December 23, 2024

Why Do Some Men Not Produce Sperm?

A video discussing the findings. Credit: Stowers Institute for Medical Research
The Role of Meiosis in Reproductive Health
Meiosis, the cell division process generating sperm and eggs, includes a number of steps, among which is the development of a big protein structure called the synaptonemal complex. Like a bridge, the complex holds chromosome pairs in place allowing required genetic exchanges to occur that are vital for the chromosomes to then correctly separate into sperm and eggs.
” A substantial contributor to infertility is flaws in meiosis,” stated Billmyre. “To understand how chromosomes separate into reproductive cells correctly, we are really thinking about what occurs right before that when the synaptonemal complicated types in between them.”
Microscopy images showing typical seminiferous tubules in control testes with fully grown sperm (black arrow: left) however smaller sized empty seminiferous tubules in testes harboring a synaptonemal complex protein point anomaly (black asterisk: right). Credit: Stowers Institute for Medical Research
Previous studies have actually examined lots of proteins making up the synaptonemal complex, how they communicate with each other, and have identified different anomalies linked to male infertility. The protein the scientists examined in this research study forms the lattices of the proverbial bridge, which has actually a section discovered in human beings, mice, and the majority of other vertebrates recommending it is vital for assembly. Modeling various anomalies in a possibly important area in the human protein enabled the team to anticipate which of these may interrupt protein function.
The authors used an exact gene editing method to make mutations in one crucial synaptonemal complex protein in mice, which allowed the scientists, for the very first time, to test the function of crucial areas of the protein in live animals. Just a single mutation, anticipated from the modeling experiments, was validated as the offender of infertility in mice.
Agent testes from 9-week-old control mice (left) and mice with a point mutation in one synaptonemal complex protein (right). Credit: Stowers Institute for Medical Research
” Were speaking about identify surgery here,” stated Hawley. “We concentrated on a tiny little area of one protein in this massive structure that we were pretty sure might be a considerable reason for infertility.”
Implications for Human Health
Mice have actually long been utilized as models for human illness. From the modeling experiments utilizing human protein sequences, in addition to the high preservation of this protein structure across species, the exact particle that caused infertility in mice likely functions the exact same method in people.
” What is truly amazing to me is that our research study can help us understand this really basic procedure that is needed for life,” stated Billmyre.
The protein the group investigated (SYCP1) forms usually, and all extra necessary proteins are recruited. In the mutant, SYCP1 localizes to the chromosome axes but does not effectively form the bridge-like structure (head-to-head interactions), and the extra proteins that help keep the bridge intact are either missing or not effectively arranged.
For Hawley, this research is a true representation of the adaptability of the Institute. Hawleys lab normally carries out research study in fruit flies, yet the protein found in this study was not present in fruit flies and required a different research study organism to continue. Because of the resources and Technology Centers at the Institute, it was possible to rapidly pivot and check the brand-new infertility hypothesis in mice.
” I cant think of another location where this could happen,” said Hawley. “I think its an amazing example of how the Stowers Institutes dedication towards discovery can yield big outcomes offering essential leaps forward in understanding.”
Recommendation: “SYCP1 head-to-head assembly is needed for chromosome synapsis in mouse meiosis” by Katherine Kretovich Billmyre, Emily A. Kesler, Dai Tsuchiya, Timothy J. Corbin, Kyle Weaver, Andrea Moran, Zulin Yu, Lane Adams, Kym Delventhal, Michael Durnin, Owen Richard Davies and R. Scott Hawley, 20 October 2023, Science Advances.DOI: 10.1126/ sciadv.adi1562.
Additional authors include Emily A. Kesler, Dai Tsuchiya, Ph.D., Timothy J. Corbin, Kyle Weaver, Andrea Moran, Zulin Yu, Ph.D., Lane Adams, Kym Delventhal, Michael Durnin, Ph.D., and Owen Richard Davies, Ph.D
. This work was funded by the Wellcome Centre for Cell Biology (award: 203149), the Wellcome Senior Research Fellowship (award: 219413/Z/19/ Z), and by institutional support from the Stowers Institute for Medical Research.

Recent research exposes a single mutation in a vital protein structure, the synaptonemal complex, can cause male infertility. This discovery, made through gene modifying in mice, opens new possibilities for understanding and dealing with male infertility.
Researchers at Stowers Institute collaborate to discover a hidden cause of male infertility.
Infertility impacts many couples worldwide, and in half of these cases, the issue lies with the male partner. Recent research study conducted collectively by the Stowers Institute for Medical Research and the Wellcome Centre for Cell Biology at the University of Edinburgh are offering insights into the malfunctions taking place during sperm development.
” A substantial cause of infertility in males is that they just can not make sperm,” stated Stowers Investigator Scott Hawley, Ph.D. “If you understand exactly what is wrong, there are technologies emerging today that might offer you a way to fix it.”
The research study just recently released in Science Advances from the Hawley Lab and Wellcome Centre Investigator Owen Davies, Ph.D., may assist explain why some men do not make sufficient sperm to fertilize an egg. In the majority of sexually recreating types, including people, a crucial protein structure resembling a lattice-like bridge needs to be constructed correctly to produce sperm and egg cells. The team led by former Postdoctoral Research Associate Katherine Billmyre, Ph.D., discovered that in mice, altering a really specific and single point in this bridge caused it to collapse, causing infertility and thus offering insight into human infertility in males due to comparable issues with meiosis.

Previous research studies have examined many proteins consisting of the synaptonemal complex, how they communicate with each other, and have actually determined various mutations linked to male infertility. The protein the scientists examined in this research study forms the lattices of the proverbial bridge, which has actually an area discovered in humans, mice, and a lot of other vertebrates recommending it is crucial for assembly. Modeling different anomalies in a possibly vital region in the human protein enabled the group to anticipate which of these may disrupt protein function.
The protein the team examined (SYCP1) forms usually, and all additional required proteins are recruited. Hawleys laboratory normally carries out research in fruit flies, yet the protein found in this research study was not present in fruit flies and required a different research organism to continue.