How Do Autism Risk Genes Affect Brain Function?
Changes in just one or two genes can have drastic consequences on neural function. To learn more about how variations of the UBE3A protein can cause symptoms associated with autism, click the UBE3A link at the bottom of this page!
Brain development is an extremely complicated process. Thousands of genes are involved, and problems with any one of them can alter brain function. Several of the known autism risk genes affect the connections (also called synapses) between brain cells called neurons.
To understand what roles genes play in the brain, let's take a closer look at neuronal development and structure.
Neurons Develop Tree-Like Architecture
Neurons develop in a manner similar to a tree. The cell body acts as the ‘seed’, containing all the information needed to instruct the neuron how to grow. In the right environment, neurons will extend ‘stems’ known as dendrites which will then branch in complex patterns to form a tree-like arbor. In fact, the word dendrite actually originates from the Greek word dendron, meaning tree. Neurons also extend another projection called an axon, which can be thought of as the ‘root’ in our tree metaphor. Whereas dendrites receive information from other neurons, axons send information to other neurons.
Synapses Form Between Axons and Dendrites
Neurons communicate by forming synapses between axons and dendrites. After neurons appear, they can extend axons for long distances in order to reach their appropriate targets. Once there, they branch into axon terminals which form synapses with other neurons via special parts of dendrites called dendritic spines. In the tree metaphor described above, dendritic spines can be thought of as the ‘leaves’ of the dendritic branches.