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  • Sperm switch swimming patterns to locate

    From ScienceDaily@1:317/3 to All on Mon Nov 1 21:30:36 2021
    Sperm switch swimming patterns to locate egg

    Date:
    November 1, 2021
    Source:
    Cornell University
    Summary:
    A new study reveals how sperm change their swimming patterns to
    navigate to the egg, shifting from a symmetrical motion that moves
    the sperm in a straight path to an asymmetrical one that promotes
    more circular swimming.



    FULL STORY ==========================================================================
    A new study reveals how sperm change their swimming patterns to navigate
    to the egg, shifting from a symmetrical motion that moves the sperm in a straight path to an asymmetrical one that promotes more circular swimming.


    ==========================================================================
    This change in behavior, called hyperactivation, enables the sperm to
    sweep the area once in the egg's proximity, which improves the sperm's
    chances of finding it.

    For the in vitro study, the researchers designed microfluidic chips
    with micron-sized channels so they could observe bovine sperm with a
    microscope and a high-speed camera.

    By exposing the mechanisms involved, the study not only unravels a mystery
    of how the sperm navigates to the egg, but it also has implications for
    human in- vitro fertilization and dairy cow reproduction and provides
    new information for engineers to design robotic micro swimmers.

    "By understanding what determines the navigational mechanism and the biophysical and biochemical cues for a sperm to get to the egg, we
    may be able to use those cues to treat couples with infertility issues
    and select the best strategy for in vitro fertilization," said Alireza Abbaspourrad, the paper's senior author and the Youngkeun Joh Assistant Professor of Food Chemistry and Ingredient Technology in the Department
    of Food Science in the College of Agriculture and Life Sciences.

    The study, "Mammalian Sperm Hyperactivation Regulates Navigation Via
    Physical Boundaries and promotes Pseudo-Chemotaxis," was published online
    Oct. 29 in the Proceedings of the National Academy of Sciences.

    The paper clarifies how millions of sperm travel through the female
    mammal's reproductive tract, with only a handful eventually reaching the fertilization site. The sperm stay close to the side walls and swim in a straight line against a small amount of fluid that flows from the upper
    to lower part of the reproductive tract. But once sperm reach the uterine junctional zone, enter the fallopian tubes and move towards the egg,
    an influx of calcium ions into their flagellum triggers hyperactivation
    and circular swimming. More study is needed to understand exactly what
    triggers the calcium influx in the flagellum.

    The microfluidic chips allowed the researchers to manipulate the
    environment.

    The team recorded the sperm swimming alongside the chamber's walls. They
    then tested compounds, including caffeine, which increase calcium ions in
    a cell's cytoplasm. They recorded the sperm's behavioral switch in the
    presence of calcium from symmetrical, direct swimming to hyperactivated circular swimming that meant the sperm no longer hugged close to the
    walls. Without this shift, sperm could run into dead ends where they
    get stuck.

    "It's been shown that this [swimming] state is required for
    fertilization," Abbaspourrad said. Though the observations occurred in
    a lab in vitro, it provides a sense of what might be happening in vivo,
    he said.

    "We think that hyperactivation modulates sperm's swimming behavior as
    it ascends towards the fertilization site, depending on the functional
    region within the tract, and as sperm responds to the biochemical factors present in the environment," said Meisam Zaferani, the paper's first
    author and a graduate student in Abbaspourrad's lab.

    Susan Suarez, emeritus professor of biomedical sciences, is a coauthor.

    ========================================================================== Story Source: Materials provided by Cornell_University. Original written
    by Krishna Ramanujan, courtesy of the Cornell Chronicle. Note: Content
    may be edited for style and length.


    ========================================================================== Journal Reference:
    1. Meisam Zaferani, Susan S. Suarez, Alireza Abbaspourrad. Mammalian
    sperm
    hyperactivation regulates navigation via physical boundaries and
    promotes pseudo-chemotaxis. Proceedings of the National Academy of
    Sciences, 2021; 118 (44): e2107500118 DOI: 10.1073/pnas.2107500118 ==========================================================================

    Link to news story: https://www.sciencedaily.com/releases/2021/11/211101141730.htm

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