Reprogramming astrocytes to deliver brain-healing molecules could boost plasticity and aid disorders like Alzheimer’s and Fragile X.
New research has uncovered that disrupted brain circuits in individuals with Down syndrome may be linked to a deficiency of a crucial molecule known as pleiotrophin, which plays a vital role in the growth, development, and functioning of the nervous system. ()
Pleiotrophin’s Role in Down Syndrome and Adult Neural Repair Revealed
Scientists believe that restoring normal levels of pleiotrophin could help repair or enhance brain function in people with Down syndrome—and potentially offer benefits for treating other neurological and developmental disorders as well.
Remarkably, researchers suggest that boosting pleiotrophin activity could yield positive effects even in adults, opening new avenues for therapeutic interventions aimed at improving cognitive and neural health.
The scientists conducted their work in lab mice, rather than in people, so the approach is far from being available as a treatment. But the researchers found that administering pleiotrophin improved brain function in adult mice long after the brain was fully formed.
That suggests that the approach could offer major advantages over prior attempts to enhance Down brain circuits that would have required intervention at extremely precise, and brief, times during pregnancy.
“This study is really exciting because it serves as proof-of-concept that we can target astrocytes, a cell type in the brain specialized for secreting synapse-modulating molecules, to rewire the brain circuitry at adult ages,” said researcher Ashley N. Brandebura, PhD, who was part of the research team while at the Salk Institute for Biological Studies and is now part of the University of Virginia School of Medicine.
“This is still far off from use in humans, but it gives us hope that secreted molecules can be delivered with effective gene therapies or potentially protein infusions to improve quality of life in Down syndrome.”
Understanding Down Syndrome: Impact and Prevalence in the U.S.
Down syndrome affects approximately 1 in 640 babies born each year in the United States, according to the federal Centers for Disease Control and Prevention.
Caused by a mistake in cell division during development, the condition can lead to developmental delays, hyperactivity, shortened lifespan and increased risk for medical problems such as heart defects, thyroid issues and problems with hearing and vision.
Salk researchers led by Nicola J. Allen, PhD, wanted to better understand the causes of Down syndrome, so they looked for cellular proteins altered in the brains of lab mice used to model the condition.
The scientists identified pleiotrophin as a promising candidate because it is present at very high levels at critical moments in brain development and because it plays essential roles in the formation of brain connections called synapses and in the development of nerve transmitters and receivers called axons and dendrites. Further, the presence of the protein is reduced in Down syndrome.
To determine if restoring pleiotrophin would improve brain function, the researchers delivered it where it was needed using modified viruses called viral vectors. While we normally think of viruses as causing illnesses such as the flu, scientists can engineer them not to cause disease but to treat it.
This is done by stripping out the disease-causing parts of the virus and replacing them with beneficial cargo – in this case, pleiotrophin – that the hollowed-out virus then delivers directly into cells.
The researchers found that administering pleiotrophin to important brain cells called astrocytes had big benefits, including increasing the number of synapses in the hippocampus region of the brain. Further, it increased brain “plasticity” – the ability to form or modify connections essential for learning and memory.
“These results suggest we can use astrocytes as vectors to deliver plasticity-inducing molecules to the brain,” Allen said. “This could one day allow us to rewire faulty connections and improve brain performance.”
Pleiotrophin: A Promising Piece, But Not the Whole Puzzle in Down Syndrome
While the findings are promising, the scientists don’t believe that pleiotrophin is the only cause of brain circuit problems in Down syndrome. Further research is needed to understand the complex contributors to the condition, they caution. But their work, they say, provides proof of the viability of an approach that could be beneficial not just for Down syndrome but other neurological diseases as well.
“This idea that astrocytes can deliver molecules to induce brain plasticity has implications for many neurological disorders, including other neurodevelopmental disorders like fragile X syndrome but also maybe even to neurodegenerative disorders like Alzheimer’s disease,” Brandebura said.
“If we can figure out how to ‘reprogram’ disordered astrocytes to deliver synaptogenic molecules, we can have some greatly beneficial impact on many different disease states.”
References:
- Missing Molecule May Explain Down Syndrome – (https://newsroom.uvahealth.com/2025/10/16/missing-molecule-may-explain-down-syndrome/)
Source-Eurekalert