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Category: neuroscience

Common anti-seizure drug prevents Alzheimer’s plaques from forming

At the heart of the new discovery is amyloid precursor protein (APP), a protein that plays important roles in brain development and synaptic formation. Abnormal processing of APP can lead to the production of amyloid‑beta peptides, which play a central role in the development of Alzheimer’s disease. The scientists found that how APP is trafficked also controls whether a neuron forms amyloid-beta 42.

During the synaptic vesicle cycle — a fundamental process that underlies every thought, movement, memory or sensation — levetiracetam binds to a protein called SV2A. This interaction slows down a step in which neurons recycle synaptic vesicle components from the cell’s surface. By pausing this recycling process, the drug enables APP to remain on the cell’s surface longer, diverting it away from the pathway that produces toxic amyloid‑beta 42 proteins.

“In our 30s, 40s and 50s, our brains are generally able to steer proteins away from harmful pathways,” the author said. “As we age, that protective ability gradually weakens. This is not a statement of disease; this is just a part of aging. But in brains developing Alzheimer’s, too many neurons go astray, and that’s when you get amyloid-beta 42 production. And then it’s tau (or ‘tangles’), and then it’s dead cells, then dementia, then neuroinflammation — and then it’s too late.”

To effectively prevent Alzheimer’s symptoms, high-risk individuals would need to begin taking levetiracetam “very, very early,” the author said, possibly up to 20 years before the new FDA-approved Alzheimer’s disease test would even capture mildly elevated levels of amyloid-beta 42.

“You couldn’t take this when you already have dementia because the brain has already undergone a number of irreversible changes and a lot of cell death,” the author said.

Leveraging its status as an FDA-approved and widely used drug, the team mined existing human clinical data to investigate whether Alzheimer’s patients who took levetiracetam experienced slowed cognitive decline. They obtained clinical data from the National Alzheimer’s Coordinating Center and conducted a correlative analysis, finding that Alzheimer’s patients who took levetiracetam were associated with a significant delay from the diagnosis of cognitive decline to death compared to those taking lorazepam or no/other anti-epileptic drugs. ScienceMission sciencenewshighlights.

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Cryosphere Chat — Tomorrow Bio’s Big Announcement, Biostasis Summit Updates

In this epsiode of the Cryosphere Chat we discuss:
● The themes of this year’s Biostasis Summit.
● Our thoughts on Tomorrw Bio’s big announcement about longevity experts.
● Greg Fahy’s paper on ultrastructure preservation in vitrified brains.

Links:
Buy tickets for the Biostasis days at Vitalist Bay: https://vitalistbay.com/ (use code CRYOSPHERE20 for 20% off)
Biostasis Summit needs based discount application: https://forms.gle/4pR3r4uvXprc4mH99
Biostasis Summit pitch application: https://forms.gle/FQsqx9thLvryKteq8
Join the Biostasis Summit mailing list: https://www.globalcryonicssummit.com/
Survey of cryonicists: https://cryospherepress.substack.com/p/the-cryonics-survey-of-2022-part.
Cryonics Subreddit: https://www.reddit.com/r/cryonics/
Cryosphere Discord: https://discord.gg/ndshSfQwqz.
Cryosphere Substack: https://cryospherepress.substack.com/

Sleep loss induces cholesterol-associated myelin dysfunction

The increasing prevalence of sleep deprivation poses a public health challenge in modern society. Manifestations of reduced alertness, such as slowed reaction times and increased errors, are well-documented behavioral indicators of sleep loss (SL). Yet, the biological consequences of sleep deprivation and their role in behavioral impairment remain elusive. Our study reveals significant effects of sleep deprivation on myelin integrity. As a result, we identify increased conduction delays in nerve signal propagation, hindered interhemispheric synchronization, and impaired cognitive and motor performance associated with SL. By profiling oligodendrocyte transcriptome and lipidome, we observe SL-induced endoplasmic reticulum stress and lipid metabolism dysregulation, particularly affecting cholesterol homeostasis.

