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Testicular cancer is the most common type of cancer to affect men between the ages of 15 and 49, and around 95% of these cases are caused by testicular germ cell tumors. Although testicular germ cell tumors typically manifest after puberty, problems in the embryonic development of germ cells can transform them into cancer cells that form tumors later in life.

In the embryo, initially have the potential to form many different cell types, a characteristic called pluripotency. Normally, germ cells lose this ability as progresses and they become restricted to only form —sperm in males and eggs in females—in a process known as sex determination. Male sex determination also coincides with the embryonic period when the that form testicular germ cell tumors can develop.

As Dr. Jason Heaney, Associate Professor at the Department of Molecular and Human Genetics at Baylor College of Medicine revealed, the timing between cancer cell formation and sex determination is more than just coincidental: "previous work from our lab and others indicated that defects in this sex-specific switch may play a central role in facilitating the initiation of testicular germ cell tumors. In this study, we set out to test whether testicular germ cell tumors arise from germ cells that do not begin the sex-specific differentiation process and retain features of pluripotent cells."

To test this hypothesis, Dr. Heaney together with Dr. Nicholas Webster and team explored whether a gene called Nanos2, which is needed for sex-determination, also prevented embryonic cancer cells developing in mice. "NANOS2 plays a key role in the sex-specific development of embryonic germ cells by suppressing the female (egg) fate and promoting the male (sperm) fate," explained Dr. Heaney.

Using a strain of mice that spontaneously develop germ cell tumors, the researchers showed that some germ cells lacked NANOS2. Not only did the NANOS2-deficient germ cells fail to mature into sperm, but they remained pluripotent and, crucially, were more likely to transform into embryonic cancer cells. The scientists also characterized the NANOS2-deficient germ cells and uncovered important changes in cell behavior, which could be used to identify and treat cancer cells in the future. "Our work reveals changes in gene expression when germ cells transform into cancer that suggest alterations in metabolism and cell division, which could be used for targeted therapies," said Dr. Heaney.

Although it is currently unclear what role NANOS2 plays in the development of human testicular germ cell tumors, this study highlights an important link to the process of male , providing a new direction for future research. "Our studies provide functional evidence for a mechanism—disrupted male germ cell fate determination—through which these genes cause testicular germ cell tumors in humans," said Dr. Heaney, "future studies will use genetically modified mice to explore how genes associated with germ cell tumors in humans influence germ cell transformation."

More information: Nicholas J. Webster et al, Testicular germ cell tumors arise in the absence of sex-specific differentiation, Development (2021). DOI: 10.1242/dev.197111

Journal information: Development