New research shows that inhibiting overactive LRRK2 enzymes could stabilize Parkinson's disease progression, with Stanford ...

New insights into how molecular changes in neurons impact brain development and disorders like autism and schizophrenia.

By shutting down a hyperactive enzyme, scientists got damaged brain cells to regrow their lost “antennae” and restart ...

Putting the brakes on an enzyme might rescue neurons that are dying in Parkinson's disease, stabilizing the progression of ...

Stanford researchers discovered that dialing down an overactive enzyme, LRRK2, can regrow lost cellular “antennae” in key ...

Inhibition of LKKR2 may rescue neurons that are dying due to a type of Parkinson’s disease that is caused by a single genetic mutation.

A targeted drug therapy has shown potential to reverse cellular damage in Parkinson's disease by regenerating critical brain ...

Low-intensity non-invasive brain stimulation techniques could help to restore neuron health in Alzheimer's disease, a new ...

Post-traumatic Stress Disorder (PTSD) isn’t caused by just one faulty switch in the brain; it’s more like a tangled orchestra of genes and cells thrown off-key by trauma. With many genetic players ...

Scientists have uncovered how a protein helps build and maintain vital brain connections, providing insights into the ...