Ů��С��Ƶ

The experimental drug was showing promise for degenerative brain conditions until, more than 10 years ago, a pivotal late-stage trial fell flat. Allon Therapeutics, the company behind davunetide, subsequently halted its development. But upon closer inspection, scientists found . Digging deeper, they have now revealed that fluctuating oestrogen levels may influence how much of the drug reaches the brain, raising the possibility that its effectiveness – and those of other treatments – varies depending on our levels of hormones like oestrogen, which fluctuate throughout the menstrual cycle.

“It’s very common that brain disease is regulated by steroid hormones [such as oestrogen, progesterone and testosterone] and that’s not taken into consideration very often, which is a massive, massive problem,” says at the University of Oslo, Norway, who wasn’t involved in the research.

, at Tel Aviv University in Israel derived davunetide from a naturally occurring brain protein called activity-dependent neuroprotective protein (ADNP), which we now know is regulated by sex hormones. , part of the brain’s transport system, in animal studies. This suggests that microtubules could then of abnormal tau proteins within cells, such as those that form tangles in Alzheimer’s. But in 2014, when an intranasal formulation was put to the test in a late-stage trial for progressive supranuclear palsy – a rare neurological condition driven by abnormal tau accumulation – .

This prompted Gozes, who was involved in the trial, to look back at studies that had , but the overall findings were mixed together. To see if this could apply to davunetide, Gozes and her colleagues first of male and female mice with an ADNP mutation, which caused Gozes to experience “what really was like a lightbulb coming into my brain”. They found that the sets of genes altered in each sex had “almost nothing in common”, she says.

They also reanalysed davunetide studies, separating the results according to sex, and found that in women with progressive supranuclear palsy, and protect against symptoms linked to brain damage, such as difficulty swallowing and speaking. “I saw that if you look at males and females separately, the results are not the same,” she says.

Free newsletter

Sign up to Eight Weeks to a Healthier You

Your science-backed guide to the easy habits that will help you sleep well, stress less, eat smarter and age better.

Sign up to newsletter

Now, the researchers have given fluorescently labelled davunetide to male and female mice and found that among the females, more of the drug reached their head when their oestrogen levels were highest. And when analysing eight adult volunteers, made up of six women and two men, they found that the women tended to have higher peak concentrations of the drug in their circulating plasma than the men.

This may be because oestrogen can , and , says Gozes, which could affect how drugs are absorbed.

Hormones like oestrogen are potent biological regulators that influence many aspects of brain function, making it plausible that they affect how drugs behave, says Pahnke. But it’s not just about their presence or absence, “it’s also how much of each hormone we have in the brain at specific locations”, says Pahnke, who is developing an imaging technique to map this. “Different locations may react differently to hormones.”

Pahnke previously found that the multiple sclerosis drug fingolimod has than male ones. But he cautions that Gozes’s latest research has been done on mice and a small group of people. “These [results] could be used for raising hypotheses about sex‑dependent intranasal davunetide bioavailability, but the conclusions should be treated with big caution.”

Finally wrangling with the complexity of female bodies benefits us all

Medical research has long sought to gloss over the hormonal and chromosomal complications typical of female biology. But embracing this complexity could benefit everyone

Still, both Pahnke and Gozes make the same broader point: that hormonal status is rarely measured in trials, even when the results are separated by sex, which may mean an important source of biological variation is being overlooked.

“What [the researchers] are saying is both that [neurodegenerative] diseases are different in each sex, and though the drug is the same drug, hormonal status is going to affect how this particular drug acts,” says Gozes.

to ExoNavis Therapeutics in Tel Aviv. “We are currently planning to continue sex-stratified clinical trials in the ADNP syndrome [a neurodevelopmental condition caused by a mutation to this gene], progressive supranuclear palsy and more,” says Gozes, who is VP of drug development at the company.