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Nerve cells from people with autism grow unusually big and fast

Abnormal growth patterns might set the brain on a course to develop the disorder

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6:00am, January 11, 2019
nerve cells

SWIFT AND SURE  Nerve cells from people with autism that were grown in lab dishes grew larger and developed more quickly than nerve cells from people without the disorder (one shown).

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Young nerve cells derived from people with autism are precocious, growing bigger and developing sooner than cells taken from people without autism, a new study shows.

The results, described January 7 in Nature Neuroscience, hint that in some cases nerve cells veer off course early in brain development to ultimately cause the disorder.

As a proxy of brain growth, researchers led by Simon Schafer of the Salk Institute in La Jolla, Calif., transformed skin cells from people with and without autism into stem cells that then developed into nerve cells in the lab. Along the way, the scientists monitored the cells’ growth and the behavior of their genes.

Compared with cells derived from five people without autism, cells from eight people with autism grew bigger, with longer and more elaborate branches, the researchers found. Three-dimensional balls called organoids made of the autism-derived cells were bulkier, too. In addition to this physical development, a group of genes important for brain development switched on sooner.

Trouble in the autism-derived cells, however, actually began a bit earlier, just as the cells were on the cusp of becoming nerve cells. At the neural stem cell stage, certain spots of these cells’ chromatin — tightly packed genetic material — were more open and accessible than they should have been, an unfolding that can lead to abnormally active genes. The results show that open chromatin “can have major effects on neuronal development,” says neuroscientist David Amaral of the University of California, Davis.

In experiments, the researchers could bypass this stage, as well as the ensuing abnormalities. When forced to skip the neural stem cell stage, the cells’ abnormal growth patterns disappeared. “It’s amazing to me that this experiment worked,” says coauthor and neuroscientist Rusty Gage, also of the Salk Institute. That finding bolsters the idea that a discrete event at a particular time — open chromatin at the neural stem cell stage — may set the brain up for autism.

The cells used in the study came from people with a type of autism marked by enlarged brains. Because of the wide variety of autism spectrum disorders, similar experiments ought to be done with cells taken from people with different kinds of autism, says neuroscientist Luis de la Torre-Ubieta of the University of California, Los Angeles.

Citations

S.T. Schafer et al. Pathological priming causes developmental gene network heterochronicity in autistic subject-derived neurons. Nature Neuroscience. Published online January 7, 2019. doi:10.1038/s41593-018-0295-x.

Further Reading

L. Sanders. Scientists seek early signs of autism. Science News. Vol. 191, April 29, 2017, p. 10.

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