Oestrogen fluctuations may affect brain drug delivery in women

English

New research indicates that oestrogen levels, which vary across the menstrual cycle, can influence how efficiently some drugs reach the brain in women.

Illana Gozes at Tel Aviv University led a reanalysis of Davunetide, an experimental drug derived from Activity-Dependent Neuroprotective Protein. The compound failed to show overall benefit in a 2014 trial for progressive supranuclear palsy, prompting the original developer to halt work.

When results were separated by sex, women appeared to experience slower disease progression and fewer symptoms such as difficulty swallowing. Mouse experiments and measurements in eight adult volunteers further showed higher drug concentrations in the head and plasma when oestrogen levels were elevated.

Gozes, now vice president of drug development at ExoNavis Therapeutics in Tel Aviv, said the company plans sex-stratified trials for ADNP syndrome and progressive supranuclear palsy. Jens Pahnke of the University of Oslo noted that hormonal status is seldom tracked in trials, calling it a significant oversight.

The findings were published in Genomic Psychiatry.

Related Articles

Fluorescence micrograph illustrating uneven PARP inhibitor accumulation in lysosomes of ovarian tumor cells, creating patchy drug exposure.
Image generated by AI

Study links uneven PARP inhibitor exposure in ovarian tumors to lysosomal drug “reservoirs”

Reported by AI Image generated by AI Fact checked

Researchers say they have identified a cellular mechanism that may help explain why PARP inhibitors can affect tumor cells unevenly: in lab-grown slices of human ovarian tumors, some of these drugs accumulated inside lysosomes, forming slow-release stores that created patchy drug distribution across tissue and even between neighboring cells. The findings were reported in a 2026 paper in Nature Communications.

Brain protein decline linked to aging in mice study

A 2023 study found that falling levels of the protein Menin in the hypothalamus drive multiple signs of aging in mice. Restoring the protein or supplementing with the amino acid D-serine improved memory and other measures.

Nanoparticles reduced amyloid-β and improved cognition in an Alzheimer’s mouse model, researchers report

Reported by AI Fact checked

Researchers from the Institute for Bioengineering of Catalonia and collaborating institutions report that engineered “supramolecular” nanoparticles restored aspects of blood-brain barrier function in Alzheimer’s-model mice, rapidly lowering brain amyloid-β and producing improvements on behavioral and memory tests.

Health

New study links fish oil EPA to impaired brain repair after injuries

Asia

Hong Kong researchers develop world-first nasal spray for stroke aid

Health

Study links GLP-1 drugs to lower breast cancer risk

Compound X clears Parkinson's proteins in mice brains

Researchers in Australia have found that a mysterious FDA-approved drug, called compound X, removes toxic alpha-synuclein proteins from the brains of mice with Parkinson's-like symptoms. The treatment improved the animals' balance and mobility by enhancing the brain's glymphatic waste disposal system. The findings were presented at a symposium in the UK.

May 27, 2026 21:23

Anti-aging drug combo damages myelin in mouse brains

May 26, 2026 14:54

USC researchers identify compounds targeting Alzheimer’s brain inflammation

May 20, 2026 20:53

Study finds alzheimer's risk factors hit women harder

May 04, 2026 12:12

Cochrane review questions benefits of anti-amyloid Alzheimer’s drugs

April 10, 2026 19:59

Scientists call for multi-pronged strategies against Alzheimer's

This website uses cookies

We use cookies for analytics to improve our site. Read our privacy policy for more information.
Decline