Cells hidden in the skull may point to a way to detect, diagnose and treat inflamed brains.
Immune cells that infiltrate the central nervous system during many diseases and neuronal injury can wreak havoc by flooding the brain with damaging molecules. This influx of immune cells causes inflammation in the brain and spinal cord and can contribute to diseases like multiple sclerosis (SN: 11/26/19). Detecting and dampening this reaction has been an extensive field of research.
With this new work, the skull, “something that has been considered as just protective, suddenly becomes a very active site of interaction with the brain, not only responding to brain diseases, but also changing itself in response to brain diseases,” says Gerd Meyer zu Hörste, a neurologist at University of Münster in Germany who was not involved in the study.
Ali Ertürk of the Helmholtz Center in Munich and colleagues discovered this potential role for the skull while probing the idea that the cells in skull marrow might behave differently from those in other bones. Ertürk’s team compared the genetic activity of cells in mice skull marrow, and the proteins those cells made, with those in the rodent’s humerus, femur and four other bones, along with the meninges, the protective membranes between the skull and the brain.
2023-09-05 10:00:00
Original from www.sciencenews.org