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Long-term antidepressant effects of psilocybin linked to functional brain changes

In the group treated with psilocybin, adapting neurons sat at a resting voltage that was closer to the threshold for firing. This state is known as depolarization. It means the cells are primed to activate more easily. The bursting neurons in psilocybin-treated rats also showed increased excitability. They required less input to trigger a signal and fired at faster rates than neurons in untreated rats.

The rats treated with 25CN-NBOH also exhibited functional changes, though the specific electrical alterations differed slightly from the psilocybin group. For instance, the bursting neurons in this group were not as easily triggered as those in the psilocybin group. However, the overall pattern confirmed that the drug had induced a lasting shift in neuronal function.

These electrophysiological findings provide a potential explanation for the behavioral results. While the physical branches of the neurons may have pruned back to normal levels, the cells “remembered” the treatment through altered electrical tuning. This functional shift allows the neural circuits to operate differently long after the drug has left the body.

CRISPR screens in iPSC-derived neurons reveal principles of tau proteostasis

Now online! CRISPR screens in iPSC-derived neurons reveal that the E3 ubiquitin ligase CRL5SOCS4 ubiquitinates tau, that CUL5 expression is correlated with resilience in human Alzheimer’s disease, and that electron transport chain dysfunction alters tau degradation by the proteasome.

Fecal transplant capsules show promising results in clinical trials for multiple types of cancer

Fecal microbiota transplants (FMT) can dramatically improve cancer treatment, suggest two groundbreaking studies published in the Nature Medicine journal. The first study shows that the toxic side effects of drugs to treat kidney cancer could be eliminated with FMT. The second study suggests FMT is effective in improving the response to immunotherapy in patients with lung cancer and melanoma.

The findings represent a giant step forward in using FMT capsules—developed at Lawson Research Institute (Lawson) of St. Joseph’s Health Care London and used in clinical trials at London Health Sciences Centre Research Institute (LHSCRI) and Centre de recherche du Centre hospitalier de l’Université de Montréal (CRCHUM)—for safe and effective cancer treatment.

A Phase I clinical trial was conducted by scientists at LHSCRI and Lawson to determine if FMT is safe when combined with an immunotherapy drug to treat kidney cancer. The team found that customized FMT may help reduce toxic side effects from immunotherapy. The clinical trial involved 20 patients at the Verspeeten Family Cancer Centre at London Health Sciences Centre (LHSC).

Scientists discover hidden geometry that bends electrons like gravity

Researchers have discovered a hidden quantum geometry inside materials that subtly steers electrons, echoing how gravity warps light in space. Once thought to exist only on paper, this effect has now been observed experimentally in a popular quantum material. The finding reveals a new way to understand and control how materials conduct electricity and interact with light. It could help power future ultra-fast electronics and quantum technologies.

In its second-largest ever acquisition, US tech giant acquires Q.ai amid effort to break into wearables market; 30% of firm’s staff were called up to reserve duty on Oct. 7…

Q.ai is tight-lipped in public about its technology, but patents it filed show tech being used in headphones or glasses using ‘facial skin micro movements’ for nonverbal communication, according to the FT.

Apple’s vice president of hardware, Johnny Srouji, said in a statement that the startup is ‘pioneering new and creative ways to use imaging and machine learning.’

The move may be a component of Apple’s strategy for ‘wearable’ products, such as smart glasses. Software that reads facial expressions could potentially make way for a hands-free user interface that doesn’t require talking out loud, reports noted.

Spaceflight causes astronauts’ brains to shift, stretch and compress in microgravity

Spaceflight takes a physical toll on astronauts, causing muscles to atrophy, bones to thin and bodily fluids to shift. According to a new study published in the journal PNAS, we can now add another major change to that list. Being in microgravity causes the brain to change shape.

Here on Earth, gravity helps to keep the brain anchored in place while the cerebrospinal fluid that surrounds it acts as a cushion. Scientists already knew that, without gravity’s steady pull, the brain moves upward, but this new research showed that it is also stretched and compressed in several areas.

Brains on the move Researchers led by Rachel Seidler at the University of Florida reached this conclusion after studying MRI scans of 26 astronauts taken before and after their missions to the International Space Station. These were compared with scans from 24 volunteers who participated in a head-down tilt bed rest experiment. They spent 60 days lying at a six-degree downward angle to mimic how weightlessness causes bodily fluids and organs to move toward the head.

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