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Category: neuroscience

Neural crest cells: Miniature electric muscles that colonize embryonic organs

Neural crest cells are a population of stem cells that invade the embryo in early development. They play a big role in what you look like: the pigments of your eyes, of your skin, and the bone structure of your face are all neural crests. Inside your body, the neural crest will form the myelin sheath of your peripheral nervous system and the entire nervous system of your intestine, the so-called “second brain.”

Neurocristopathies are a range of pathologies resulting from defective neural crest migration. One of the most frequent ones is Hirschsprung disease; it affects 1 in 5,000 newborns. These babies lack a nervous system inside their colon because the neural crest cells didn’t make it all the way to the end of the digestive tract during embryogenesis. The condition is lethal if not surgically treated at birth and its causes remain unknown in more than half of cases.

Among the identified genes involved in Hirschsprung disease, one has stood out for more than half a century: the peptide endothelin 3. Mice and humans with genetic defects in either endothelin 3 or its receptor EDNRB develop the disease, in some cases accompanied with pigmentation or craniofacial defects.

Discovery of unique brain tumor subtypes offers hope for targeted glioma therapies

Researchers have uncovered the mechanisms behind three unique subtypes of mismatch repair deficient high-grade gliomas. The findings provide a clearer understanding of how these tumors develop, explain why patients respond differently to immunotherapy, and are already helping guide more precise therapies.

High-grade gliomas are a group of aggressive brain tumors and one of the deadliest tumors in children and young adults. In some children, the tumors are driven by mismatch repair deficiency (MMRD), which is characterized by hypermutation (a large and quickly accumulating number of mutations in tumor cells) and resistance to standard treatments such as chemotherapy and radiation.

Tumors driven by mismatch repair deficiency are known as primary mismatch repair deficient high‑grade gliomas (priMMRD‑HGG). Because priMMRD-HGG have high numbers of mutations, treatment has shifted to immunotherapy, which uses the body’s own immune system to fight cancer by targeting cancer cells.

This Brain Experiment Made People Choose Others Over Themselves

Scientists found that synchronizing activity between two brain regions made people more generous.

A new study suggests that synchronizing activity in specific parts of the brain can make people more likely to act generously. Research published today (February 10) in the open-access journal PLOS Biology reports that stimulating two brain regions in a coordinated way increased altruistic behavior. The study was led by Jie Hu of East China Normal University in China, working with colleagues from the University of Zurich in Switzerland.

Why some people are more altruistic than others.

Scientists Have Discovered a Protein That Reverses Brain Aging in The Lab

Our brains age along with the rest of our bodies, and as they do, they produce fewer new brain cells. Now, researchers have found a key mechanism through which the typical age-related decline in neuron production might be slowed.

In later life, the neural stem cells (NSCs) that turn into fully fledged neurons become more dormant – almost as if they’re going into retirement after a long lifetime of service. As that happens, cognitive decline creeps in.

A major reason why NSC activity fades with age is the wear and tear on telomeres, the protective caps on the ends of DNA. Telomeres fray a little more each time a cell divides, and over time, this impairs cells’ ability to grow and divide, leading to increasing cell death.

The ‘Miracle Mineral Solution’—amazing cure or toxic illusion?

Miracle Mineral Solution, also known as MMS, has been marketed for years as a purported miracle cure for various conditions, including cancer, autism, and COVID-19. MMS is the marketing name for sodium chlorite (NaClO₂), a powerful disinfectant used, among other things, for water treatment. When sodium chlorite is acidified, chlorine dioxide (ClO₂) is formed. Its consumption can be hazardous to health.

A team of scientists from Wroclaw Medical University decided to investigate this.

In a study published in Scientific Reports, they analyzed the effects of acidified sodium chlorite (ASC), from which ClO₂ is produced.

“The Bioelectric Interface to the Collective Intelligence of Morphogenesis” by Michael Levin

This is a ~57 minute talk titled “The Bioelectric Interface to the Collective Intelligence of Morphogenesis: development, regeneration, cancer, and beyond” which I gave at a UCSF seminar for an audience of graduate students and post-docs in Biophysics, Bioinformatics, and Chemical Biology. I covered the role of bioelectricity as cognitive glue underlying high-level adaptive plasticity in living tissue, recent progress in exploiting that interface, and new developments in research platforms for this field.

Michael Levin: Novel Embodiments of Mind: Natural, Bioengineered, and Hybrid Interfaces

This is an invited talk in BAMΞ’s Mathematical Phenomenology Sprint.
Cf. https://bamxi.org/research-activities/mathematical-phenomenology-sprint/

Organizing Institutions:
Bamberg Mathematical Consciousness Science Initiative (BAMΞ) https://bamxi.org.
& Association for Mathematical Consciousness Science (AMCS) https://amcs-community.org

Controlled ‘oxidative spark’ may serve as a surprising ally in brain repair

Oxidative stress is a direct consequence of an excess in the body of so-called free radicals—reactive, unstable molecules that contain oxygen. Free radicals are normal metabolic by-products and also help to relay signals in the body. In turn, oxidative stress (an overload of these molecules) can be caused by lifestyle, environmental, and biological factors such as smoking, high alcohol consumption, poor diet, stress, pollution, radiation, industrial chemicals, and chronic inflammation.

When this occurs, it creates an imbalance between the production of free radicals and the body’s antioxidant defenses, which are responsible for neutralizing them.

The brain on books: How reading reshapes language processing

Learning to read reshapes how the brain processes language. New research from Baycrest and the University of São Paulo shows that learning to read fundamentally changes how the brain responds to spoken language, even when no written words are present. While previous brain imaging studies have demonstrated that literacy strongly affects how the brain responds to written words, this study is among the first to show differences in brain activity during listening alone.

The findings confirm that as people learn to read, they develop a skill known as phonemic awareness, the ability to hear and manipulate the individual sounds that make up spoken words, a core foundation of reading. The study shows that learning to read improves how the brain processes spoken language by increasing sensitivity to these component sounds. This, in turn, strengthens short-term verbal memory, supporting the ability to learn complex skills and manage the cognitive demands of daily life.

The work is published in the journal Cortex.

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