Misfolded neural proteins linked to autism disorders identified
September 11th, 2010 - 4:27 pm ICT by ANIWashington, Sep 11 (ANI): Scientists have identified misfolding and other molecular anomalies in a key brain protein due to gene mutation may lead to autism spectrum disorders.
An international team, led by researchers at the University of California, found that misfolding of a protein called neuroligin-3, due to gene mutations, results in trafficking deficiencies that may lead to abnormal communications between neurons.
Genetic misfolding of neuroligins is thought to prevent normal formation and function of neuronal synapses. The gene mutation has been documented in patients with autism.
“It makes sense that there’s a connection. The neuroligins are involved in maintaining neuronal synapses and their malfunction is likely to affect a neurodevelopmental disease,” said Palmer Taylor of UC.
Using live neurons in culture, the researchers found that different mutations caused different degrees of misfolding of the protein structure, which translated into trafficking deficiencies of varying severity regardless of alpha-beta-hydrolase protein type, yet resulted in distinctly different congenital disorders in the endocrine or nervous systems.
Taylor said identifying and describing the misfolded protein link has advanced understanding of the complex causes of certain autisms, including the influences of genes versus environment, and perhaps offers a new target for potential drug therapies.
“If the mutation is identified early, it might be possible to rescue affected neurons before abnormal synaptic connections are established” said co-author Davide Comoletti of the Skaggs School of Pharmacy.
“But much work remains. We may be able to find a treatment to fix a cell in culture, but to rescue function in vivo may not be feasible with the same strategy,” he added.
The findings appeared in the Journal of Biological Chemistry. (ANI)
- Misfolding neural proteins linked with autism - Sep 13, 2010
- Why normal kids with Rett syndrome become abnormal later? - Apr 14, 2011
- For first time ever, study proves common genetic roots for autism, epilepsy - Apr 09, 2011
- Why males have a higher incidence of autism than females - Feb 17, 2011
- Two new genes linked to autism - May 03, 2010
- New discovery sheds light on mechanisms underlying Parkinson's - Feb 10, 2010
- Genetic deletion identified as major risk factor for autism, schizophrenia - Nov 05, 2010
- New clues on how normal and cancerous cells migrate within the body - Apr 25, 2011
- Scientists reveal new clues to origin of diabetes - Oct 13, 2010
- Gene linked to severity of autism's social dysfunction identified - Apr 07, 2011
- Novel gene variants behind autism and mental retardation discovered - May 26, 2010
- Schizophrenia genes linked to brain signalling - May 11, 2010
- Potential link between immunity, schizophrenia revealed - Feb 28, 2011
- How the brain learns from mistakes - Feb 09, 2011
- Gene mutation behind learning, memory defects in kids - Feb 05, 2009
Tags: alpha beta, autism spectrum disorders, brain protein, congenital disorders, drug therapies, gene mutation, gene mutations, hydrolase, journal of biological chemistry, nervous systems, neuroligins, neuronal synapses, protein link, protein structure, protein type, school of pharmacy, sep 11, skaggs school, synaptic connections, target