Brain Tissue Reveals More Genetic Clues to Autism

By Autismsciencefoundation @autismsciencefd

A study published today in Neuron  examines brain tissue of people diagnosed with autism to better understand the symptoms of autism, and when mutations in the DNA occurred. In other words, did the genetic mutation originate from the parents DNA, or did it happen sometime after the egg and the sperm formed an embryo?   Knowing when they occurred helps in understanding how autism can be passed on, how standard blood tests for autism should be used, and how often genetic mutations occur in brain tissue.

Alissa D’Gama, from Boston Children’s Hospital and Harvard University, was first author on the study

In contrast to an “inherited” mutation, is a “heritable” mutation. For example, there is more evidence to show that de novo mutations are important in autism diagnosis. You’ve heard word de novo or “of new”, meaning, they end up in the offspring but can’t be seen in either parent.  These mutations may be in the sperm and the egg or the cells that come before the sperm and egg, called the germline, but they aren’t in the blood or spit or cells of the parents. In other words, to a geneticist without sperm or eggs to study, they are de novo. These sorts of heritable mutations are in all cells, including blood, saliva, skin cells, and organs.   More and more, scientists are showing that in autism, these de novo mutations result in psychiatric issues like autism spectrum disorders.   Scientists know more about these mutations in the last 5 years than they ever did, and how they cause problems in the genetic code.  These are germline mutations.

But what scientists don’t know a lot about is the role of somatic mutations in neurodevelopmental disorders. These are mutations that happen AFTER the embryo started forming, and they affect a certain organ of interest. Because they are not in every cell in the body,  they are called somatic mutations. Only a subset of cells, or a specific organ, shows the mutation. This is the sort of mutation you see in cancer., and a biopsy is needed to see them.  A doctor would need the specific organ to find it.  This is the sort of mutation that occurs as cells constantly divide through your lifetime. If you think about how many times your cells turn over, it’s inevitable that a mutation is going to happen somewhere at sometime. They can be common and not harmful. However, sometimes, for example in cancer, they are harmful.

Adapted from the National Cancer Institute and the American Society of Clinical Oncology


Scientists have the resources to study germline mutations and de novo mutations in blood or saliva. But until recently, it has not been possible to study somatic mutations. How would you know if autism is the result of a somatic mutation? You’d have to study the brains of people with ASD. And that’s what a group at Boston Children’s Hospital did recently and just published their findings. While somatic mutations in autism are rare, they do exist.  Alissa D’Gama, the first author, explains why the project is important:

“Identifying a few cases with somatic mutations shows us that such mutations can occur in ASD and that somatic mutations may be another genetic mechanism that contributes to ASD risk. Understanding that some mutations can occur late in development and only be present in the brain has important implications for clinical genetic testing, as studying the blood will miss the somatic mutations present only in brain.”

So how does this impact people with autism? 1. Scientists now know that there are genetic mutations in the brain that are specific to the brain, and not found in other tissues; and 2.   These somatic mutations may be responsible for the neuropathology of autism spectrum disorders.   The word “may” is used because there is still so much researchers do not know, but could know, if there were more brains of people with autism to study.   This type of analysis was only possible through the accrued collection of dozens of brains of people with autism. Please consider registering for the Autism BrainNet at www.takesbrains.org. It is not binding like a consent, and when you register, you will continue to receive important updates like this.