There may soon be a new and safe contraceptive for men especially after the discovery of a crucial gene necessary for sperm development.
The finding could lead to alternatives to conventional male contraceptives that rely on disrupting the production of hormones, such as testosterone and can cause side effects such as irritability, mood swings and acne.
Research, led by the University of Edinburgh, has shown how a gene - Katnal1 - is critical to enable sperm to mature in the testes.
If scientists can regulate the Katnal1 gene in the testes, they could prevent sperm from maturing completely, making them ineffective, without changing hormone levels.
The research could also help in finding treatments for cases of male infertility, when malfunction of the Katnal1 gene hampers sperm development.
"If we can find a way to target this gene in the testes, we could potentially develop a non-hormonal contraceptive," said Dr Lee Smith, Reader in Genetic Endocrinology at the Medical Research Council Centre for Reproductive Health at the University of Edinburgh.
"The important thing is that the effects of such a drug would be reversible because Katnal1 only affects sperm cells in the later stages of development, so it would not hinder the early stages of sperm production and the overall ability to produce sperm.
"Although other research is being carried out into non-hormonal male contraceptives, identification of a gene that controls sperm production in the way Katnal1 does is unique and a significant step forward in our understanding of testis biology," Dr Smith asserted.
Scientists found that male mice, which were modified so they did not have the Katnal1 gene, were infertile.
Further investigation showed that this was because the gene was needed to allow the sperm to develop and mature.
The researchers showed that Katnal1 was needed to regulate a scaffolding structure, known as microtubules, which forms part of the cells that support and provide nutrients to developing sperm.
Break down and rebuilding of these microtubules, enable the sperm cells to move within the testes as they mature. Katnal1 acts as the essential controller of this process.
The finding has been published in the journal PLoS Genetics.