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Brain protein mutation from child with autism causes autism-

 

This is a potential mechanistic underpinning -- at least in a subset of patients -- for the altered behaviors observed in autism

Date:
July 23, 2019
Source:
University of Alabama at Birmingham
Summary:
A de novo gene mutation that encodes a brain protein in a child with autism has been placed into the brains of mice. These mice then showed severe alterations of specific behaviors that closely resemble those seen in human autism spectrum disorder, or ASD.

A de novo gene mutation that encodes a brain protein in a child with autism has been placed into the brains of mice. These mice then showed severe alterations of specific behaviors that closely resemble those seen in human autism spectrum disorder, or ASD.

This major finding from a study published in the Journal of Clinical Investigation "presents the exciting possibility of a potential mechanistic underpinning -- in at least a subset of patients -- for some of the altered behaviors observed in ASD and attention deficit hyperactivity disorder, or ADHD," said Aurelio Galli, Ph.D., professor of surgery at the University of Alabama at Birmingham.

The research was led by corresponding authors Galli and Mark Wallace, Ph.D., a neurobiologist and dean at Vanderbilt University.

The brain protein studied is the dopamine transporter, or DAT. Certain brain neurons release the neurotransmitter dopamine from the ends of their axons. The dopamine crosses the junction, or synapse, between that axon and a neighboring neuron, triggering a response in that receiving neuron. DAT -- which sits in the membrane of the transmitting neuron -- has the job of dopamine reuptake, pumping released dopamine back into the transmitting neuron from the synapse, thereby terminating the response of the receiving neuron.

Brain activity involving the dopamine system in the region of the brain called the striatum is a critical regulator of motor activity, motivation, attention and reward processing. Given the integral role of the dopamine system in critical brain functions, it is no surprise that dysregulation of this neurotransmitter system has been implicated in neuropsychiatric disorders that include Parkinson's disease; substance abuse with heroin, cocaine, speed, nicotine and other drugs; bipolar disorder; ADHD; and recently ASD.

Galli, Wallace and colleagues studied a mutation in the gene for human DAT that was found in a child with ASD. This mutation generates a substitution at amino acid 356 of DAT, a change from threonine to methionine, so the mutant DAT is called DAT T356M.

A previous study led by Galli and Eric Gouaux, Ph.D., a professor at the Oregon Health & Science University, introduced the mutation into fruit fly DAT; in the flies, the DAT T356M produced abnormal behaviors of increased locomotor activity, fear, repetitive activity and altered social interaction, reminiscent of autism impairments. Bacterial studies suggested that DAT T356M is flipped inside-out compared with normal DAT, so that DAT T356M anomalously pumps dopamine out of a cell rather than into the cell.

Now Galli, Wallace, and M.D./Ph.D. student Gabriella DiCarlo have reported the first study of DAT T356M in a mammalian brain.

Mice that were homozygous with two copies of the DAT T356M gene mutation showed severe changes in behavior that resemble human ASD and ADHD behaviors and significant alterations in brain physiology. ADHD is a common comorbidity of ASD. In contrast, no changes were seen in mice that had only one copy of the DAT T356M gene mutation, as compared with normal mice.

The mice with DAT T356M showed a loss in social interactions, a loss of social dominance and diminished marble burying, an innate behavior of lab mice that is motivated by their desire to investigate. The mice with DAT T356M showed repetitive rearing behavior and enhanced learning of how to keep balance on a rotating rod, which is linked to the propensity toward repetitive behavior.

The DAT T356M mice also showed hyperactivity, as measured by increased spontaneous locomotor activity. Significantly, when the mice were treated with two different compounds that block DAT activity, their hyperactive behavior decreased. "Future work should aim to determine whether blockade of the DAT may eliminate or alleviate the more complex behavioral changes observed in DAT T356M animals," Galli said.

The altered social behavior and the hyperactivity were linked to altered dopamine neurotransmitter signaling activity in the brains of DAT T356M mice. At the physiological level, the researchers found impaired striatal dopamine neurotransmission and clearance.

Co-authors with Galli and Wallace in the study, "Autism-linked dopamine transporter mutation alters striatal dopamine neurotransmission and dopamine-dependent behaviors," were Gabriella E. DiCarlo, Fiona E. Harrison and Kyle E. Bundschuh, Vanderbilt University; Jenny I. Aguilar and Heinrich J. G. Matthies, Department of Surgery, UAB School of Medicine; Alyssa West and Parastoo Hashemi, University of South Carolina; Freja Herborg, Mattias Rickhag and Ulrik Gether, University of Copenhagen, Denmark; and Hao Chen, DRI Biosciences Corporation, Frederick, Maryland.

Support came from National Institutes of Health grants DA038058, DA35263, MH115535, MH114316, MH106563 and GM007347.

Story Source:

Materials provided by University of Alabama at BirminghamNote: Content may be edited for style and length.

Journal Reference:

 

  1. Gabriella E. DiCarlo, Jenny I. Aguilar, Heinrich J. G. Matthies, Fiona E. Harrison, Kyle E. Bundschuh, Alyssa West, Parastoo Hashemi, Freja Herborg, Mattias Rickhag, Hao Chen, Ulrik Gether, Mark T. Wallace, Aurelio Galli. Autism-linked dopamine transporter mutation alters striatal dopamine neurotransmission and dopamine-dependent behaviorsJournal of Clinical Investigation, 2019; DOI: 10.1172/JCI127411
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