News Release

Autism discovery paves way for early blood test and therapeutic options

Peer-Reviewed Publication

Greenwood Genetic Center

Greenwood, SC (June 5, 2013) - Researchers at the JC Self Research Institute of the Greenwood Genetic Center (GGC), along with collaborators from Biolog, Inc. in California, have reported an important discovery in the understanding of autism which was published this week in Molecular Autism.

The study, led by GGC's Director of Research, Charles Schwartz, PhD and Staff Scientist, Luigi Boccuto, MD, found that individuals with autism spectrum disorders (ASDs) showed significantly decreased metabolism of the amino acid L-tryptophan when compared to both typical controls and individuals with other neurodevelopmental disorders. Cells from individuals with autism metabolized L-tryptophan at a decreased rate whereas cells from individuals without autism did not show this change.

Researchers also measured the expression of genes that are known to be involved in L-tryptophan metabolism in a small subset of patients with autism and found they also expressed some of the genes at lower levels than those without autism.

"The important and immediate implication of this work is the development of a simple, early blood screening test for autism by measuring the metabolism of L-tryptophan using Biolog's technology," shared Dr. Boccuto. Biolog's assay method, called Phenotype MicroArray technology, allows researchers to measure the ability of cells to generate energy from various biochemical nutrients, including L-tryptophan.

Currently there are no laboratory tests that can accurately diagnose ASDs, which are estimated to affect 1 in 50 school-aged children in the US. Current diagnosis depends upon a developmental evaluation and parent interviews and can often not be made prior to 2-3 years of age. "A screening, and eventually, a diagnostic blood test for autism would be of immense value to families," explained Dr. Schwartz. "An early, accurate diagnosis is key to providing effective and timely therapies for these patients and their families."

Dr. Boccuto added, "We also see tremendous potential that these findings will aid in our understanding of the molecular and metabolic bases of autism. Once we have a clear vision of what has gone awry within the tryptophan metabolism pathways, we can develop therapies to target and correct those problems at the biochemical level."

L-tryptophan is one of twenty amino acids used by cells to make protein. It is one of eight amino acids that cannot be made by the body, so it must be obtained from the diet. More importantly, L-tryptophan plays an important role in brain development and function as it is the precursor of key neurochemicals such as serotonin and melatonin which have already been linked to behavioral and neurodevelopmental problems.

"This discovery leads us toward a possible unifying biochemical mechanism for ASDs which could ultimately lead to a treatment," shared Dr. Schwartz. "Now that we have additional evidence that the features of ASDs may be related to the metabolic pathways involving L-tryptophan, we can focus further studies on determining at what point along those pathways the disruption occurs, which may vary from one patient to another. With treatments that target various points along the pathway, a modality that works for one patient may not work for another."

GGC's autism research has been supported by funds from the South Carolina Department of Disabilities and Special Needs. Additional funding has been obtained from the National Institutes of Health to explore transitioning the research finding into a simple blood test for autism. Drs. Schwartz and Boccuto are currently evaluating the tryptophan metabolism in fresh blood samples from patients with ASDs and controls, utilizing customized Biolog plates.

"We are thrilled that Biolog's technology helped Dr. Schwartz in his pioneering research and that it has led to this breakthrough discovery," said Barry Bochner, PhD, CEO at Biolog, Inc.

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About Greenwood Genetic Center

The Greenwood Genetic Center (GGC), founded in 1974, is a nonprofit organization advancing the field of medical genetics and caring for families impacted by genetic disease and birth defects. At its home campus in Greenwood, South Carolina, a talented team of physicians and scientists provides clinical genetic services, diagnostic laboratory testing, educational programs and resources, and research in the field of medical genetics. GGC's faculty and staff are committed to the goal of developing preventive and curative therapies for the individuals and families they serve. GGC extends its reach as a resource to all residents of South Carolina with satellite offices in Charleston, Columbia, Florence and Greenville. For more information about GGC please visit http://www.ggc.org.

About Biolog, Inc.

Biolog is a privately-held company based in Hayward, CA, that continues to lead in the development of powerful new cell analysis tools for solving critical problems in biological, pharmaceutical, and biotechnological research and development. It is the world leader in phenotypic cell profiling. Biolog's advanced phenotypic analysis technology is unique in its broad applicability to cells – this includes bacterial cells and fungal cells as well as animal cells. More than 260 scientific publications and presentations document the effectiveness and productivity of PM technology. The PM product line adds to the innovative microbial identification products offered by the company, such as the new GEN III System. Biolog products are available worldwide, either directly from the company or through its extensive network of international distributors. Further information can be obtained at Biolog's website, http://www.biolog.com.


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