CAR T-cell therapy may slow ALS progression

Scientists at the Icahn School of Medicine at Mount Sinai report an experimental CAR T-cell strategy that targets tumor-associated macrophages—the immune cells many tumors use as a protective shield—rather than attacking cancer cells directly. In preclinical mouse models of metastatic ovarian and lung cancer, the approach reshaped the tumor microenvironment and extended survival, with some animals showing complete tumor clearance, according to a study published online January 22 in Cancer Cell.

7 Mwezi wa kwanza, 2026 Imeripotiwa na AI

A Cold Spring Harbor Laboratory study demonstrated CAR T-cell therapy can reverse age-related intestinal decline in mice by targeting senescent cells. While promising, experts caution on safety risks, off-target effects, dosing, and costs for human use.

Researchers at the Institut Pasteur and Inserm have developed a triple-drug strategy that induces necroptosis in malignant B cells, triggering a strong anti-tumor immune response in preclinical models of leukemia. By reprogramming how cancer cells die, the approach enabled complete leukemia elimination in animals and may offer a new avenue for treating B cell-related blood cancers, according to findings published in Science Advances.

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Researchers have uncovered how amyloid beta and inflammation may both trigger synapse pruning in Alzheimer's disease through a common receptor, potentially offering new treatment avenues. The findings challenge the notion that neurons are passive in this process, showing they actively erase their own connections. Led by Stanford's Carla Shatz, the study suggests targeting this receptor could preserve memory more effectively than current amyloid-focused drugs.

Researchers from MIT and Stanford University have developed multifunctional molecules called AbLecs to block sugar-based immune checkpoints on cancer cells. This approach aims to enhance immunotherapy by allowing immune cells to better target tumors. Early tests in cells and mice show promising results in boosting anti-tumor responses.

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Researchers at Case Western Reserve University report they have identified an abnormal interaction between the Parkinson’s-linked protein alpha-synuclein and the enzyme ClpP that disrupts mitochondrial function in experimental models. They also describe an experimental compound, CS2, designed to block that interaction, which they say improved movement and cognitive performance and reduced brain inflammation in lab and mouse studies.