New lab technique can reverse chemical process linked with Alzheimer’s disease

An Oregon State University scientist and a team of undergraduate students have uncovered real-time insights into a chemical process linked with Alzheimer’s disease, paving the way toward better drug designs. The researchers used a molecule measuring technique to observe in a laboratory setting how certain metals can promote the protein clumping that leads to the blocked neural pathways associated with Alzheimer’s. Led by Marilyn Rampersad Mackiewicz, associate professor of chemistry in the OSU College of Science, the research team also watched molecules known as chelators disrupt or reverse the clumping. The findings are published in ACS Omega.

Alzheimer’s disease is the most common form of dementia, a chronic condition of impaired cognitive function that affects large numbers of older adults and their loved ones. According to the Centers for Disease Control and Prevention, Alzheimer’s is the sixth-leading cause of death for people age 65 and older.

In Alzheimer’s patients, aggregations of amyloid-beta proteins interrupt brain cells’ ability to communicate with each other. The brain needs certain metals to work properly, but problems arise when the metals are present in unbalanced quantities.

Virus-based therapy boosts anti-cancer immune responses to brain cancer

A team led by investigators has shown that a single injection of an oncolytic virus—a genetically modified virus that selectively infects and destroys cancer cells—can recruit immune cells to penetrate and persist deep within brain tumors. The research, which is published in Cell, provides details on how this therapy prolonged survival in patients with glioblastoma, the most common and malignant primary brain tumor, in a recent clinical trial.

The oncolytic virus used in the team’s trial is made from a herpes simplex virus genetically altered so it can only make copies of itself in glioblastoma cells and not normal healthy cells. The virus spreads to a glioblastoma cell, kills it, and then makes a copy of itself that spreads again to another glioblastoma cell. Infection of cells with the virus also triggers an immune response. In the phase 1 trial of 41 patients with recurrent glioblastoma, the oncolytic virus treatment extended survival compared to historically reported survival, especially among those with pre-existing viral antibodies.

In their Cell study, the investigators examined the extent of this immune response in clinical trial participants. Their analysis revealed that the treatment induced long-term infiltration of immune T cells into patients’ tumors. Closer proximity of cytotoxic T cells with dying brain tumor cells was associated with longer patient survival after treatment. The therapy also expanded pre-existing T cells in the brain. ScienceMission sciencenewshighlights.

At our upcoming conference

we are thrilled to host Joscha Bach at Future Day 2026 – he is a leading voice in cognitive architectures and the founding director of the California Institute for Machine Consciousness. Bach’s talks are famous for being mind-bending journeys that challenge fundamental assumptions about reality and agency. In his upcoming session, he will dive into the Machine Consciousness Hypothesis, offering a glimpse into how we might one day create truly sentient digital minds.

Joscha Bach – The Machine Consciousness Hypothesis.

What if our consciousness is not a ‘thing’ we have, but a simulation our brain runs to make sense of itself?

The Secret to Fighting Alzheimer’s May Be Hiding in Your Muscles

The study’s findings suggest that the key to combating Alzheimer’s disease may lie not only in the brain but also in our muscles. Alzheimer’s disease (AD) is a progressive condition marked by memory loss and declining cognitive function, and there is still no cure. Among the many factors that inf

Inside voice: what can our thoughts reveal about the nature of consciousness?

What was I thinking? This is not as easy or straightforward a question as I would have thought. As soon as you try to record and categorise the contents of your consciousness – the sense impressions, feelings, words, images, daydreams, mind-wanderings, ruminations, deliberations, observations, opinions, intuitions and occasional insights – you encounter far more questions than answers, and more than a few surprises. I’d always assumed that my stream of consciousness consisted mainly of an interior monologue, maybe sometimes a dialogue, but was surely composed of words; I’m a writer, after all. But it turns out that a lot of my so-called thoughts – a flattering term for these gossamer traces of mental activity – are preverbal, often showing up as images, sensations, or concepts, with words trailing behind as a kind of afterthought, belated attempts to translate these elusive wisps of meaning into something more substantial and shareable.

