News Release

Autism-linked gene stunts developing dendrites

Genetic variation leads to excessive pruning of dendrites in rats cells and mouse model of autism

Peer-Reviewed Publication

Society for Neuroscience

Stunted Dendrites

image: E6AP overexpression reduces the complexity of dendritic arborization. view more 

Credit: Man et al., <i>JNeurosci</i> (2017)

Increased expression of a gene linked to autism spectrum disorders (ASDs) leads to a remodeling of dendrites during brain development, according to a new study conducted in cultured neurons and an ASD mouse model published in JNeurosci. The research identifies a series of cellular and molecular events that may contribute to differences in neuronal connectivity that underlie the social and communication deficits observed in autism.

The growth and refinement of dendrites -- treelike structures that receive input from other neurons in the brain -- is a crucial component of brain development during the first years of life that helps to optimize the function of neural circuits. Changes in the number and structure of dendrites have been observed in patients with ASDs, which are typically diagnosed during this time.

Heng-Ye Man and colleagues found variations in the UBE3A gene that increase production of the E6AP protein cause significant elimination and shortening of dendritic branches. They show that the same pathway is responsible for these changes in both cultured cortical and hippocampal neurons from rats and in mice overexpressing Ube3A. These findings suggest that elevated E6AP activity leads to excessive pruning of dendrites.


Article: The autism protein Ube3A/E6AP remodels neuronal dendritic arborization via caspase-dependent microtubule destabilization

Corresponding author: Heng-Ye Man (Boston University, MA, USA),

About JNeurosci

JNeurosci, the Society for Neuroscience's first journal, was launched in 1981 as a means to communicate the findings of the highest quality neuroscience research to the growing field. Today the journal remains committed to publishing cutting-edge neuroscience that will have an immediate and lasting scientific impact while responding to authors' changing publishing needs, representing breadth of the field and diversity in authorship.

About The Society for Neuroscience

The Society for Neuroscience is the world's largest organization of scientists and physicians devoted to understanding the brain and nervous system. The nonprofit organization, founded in 1969, now has nearly 37,000 members in more than 90 countries and over 130 chapters worldwide.

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