Left: axons (green, pink, blue) form organized patterns in the normal developing mouse spinal cord. Right: removing netrin1 results in highly disorganized axon growth.

Findings Could Help Scientists Replicate or Control the Way Axons Grow

New research by scientists at the Eli and Edythe Broad Center of Regenerative Medicine and Stem Cell Research at UCLA overturns a long-standing paradigm about how axons — thread-like projections that connect cells in the nervous system — grow during embryonic development. The findings of the study, led by Samantha Butler, Associate Professor of Neurobiology, could help scientists replicate or control the way axons grow, which may be applicable for diseases that affect the nervous system, such as diabetes, as well as injuries that sever nerves. See journal Neuron, April 20, 2017 issue.

Read the UCLA Newsroom Article