Scientists link hormone production in baby wallabies how some girls are born with ‘male’ genitalia

Research led by the Universities of Birmingham and Manchester has made a connection between the way baby wallabies produce male hormones and how some human girls are born with genitalia that resemble those of a boy.

The research, published in PNAS and supported by the Wellcome Trust and the Medical Research Council, shows that an alternative pathway to the production of active male hormones – previously identified in the tammar wallaby pouch young – is present and active during human fetal development.

Analysing urine from newborn human babies, the team showed this alternative pathway is particularly active when newborn girls are born with a disorder – congenital adrenal hyperplasia (CAH) – in which their genitalia resemble that of a boy.

CAH is an inherited condition caused by mutations in genes that code enzymes involved in making steroid hormones in the adrenal glands. The adrenal glands are cone-shaped organs that sit on top of each kidney. They make a number of hormones necessary for healthy body function. In people with CAH, the adrenal glands cannot make enough of a hormone called cortisol. As they start working harder in attempts to make more cortisol they increase in size.

Babies with CAH are born with a number of physical changes. Their adrenal glands are often larger than normal, even at birth. Girls with CAH may be born with external sex organs that appear more masculine than they should. If not treated, both boys and girls will develop early sexual characteristics, well before normal puberty should begin.

Professor Wiebke Arlt, Director of University of Birmingham’s Institute of Metabolism and Systems Research, explained: “The production of male hormones usually requires the production of testosterone in the gonads before the most powerful male hormone, DHT, is formed from testosterone in genital skin, which makes the phallus of male babies grow.

“CAH is an inherited disorder in which the overproduction of male hormones results in a newborn baby girl with CAH having a clitoris resembling a penis, and often at first look their genitalia appear to look male.

“We hypothesised that this is due to an alternative androgen pathway to DHT not depending on the formation of testosterone. This pathway has previously been shown to exist in the tammar wallaby pouch young, but never in humans.”

Neil Hanley, Professor of Medicine at the University of Manchester and Director of Research and Innovation at Manchester University NHS Foundation Trust, added: “Using organ cells from the early phases of human fetal development, we could show that this proposed alternative pathway is present and active early during development, with contributions from the adrenal glands, the gonads and genital skin.”

The team collected urine from newborn babes with CAH and healthy babies and could show that the babies with CAH still excreted large amounts of alternative pathway steroids for the first few weeks after birth.

Dr Nicole Reisch, a former Marie Curie Research Fellow at the University of Birmingham, said: “In test tube experiments, we provided additional quantitative evidence that the alternative pathway is more important than the classic androgen pathway for the development of male characteristics in girls with CAH.

“Taken together, our results show that the alternative androgen pathway is present and active during human fetal development and that it has a key role in the development of male physical characteristics of the external genitalia of girls with CAH.”

Dr Angela Taylor, a senior postdoctoral fellow of the University of Birmingham, added: “This is the first time that direct evidence has been provided for the existence of the alternative androgen pathway in the human fetus during the major time period when the internal and external genitalia are formed.”

This first of its kind research, which took over a decade to complete, focussed on one certain type of CAH (CAH variant P450 oxidoreductase deficiency). However the researchers say that it is very likely that the findings also apply to a much more common CAH variant (21-hydroxylase deficiency), which affects one in 12,000 babies born in the UK.

Professor Arlt added: “Our findings show that the alternative androgen pathway is a dominant contributor if not the driver of male hormone excess that results in the development of male physical characteristics of external genitalia in newborn girls with CAH.”

Professor Arlt, who is supported by the National Institute for Health Research (NIHR) Birmingham Biomedical Research Centre, concludes: “The findings provide a fundamental insight into how nature works and how sexual development occurs during the fetal period and which hormones and pathways are involved in androgen production both in normal pregnancies and in pregnancies with CAH children.

“This might, with further research, result in finding better solutions to prevent the development of male physical characteristics of external genitalia in newborn girls with CAH.”

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Notes to Editors:

* The University of Birmingham is ranked amongst the world’s top 100 institutions. Its work brings people from across the world to Birmingham, including researchers, teachers and more than 6,500 international students from over 150 countries.

* Reisch et al (2019). ‘Alternative pathway androgen biosynthesis and human fetal female virilization’. PNAS. DOI: 10.1073/pnas.1906623116

* Read the paper here: https://www.pnas.org/content/early/2019/10/11/1906623116.short?rss=1

* This work was supported by the Wellcome Trust, the Medical Research Council UK, the European Commission (Marie Curie Intra-European Fellowship PIEF-GA-2008-221058), the Deutsche Forschungemeinschaft, The Adrenal: Central Relay in Health and Disease, and the Society for Endocrinology UK.

* The National Institute for Health Research (NIHR) is the nation’s largest funder of health and care research. The NIHR:

* Funds, supports and delivers high quality research that benefits the NHS, public health and social care

* Engages and involves patients, carers and the public in order to improve the reach, quality and impact of research

* Attracts, trains and supports the best researchers to tackle the complex health and care challenges of the future

* Invests in world-class infrastructure and a skilled delivery workforce to translate discoveries into improved treatments and services

* Partners with other public funders, charities and industry to maximise the value of research to patients and the economy

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