NewPress
DepartmentChromosome Biology
Publication date7-Feb-2020
Title

Ishiguro K*, Matsuura K, Tani N, Takeda N, Usuki S, Yamane M,  Sugimoto M,  Fujimura S,  Hosokawa M, Chuma S,  Ko S.H.M, Araki K, Niwa H : MEIOSIN directs the switch from mitosis to meiosis in mammalian germ cells. Dev. Cell 52(4), 429-445(2020)

https://www.sciencedirect.com/science/article/pii/S1534580720300113

https://www.cell.com/developmental-cell/fulltext/S1534-5807(20)30011-3

A research group from Kumamoto University, Japan has discovered a gene, “Meiosin”, that acts as the switch to turn on meiosis. The gene appears to be related to the cause of infertility and could be a big step forward for reproductive medicine.

 

Most cells in the tissues of most organisms proliferate through somatic cell division (mitosis). This is a continuous cycle where a single cell doubles its genetic information (chromosomes) and divides equally to create two copies of the original cell. In contrast, germ (egg and sperm) cells are produced through a special type of cell division called meiosis, which takes place in the gonads. This process begins like normal mitosis but switches after some time to create four genetically dissimilar germ cells that have half the original cell’s genetic material. The mechanism that causes this switch has been a longstanding research problem and controlling it is an important, yet challenging, global issue in reproductive medicine.

 

Recently, a group of researchers from Kumamoto University in Japan set out to assess the proteins involved in meiosis to clarify its development. Using mass spectrometry, the group was able to identify a gene that acts as a meiosis on-switch, labeling it “Meiosin” (for meiosis initiator). The Meiosin gene has the extremely rare property of becoming activated only at a specific time–just before the beginning of meiosis in the gonads. In animal experiments, the researchers found that both male and female mice became infertile if the Meiosin gene was artificially inhibited. Further analysis of the mouse male and female gonads clarified that the gene plays an essential role in meiosis activation. The Meiosin gene acts as a control tower that simultaneously switches on hundreds of genes for germ cell formation, and appears to be involved with infertility. The group expects that the discovery will be a big step forward for reproductive medicine.

 

There are many cases of human infertility where the cause is unknown; this finding potentially reveals a new pathology. Even though these experiments were performed on animal models, the Meiosin gene is present in humans. Abnormal meiosis in the eggs of older women can cause chromosomal abnormalities resulting in miscarriage or Down syndrome. And in societies with increased age of pregnancy, therapies developed from this research could ensure meiosis quality and decrease the instances of these complications. 

 

“Our work shows that the Meiosin gene is the switch that turns on meiosis, the special type of cell division that creates eggs and sperm, and this includes the turning-on of hundreds of other genes in the process. However, the functions of those genes have not yet been fully elucidated,” said Associate Professor Kei-Ichiro Ishiguro of the Institute of Molecular Embryology and Genetics at Kumamoto University. “We were quite surprised to find so many genes with undefined functions lying dormant in this study. We have high expectations that the processes involved in germ cell formation will be greatly clarified as the role each of these genes plays is discovered. If it eventually becomes possible to control meiosis, the benefits would be far-reaching for reproductive medicine, agricultural production, and even assisting rare species reproduction.”

This research result was posted online in “Developmental Cell” on 6 February 2020.

 

[Fund(s)]

Grant-in-Aid for Scientific Research on Innovative Areas (#16H01257, #16H01221, #17H03634, #18K19304, #19H05245, #19H05743, #JP 16H06276) – MEXT

 

 

Fig1. The “Meiosin” gene initiates the switch from mitosis to meiosis

In germ cell development, the newly discovered “Meiosin” gene triggers the change from mitosis to meiosis. It turns on hundreds of other genes that appear to work together to form sperm and egg cells in animals.

 

 

Fig2. Inhibition of the Meiosin gene causes animal specimens to become infertile

Reproductive medicine researchers from Kumamoto University (Japan) performed genome editing experiments to verify that the Meiosin gene was indeed the trigger for meiosis. When they removed the gene in a murine experimental model, meiosis did not begin and germ cells were not produced making the animals infertile.

 

February 3, 2020, at MEXT