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Category: biotech/medical

Pharmacological strategies targeting hepatocyte-mediated crosstalk in liver fibrosis

Liver fibrosis is a common pathological outcome of chronic liver injury. Many therapeutic agents show limited clinical efficacy or significant adverse effects due to the complex pathogenesis of liver fibrosis. This challenge underscores the urgent need to identify potential therapeutic targets and improve existing therapies. Hepatocytes serve as pivotal initiators of liver fibrosis that actively engage in signaling crosstalk with other hepatic cell types to promote fibrogenesis. Advances in understanding hepatocyte-centered signaling crosstalk have enabled the identification of potential therapeutic targets. Furthermore, combination therapies that regulate multiple pathways and drug modifications that improve pharmacological properties may help to minimize adverse effects and enhance the efficacy of existing treatments.

Regulation of neuronal invasion of small cell lung cancer by STMN2/β-alanine-controlled metabolic reprogramming

Zhou et al. demonstrate that perineural invasion (PNI) is an adverse prognostic factor in small cell lung cancer. They identify a neuron-STMN2-β-alanine axis, where the neural microenvironment upregulates STMN2 in tumor cells, reprogramming β-alanine metabolism to enhance cell migration and drive neural invasion, revealing a potential therapeutic target.

Neurotransmitter-activated GPCR signaling in myelin plasticity

Myelination is increasingly recognized as a dynamic and adaptive process regulated by oligodendrocytes throughout life. Beyond providing electrical insulation, myelin supports axonal metabolism and may serve as an energy reservoir under metabolic stress, highlighting the importance of physiological myelin turnover. Dysregulation of myelin dynamics contributes to a wide spectrum of neurological disorders, including demyelinating, neurodegenerative, and neuropsychiatric diseases. Growing evidence indicates that neurotransmitter signaling through G protein-coupled receptors (GPCRs) expressed by oligodendrocyte lineage cells regulates myelin formation, remodeling, and repair.

Gut microbiota-derived deoxycholic acid shapes an immunosuppressive tumor microenvironment and promotes breast cancer progression

Li et al. identify deoxycholic acid as a microbiota-derived driver of breast cancer progression. Deoxycholic acid activates farnesoid X receptor signaling to induce interleukin-6 production, promoting immunosuppressive cell recruitment and establishing a metabolite-driven immune regulatory axis with therapeutic potential.

Giving X-ray vision a sense of direction

Whether in tooth enamel or in nanomaterials made of silicon, the orientation of tiny internal structures often determines the properties of a material. A new X-ray method can even make this nano-order visible when the structures are actually too small to be imaged directly. The method was developed by an international team led by the Helmholtz Center Hereon, and it opens up new possibilities to investigate materials and biological structures. The research is published in the journal Light: Science & Applications.

In medical X-ray imaging, the picture is created by the varying attenuation of X-rays in the body. In order to examine materials or biological tissue in detail, experts use advanced techniques that provide additional information, such as dark-field imaging. This technique exploits the fact that X-rays are scattered, i.e., deflected, at internal interfaces and irregularities. “The scattering reveals a lot about internal structures that are not directly visible in the actual image,” explains Hereon researcher Sami Wirtensohn, first author of the study.

To make these fine structures visible, the dark field method blocks the direct X-ray beam. This allows the detector to capture only the radiation scattered inside the sample. Until now, this method has only been able to show that such structures exist, but not how they are spatially aligned.

Emerging Osteoarthritis Treatment Involves Electrically Stimulating Muscles

An estimated 595 million people globally are living with osteoarthritis. This makes it one of the leading causes of pain and disability.

Osteoarthritis is a degenerative joint disease, in which tissues in the joint break down over time. The condition can affect any joint, but most commonly the knees, hips, hands and spine.

However, the impact of osteoarthritis often goes beyond the affected joint. The condition can have profound effects on daily life.

Kupffer cells in liver homeostasis and disease: from immune sentinels to metabolic gatekeepers

This Review provides an integrated overview of Kupffer cell biology, from their embryonic origin and spatial organization to their functional specialization within the liver. It emphasizes how Kupffer cells act as immune sentinels while also shaping metabolic regulation, tissue repair, infection and cancer and discusses how emerging technologies are refining our understanding of their context-dependent roles across physiological and pathological settings.

Engineered exosomes reverse sleep deprivation brain damage in mice

Sleep is a vital physiological process that allows humans and other animals to restore both the mind and body, while also consolidating memories, clearing out toxins and regulating their metabolism. Several past studies showed that getting insufficient sleep for prolonged periods of time can trigger inflammatory responses and can negatively impact people’s memory, mood, attention and decision-making.

Researchers at Quanzhou First Hospital, affiliated with Fujian Medical University, recently carried out a mouse study aimed at assessing the potential of a new treatment based on exosomes, tiny membrane-covered vesicles that transport biological material between cells, for reversing some of the adverse effects of chronic sleep deprivation. Their findings, published in Translational Psychiatry, suggest that the delivery of the heat shock protein 70 (HSP70) via exosomes could prevent cells in the mouse brain from becoming damaged following prolonged periods of stress and lack of sleep.

“Chronic sleep deprivation impairs cognition and triggers neuroinflammation, but effective molecular therapies are lacking,” wrote Zhenming Kang, Guoshao Zhu and their colleagues in their paper. “Heat shock protein 70 (HSP70) offers neuroprotection, though its delivery across the blood–brain barrier remains a challenge. This study investigates exosomes as a vehicle to enhance brain delivery of HSP70 for treating chronic sleep deprivation.”

Glymphatic influx is negatively correlated with cerebral blood volume in male mice

Li et al. use multimodal MRI to show that cerebral blood volume is inversely correlated with glymphatic influx across six brain states. Lower CBV is associated with expanded extra-ventricular CSF space, and caffeine produces a similar pattern in awake mice, suggesting CBV as a tonic vascular factor complementing pulsation and vasomotion.

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