This multicenter case series highlights 5 cases of enterovirus encephalitis among people with MS receiving ocrelizumab, presenting with fever, encephalopathy, and gait changes, as well as myocarditis in 1 case.

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ObjectivesAnti-CD20 therapies for multiple sclerosis (MS) are highly effective at preventing disease activity. Recognizing infectious complications of these therapies is essential. MethodsThree MS centers shared deidentified clinical data on persons with MS (pwMS) receiving ocrelizumab who developed enterovirus encephalitis.

Is the IDOL enzyme the key to stopping Alzheimer’s? New research shows that blocking this single target can dissolve brain plaques and boost cognitive resilience.

Scientists may have stumbled across a network of vessels in the brain that helps clear out waste fluid – a discovery that could “represent a paradigm shift in our understanding of all neurodegenerative diseases”

A pioneering clinical trial is exploring whether lab-engineered stem cells can restore dopamine production in people with Parkinson’s disease.

Robust drug-protein interaction prediction tool.

The researchers develop PointDPI to predict drug-protein interactions (DPIs) by integrating linear and 3D molecular structures.

PointDPI preserves intermolecular relationships and predicts key regulatory sites, outperforming several state-of-the-art methods.

Four predicted drug-protein interactions (DPIs) are experimentally validated at both mRNA and protein levels, highlighting the therapeutic potential of adenosine in inflammatory diseases, ondansetron and etodolac in neurological diseases, and neuroprotective action for dopamine. sciencenewshighlights ScienceMission https://sciencemission.com/rug-protein-interaction

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Sun et al. develop PointDPI to predict drug-protein interactions (DPIs) by integrating linear and 3D molecular structures. PointDPI preserves inter-molecular relationships and predicts key regulatory sites, outperforming several state-of-the-art methods.

VIB and Ghent University researchers have identified and characterized a previously unknown cellular barrier in the brain, which sheds new light on how the brain is protected from the rest of the body. In a study published in Nature Neuroscience, the scientists also reveal a new pathway by which the immune system can impact the brain.

Prof. Roosmarijn Vandenbroucke (VIB–UGent Center for Inflammation Research), said, “These findings reveal how vulnerable and protectable the brain is, opening new perspectives for more targeted interventions in brain disorders.”

The brain is protected from the rest of the body by multiple barriers that maintain a stable, tightly regulated environment and defend it against harmful substances and pathogens. The most well-known of these barriers is the blood-brain barrier, but another critical interface is the choroid plexus, a small structure found within the brain’s fluid-filled spaces, which produces cerebrospinal fluid.