine and Wellbeing, The University of Newcastle Australia, Ourimbah, Australia

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Hui-Ming Zhang H Zhang, Central Analytical Facility, Research and Innovation Division, The University of Newcastle Australia, Callaghan, Australia

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Sarah A Robertson S Robertson, The Robinson Research Institute and School of Biomedicine, The University of Adelaide, Adelaide, Australia

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David Sharkey D Sharkey, The Robinson Research Institute and School of Biomedicine, The University of Adelaide, Adelaide, Australia

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Brett Nixon B Nixon, School of Environmental and Life Sciences, College of Engineering, Science and Environment, The University of Newcastle Australia, Callaghan, Australia

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John E Schjenken J Schjenken, School of Environmental and Life Sciences, College of Engineering, Science and Environment, The University of Newcastle Australia, Callaghan, Australia

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Seminal fluid extracellular vesicles (SFEVs) have previously been shown to interact with spermatozoa and influence their fertilisation capacity. Here, we sought to extend these studies by exploring the functional consequences of SFEV interactions with human spermatozoa. SFEVs were isolated from seminal fluid of normozoospermic donors prior to assessing the kinetics of sperm-SFEV binding in vitro, as well as the effects of these interactions on sperm capacitation, acrosomal exocytosis and motility profile. Biotin-labelled SFEV proteins were transferred primarily to the flagellum of spermatozoa within minutes of co-incubation, although additional foci of SFEV biotinylated proteins also labelled the mid-piece and head domain. Functional analyses of high-quality spermatozoa collected following liquification revealed that SFEVs did not influence sperm motility during incubation at pH 5, yet SFEVs induced subtle increases in total and progressive motility in sperm incubated with SFEVs at pH 7. Additional investigation of sperm motility kinematic parameters revealed that SFEVs significantly decreased beat cross frequency and increased distance straight line, linearity, straightness, straight line velocity, and wobble. SFEVs did not influence sperm capacitation status, or the ability of sperm to undergo acrosomal exocytosis. Functional assessment of both high- and low-quality spermatozoa collected prior to liquification showed limited SFEV influence, with these vesicles inducing only subtle decreases in beat cross frequency in spermatozoa of both groups. These findings raise the prospect that, aside from subtle effects on sperm motility, the encapsulated SFEV cargo may be destined for physiological targets other than the male germline, notably the female reproductive tract.

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