I discovered this because I’ve been going around with a beeper wired to an earpiece that sends a sudden sharp note into my left ear at random times of the day. This is my cue to recall and jot down whatever was going on in my head immediately before I registered the beep. The idea is to capture a snapshot of the contents of consciousness at a specific moment in time by dipping a ladle into the onrushing stream.

Sounds simple, but what the ladle scoops up is harder to describe than you might expect. Yes, these are my own thoughts, and who should know more about them than me, their thinker? Yet I’m finding that what we know about our own thinking is considerably less than we think.

The beeper exercise is part of a psychology experiment I volunteered to take part in. Descriptive experience sampling is a research method developed by Russell T Hurlburt, a social psychologist at the University of Nevada, Las Vegas; he has been using it for 50 years – which is to say, his entire career. To give you some perspective, beepers didn’t exist 50 years ago. Hurlburt, trained as an engineer, had to design and build his own unit, on which he holds a patent. It looks like an old-timey pocket radio: grey plastic, with one of those corrugated dials you rotate with your thumb to turn the thing on and boost the volume; the earpiece is flesh-toned, as that term was understood in 1973. For half a century now, Hurlburt has been scrupulously collecting reports of people’s inner experiences at random moments – and just as scrupulously resisting the urge to draw premature conclusions. A die-hard empiricist, he is as devoted to data as he is allergic to theories.

Scientists and philosophers studying the mind have discovered how little we know about our inner experiences.

By

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Rejuvenating neurons restores learning and memory in mice

A research team asked whether rejuvenating these engram neurons could recover memory after decline has already begun? In a study published in Neuron, the team reports that “partial reprogramming” of engram neurons restores memory performance in multiple mouse settings. The approach uses a short, controlled pulse of three genes, Oct4, Sox2 and Klf4 referred together as “OSK”

Previous studies have shown that carefully timed expression of these factors can reset several aging-related features in cells. Here, the team targeted OSK specifically at the engram neurons that are active during learning, rather than broadly across the entire brain.

Working on mice, the researchers used gene therapy vectors (adeno-associated viruses) delivered by precise brain injections. They combined two elements: a system that adds a fluorescent tag to neurons that are activated by learning, and a switch that briefly turns OSK on during a defined time window.

The team used their approach in brain areas known to support different kinds of memory: the dentate gyrus of the hippocampus, which is important for learning and recent recall, and the medial prefrontal cortex, which contributes to remote recall two weeks later.

In aged mice, briefly activating OSK in learning-related hippocampal engram neurons restored memory, essentially bringing performance back to levels seen in young controls. When the same approach was applied to prefrontal cortex engrams, it also recovered remote memories formed weeks earlier.

The reprogrammed engram neurons also showed signs of improved health. They maintained their neuronal identity and displayed molecular features associated with a younger state, including changes in nuclear structure linked to aging.

The team then tested mouse models of Alzheimer’s disease. In a spatial-learning task, the mice showed inefficient navigation and impaired memory strategies. Reprogramming dentate gyrus engrams improved learning strategies during training, while targeting prefrontal engrams restored long-term spatial memory.

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Abstract: Opening the gates to the blood brain barrier (BBB) in a high-grade glioma model

Amy B. Heimberger find therapeutic benefit in adding the STING agonist 8,803 to radiation in preclinical models of glioma. The combination reprogramed the glioma tumor microenvironment, and 8,803 induced the opening of the blood-brain barrier.

3Department of Radiology.

4Department of Neurology, and.

5Department of Radiation Oncology, Feinberg School of Medicine, Northwestern University, Chicago, Illinois, USA.

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