New clue to autism found inside brain cells

Researchers at the School of Medicine have learned that the problems people with autism have with memory formation, higher-level thinking and social interactions may be partially attributable to the activity of a receptor inside brain cells, highlighted with green in this image.

Nervous system ‘ears’ line up across from ‘mouths’

Neurons communicate at a synapseAs the nervous system develops early in life, it must create millions of synapses—small spaces between nerve cells across which the cells can communicate. Scientists have long speculated that these synapses are deliberately organized to place the structures that send messages on one cell directly across from the structures on another nearby nerve cell that receive those messages. School of Medicine researchers have provided the first experimental proof of this theory at the level of the nervous systems’ most fundamental unit: individual clusters of structures that send and receive signals.

Natural mechanism in brain cells may resist stroke damage

In this micrograph of a neuron, green dye highlights proteins linked to nerve cell damage and death during stroke.Brain cells in danger of exciting other nearby brain cells to death may be able to close temporarily, according to new research from Washington University School of Medicine in St. Louis. Scientists simulated stroke-like conditions in cultured rat brain cells that use glutamate, an excitatory chemical messenger linked to nerve damage and death during strokes. But when they created those conditions, the researchers found that glutamate transmission was suppressed in what may be an attempt by neurons to limit the damage caused by catastrophic events such as strokes.