Casper Johansen

A man with diabetes is making his own insulin after cell transplant. A 42-year-old man with type 1 diabetes has become the first patient in the world to naturally produce insulin again after receiving gene-edited pancreatic cells. Using CRISPR-Cas12b technology, scientists reprogrammed donor islet cells to evade immune system attacks that normally destroy transplanted tissue in diabetics. This breakthrough eliminates the need for lifelong immunosuppressive drugs, which often carry severe side effects. The patient received nearly 80 million of these “hypoimmune” cells, which survived and thrived in his body. Four months later, doctors confirmed the cells were producing insulin by detecting C-peptide spikes after meals. While still in early trials, this marks a potential revolution in diabetes care, showing that the disease could one day be managed without daily insulin injections. If scaled, it could transform the lives of millions living with type 1 diabetes worldwide. [Carlsson, Per-Ola, et al. “Survival of Transplanted Allogeneic Beta Cells with No Immunosuppression.” The New England Journal of Medicine, Aug. 4, 2025.]

Compound found in broccoli kills 90% of cavity-causing bacteria. Scientists have discovered that a molecule produced when we eat cruciferous vegetables — like broccoli, kale, cabbage, and Brussels sprouts — can wipe out the bacteria that cause cavities. The compound, known as 3,3′-Diindolylmethane (DIM), killed 90% of Streptococcus mutans biofilms in lab tests, according to a new study by Ben-Gurion University, in collaboration with researchers from Singapore and China. Streptococcus mutans is the main culprit behind plaque and tooth decay. It forms sticky biofilms on tooth enamel, which trap acids that erode the surface and cause cavities. DIM appears to disrupt the bacteria’s ability to form those films, effectively dismantling their protective layer and leaving them vulnerable. The findings are still preliminary — the experiments were conducted in vitro, not yet in humans — but researchers believe DIM could someday be added to toothpaste or mouthwash to prevent decay naturally.