科学家通过鼻腔喷雾逆转大脑衰老
Scientists reverse brain aging, with a nasal spray

原始链接: https://stories.tamu.edu/news/2026/04/14/scientists-reverse-brain-aging-with-a-nasal-spray/

德克萨斯农工大学的研究人员开发出一种突破性的鼻喷雾剂,显示出逆转与年龄相关的认知衰退的潜力。这项由阿肖克·谢蒂(Ashok Shetty)博士领导的研究表明,“神经炎症”(与衰老相关的慢性脑部炎症)并非不可避免,而是可以治疗的。 该疗法利用称为细胞外囊泡(EVs)的微观输送载体,其中装载了微小RNA。通过鼻腔给药时,这些囊泡能绕过大脑的保护屏障,直接抵达受损组织。一旦被吸收,它们便能抑制炎症通路并为神经元线粒体“充电”,从而有效恢复细胞能量并清除“脑雾”。 在实验室模型中,仅需两剂喷雾,几周内受试对象的记忆力和认知功能就得到了显著改善,效果持续数月之久。值得注意的是,该疗法对男女两性同样有效。通过提供一种无需复杂手术或长期药物治疗的非侵入性替代方案,这种方法有望彻底改变阿尔茨海默病和痴呆症等神经退行性疾病的治疗方式。研究团队已为该疗法申请了美国专利,这标志着向临床应用迈出了重要一步,旨在让衰老的大脑保持敏锐、活跃与健康。

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原文

New therapy is turning back the clock in aging brains, healing inflammation, restoring memory and reshaping the future of brain age-related therapies

Credit: Getty Images

Picture this: your brain is a high-performance engine. Over decades, it doesn’t just wear down, it also starts to run hot.

Tiny “fires” of inflammation smolder deep within the brain’s memory center, creating a persistent brain fog that makes it harder to think, form new memories or even adapt to new environments, all the while increasing the risk to disorders like Alzheimer’s disease.

Scientists call this slow burn “neuroinflammaging,” and for decades it was thought to be the inevitable price of growing older.

Until now.

A landmark study from researchers at the Texas A&M University Naresh K. Vashisht College of Medicine suggests the inflammatory tide responsible for brain aging and brain fog might actually be reversible. And the solution doesn’t involve brain surgery, but a simple nasal spray.

Led by Dr. Ashok Shetty, university distinguished professor and associate director of the Institute for Regenerative Medicine, along with senior research scientists Dr. Madhu Leelavathi Narayana and Dr. Maheedhar Kodali, the team developed a nasal spray that, with just two doses, dramatically reduced brain inflammation, restored the brain’s cellular power plants and significantly improved memory.

The most surprising part? It all happened within weeks and lasted for months.

The findings, published in the Journal of Extracellular Vesicles, could reshape the future of neurodegenerative therapies and may even change how scientists think about brain aging itself.

Brain fog to brain focus, the future of cognitive therapy

The implications of this research could be nothing short of revolutionary.

“As we develop and scale this therapy, a simple, two-dose nasal spray could one day replace invasive, risky procedures or maybe even months of medication,” Shetty said.

The societal impact could be just as profound. In the United States alone, new dementia cases are projected to double over the next four decades, from about 514,000 in 2020 to about 1 million in 2060.

“The trend signals a pressing need for policies and innovative interventions that can minimize both the risk and severity of neurodegenerative disorders like dementia,” Shetty said.

The study also hints at broad applicability, working equally effectively across both genders — a rare outcome in biomedical research.

“It’s universal,” Shetty said. “Treatment outcomes were consistent and similar across both sexes.”

One day, the approach could even help stroke survivors rebuild lost brain function, or slow — even reverse — the effects of cognitive aging in humans.

“Our approach redefines what it means to grow old,” Shetty said. “We’re aiming for successful brain aging: keeping people engaged, alert and connected. Not just living longer, but living smarter and healthier,” Shetty said.

Rewiring the brain from the inside out

At the heart of this groundbreaking development are millions of microscopic biological parcels known as extracellular vesicles (EVs). They act like delivery vehicles, carrying powerful genetic cargo called microRNAs.

“MicroRNAs act like master regulators,” Narayana said. “They help modulate and regulate many gene and signaling pathways in the brain.”

But the delivery route is just as important as the cargo.

Packed into a nasal spray, the tiny EVs bypass the brain’s protective shield and travel directly into brain tissue, where they are absorbed.

Scenes from the Shetty lab, with two students mixing two solutions into a centrifuge.

In Shetty’s lab, researchers develop an innovative nasal spray targeting brain aging.

Credit: Texas A&M University Division of Marketing and Communications

“The mode of delivery is one of the most exciting aspects of our approach,” Kodali said. “Intranasal delivery allows us to reach, and treat, the brain directly without invasive procedures.”

Once absorbed into the brain’s resident immune cells, the microRNAs suppress systems, like NLRP3 inflammasome and the cGAS–STING signaling pathways, known to drive chronic inflammation in aging brains.

At a cellular level, the treatment recharged neuronal mitochondria, or the power plants that live inside the brain’s cells.

By recharging these cellular power plants, the therapy didn’t just clear brain fog, it physically improved the brain’s ability to process and store information.

“We are giving neurons their spark back by reducing oxidative stress and reactivating the brain’s mitochondria,” Narayana said.

Behavioral tests confirmed the biology. Models treated with the nasal spray showed remarkable improvements in not only recognizing familiar objects but also detecting new objects and changes in their environment, a sharp contrast to the control.

“We are seeing the brain’s own repair systems switch on, healing inflammation and restoring itself,” Shetty said.

While further research is needed, Shetty and his team have already filed a U.S. patent for the therapy, marking a milestone in what could become a breakthrough for brain aging treatments.

Behind the breakthrough

Breakthroughs like the one led by Shetty highlight Texas A&M as a research powerhouse, where national and global research priorities help shape the next generation of innovative solutions.

“We aren’t just trying to understand the biological mechanisms, we are translating and developing our findings into real-world therapies that could make a difference,” Shetty said.

Scenes from the Shetty lab, with all researchers standing and facing the camera for an image.

With support from the NIA, discoveries like Shetty’s highlight Texas A&M’s role as a leader in research, where global and national priorities inspire the next wave of innovation.

Credit: Texas A&M University Naresh K. Vashisht College of Medicine

Backed by the National Institute on Aging (NIA), the Texas A&M team pooled collaborative knowledge, expertise and resources to turn a simple nasal spray into a therapy with the potential to reframe how scientists think about brain aging.

“Our partnership with the NIA is very important,” Shetty said. “This kind of work requires resources and the right people to tackle problems and develop solutions that could change lives.”

Ultimately, while the brain’s engine may sputter with age, scientists are now learning how to reignite it, sparking a new era of cognitive health and showing that the clock on brain aging might not just be paused, it can be turned back.

More information: Intranasal Human NSC‑Derived EVs Therapy Can Restrain Inflammatory Microglial Transcriptome, and NLRP3 and cGAS‑STING Signalling, in Aged Hippocampus, Journal of Extracellular Vesicles 15(2): e70232 (2026).

DOI: 10.1002/jev2.70232

Journal information: Journal of Extracellular Vesicles

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