4.5 Article

Apical Sperm Hook Morphology Is Linked to Sperm Swimming Performance and Sperm Aggregation in Peromyscus Mice

期刊

CELLS
卷 10, 期 9, 页码 -

出版社

MDPI
DOI: 10.3390/cells10092279

关键词

sperm aggregation; sperm morphology; sperm motility

资金

  1. Eunice Kennedy Shriver National Institute of Child Health and Human Development [K99/R00, R00HD071972]
  2. National Science Foundation Postdoctoral Research Fellowship [1711817]
  3. Div Of Biological Infrastructure
  4. Direct For Biological Sciences [1711817] Funding Source: National Science Foundation

向作者/读者索取更多资源

Research shows that the width of the sperm hook in rodents is negatively correlated with sperm aggregation and swimming speed, indicating that larger hooks may hinder sperm movement within this group.
Mammals exhibit a tremendous amount of variation in sperm morphology and despite the acknowledgement of sperm structural diversity across taxa, its functional significance remains poorly understood. Of particular interest is the sperm of rodents. While most Eutherian mammal spermatozoa are relatively simple cells with round or paddle-shaped heads, rodent sperm are often more complex and, in many species, display a striking apical hook. The function of the sperm hook remains largely unknown, but it has been hypothesized to have evolved as an adaptation to inter-male sperm competition and thus has been implicated in increased swimming efficiency or in the formation of collective sperm movements. Here we empirically test these hypotheses within a single lineage of Peromyscus rodents, in which closely related species naturally vary in their mating systems, sperm head shapes, and propensity to form sperm aggregates of varying sizes. We performed sperm morphological analyses as well as in vitro analyses of sperm aggregation and motility to examine whether the sperm hook (i) morphologically varies across these species and (ii) associates with sperm competition, aggregation, or motility. We demonstrate inter-specific variation in the sperm hook and then show that hook width negatively associates with sperm aggregation and sperm swimming speed, signifying that larger hooks may be a hindrance to sperm movement within this group of mice. Finally, we confirmed that the sperm hook hinders motility within a subset of Peromyscus leucopus mice that spontaneously produced sperm with no or highly abnormal hooks. Taken together, our findings suggest that any adaptive value of the sperm hook is likely associated with a function other than inter-male sperm competition, such as interaction with ova or cumulous cells during fertilization, or migration through the complex female reproductive tract.

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