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Y chromosome genes impact human biology in a big way

Male and female differ in manifestation of most diseases

A new study of Y chromosome genes explains why men suffer differently than women from various diseases, including COVID-19. Y chromosome genes, specific to males, could tell whether the mortality rate due to SARS-CoV-2 is twice as high in men than in women.



The findings have been published in Scientific Reports by Université de Montréal professor Christian Deschepper, director of the Experimental Cardiovascular Biology research unit of the Montreal Clinical Research Institute.



"Our discovery provides a better understanding of how male genes on the Y chromosome allow male cells to function differently from female cells," said Deschepper, the study's lead author, who is also an associate professor at McGill University.



"In the future, these results could help to shed some light on why some diseases occur differently in men and women."



Humans each have 23 pairs of chromosomes, including one pair of sex chromosomes. While females carry two X sex chromosomes, males carry one X and one Y chromosome. This male chromosome carries genes that females lack. Although these male genes are expressed in all cells of the body, their only confirmed role to date has been essentially limited to the functions of the sex organs.



In his study, Deschepper performed a genetic manipulation that inactivated two male genes on the Y chromosome, altering several signalling pathways that play important roles in certain functions of non-sex organ cells. For example, under stress, some of the affected mechanisms could influence the way in which cells in human hearts defend themselves against aggressions such as ischemia (reduced blood supply) or mechanical stress.



In addition, the study showed that these male genes performed their regulatory functions in a way that was unusual compared to the mechanisms generally used by most other genes on the non-sex chromosomes. Thus, instead of specifically activating certain genes by direct action at the genome level, the Y chromosome seems to affect cellular functions by acting on protein production.



The discovery of these differences in function may explain in part why the functions of male Y chromosome genes have so far been poorly understood, said Deschepper.



Males differ from females in the manifestation, severity and consequences of most diseases.

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