New theory floated for formation of sex features
Tests done on patient with rare disease leads scientists to rethink how gender is formed
Scientists are proposing a new theory that suggests the formation of male or female features is based on chromosomes in reproductive cells, rather than body cells.
The prevailing theory of sex determination is that the chromosome composition of our body cells, being either XY or XX, determines whether we develop male or female traits.
However, that theory could not explain one patient’s case, leading researchers from the Reproductive and Genetic Hospital of Citic-Xiangya to rethink the hypothesis.
The 30-year-old patient had somatic chimerism, a rare condition where cells with both female XX and male XY sex chromosomes are present.
While the patient had female characteristics and organs, her tissues were a mixture of cells with XX and XY chromosomes.
This included the patient’s granulosa cells – cells in the ovaries that produce female hormones – with some ovarian follicles even comprising 100 per cent XY cells, according to a paper published in peer-reviewed journal Human Reproduction.
But when performing genetic testing on two dozen ova removed from the patient to undergo assisted reproduction, they found that the ova “only displayed X chromosome signals with no presence of Y”, the paper said.
This meant that all the ova were derived from the XX cell line, including those from follicles with entirely XY cells.
The researchers said this suggested “germ cells [which develop into reproductive cells] may exert a significant influence on the sexual determination of an individual” rather than being determined by the expression of the body cells it was surrounded by. Those with somatic chimerism can have a range of phenotypes, from male or female presentation to hermaphroditism, and can have chimerism across their body tissues.
In the womb, early gonadal cells can differentiate into either ovaries or testes based on different gene expression.
The present theory suggests that if both XX and XY cells are present in the gonads, the patient will develop a mix of ovaries or testes called ovotestes, according to the scientists. While this does not explain how patients with the condition can exhibit normal gonads, previous studies in mice have suggested that it could be caused by a higher proportion of one of the cell types in the gonads, the authors wrote.