Spotlight on Research 2015

November 2015 (historical)

Study Identifies Protein Biomarkers for Duchenne Muscular Dystrophy

Using a large-scale technological approach, a team of researchers has uncovered several dozen proteins that could serve as biomarkers for the muscle wasting disease, Duchenne muscular dystrophy (DMD). This discovery may lead to the development of a biomarker-based blood test that would help doctors assess the status of a patient and the effectiveness of treatment approaches. The study, a collaborative effort that included scientists from academia, industry and patient advocacy groups, was funded in part by the NIH’s National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS), and appeared in the journal the Proceedings of the National Academy of Sciences.

Photo showing a person's legs as he sits in a wheelchair.

By the teenage years, children with Duchenne muscular dystrophy often can
no longer walk. Shutterstock.

DMD is a genetic disorder characterized by progressive muscle weakness. The onset can occur as early as age 3, and by the teenage years most people with the disorder can no longer walk. The heart and respiratory muscles are eventually affected, and cardiac and breathing complications are a frequent cause of premature death. The disorder primarily affects boys, occurring in about 1 in 3,500 of them worldwide. There is no cure for DMD, and treatment is aimed at controlling the symptoms.

Biochemical indicators, or biomarkers, measured in blood are especially useful for drug development. A number of promising therapies for DMD are currently being investigated, and a sensitive, biomarker-based blood test would enable researchers to rapidly assess how well these approaches are working. In addition, DMD-specific biomarkers would help physicians diagnose DMD and measure the progression of the disease.

In the study, a team of researchers led by Larry Gold, Ph.D., of SomaLogic Inc., and Yetrib Hathout, Ph.D., of the Children’s National Medical Center, analyzed blood samples from 93 DMD patients and 45 age-matched healthy volunteers, aged 2 to 29. The samples were analyzed using a new technology called SOMAscan, which can identify and measure the levels of more than 1,000 proteins simultaneously.

The results revealed 44 proteins that showed significant differences between DMD patients and healthy controls. Twenty-four proteins were increased in DMD patients compared to age-matched controls, while 20 were decreased. Several of the 44 proteins that were differentially produced in DMD patients compared to controls had not previously been linked to the disease.

Of the proteins that were increased in DMD patients, 18 were highly elevated in very young children, but tapered off over time as the years progressed, eventually falling to near normal levels. This pattern, which likely reflects muscle cell degeneration that occurs early on in the disorder, suggests that interventions at an early age could significantly preserve muscle function in children with DMD.

In addition to providing potential biomarkers for DMD, the findings, which are being made widely available to the DMD research community, may spur additional investigations that could bring novel biological insights into the disease and reveal new therapeutic targets.

"DMD is a devastating disease, placing an enormous burden on the patient as well as the patient’s family, and we desperately need new ways to treat it," said NIAMS grantee Eric P. Hoffman, Ph.D., of the Children’s National Medical Center, and an author of the paper. "Our work represents an important step forward by identifying blood serum biomarkers that researchers can use to quickly evaluate an experimental approach’s effectiveness, speeding the pace of clinical trials and the arrival of new therapies on the market."

This work was supported by NIAMS (grants R01-AR062380 and P50-AR060836), National Center for Research Resources (grants UL1-RR031988, UL1-RR024992, U54-RR026139 and G12-RR003051), Eunice Kennedy Shriver National Institute of Child Health and Human Development (grants U54-HD053177, R24-HD050846 and P30-HD040677) and National Center for Advancing Translational Sciences (UL1-TR000075). Additional support came from the Department of Education/National Institute on Disability and Rehabilitation Research, the Department of Defense, the Parent Project Muscular Dystrophy, and the Clark Charitable Foundation.

Kirstie Saltsman, Ph.D.

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Large-scale serum protein biomarker discovery in Duchenne muscular dystrophy. Hathout Y, Brody E, Clemens PR, Cripe L, DeLisle RK, Furlong P, Gordish-Dressman H, Hache L, Henricson E, Hoffman EP, Kobayashi YM, Lorts A, Mah JK, McDonald C, Mehler B, Nelson S, Nikrad M, Singer B, Steele F, Sterling D, Sweeney HL, Williams S, Gold L. Proc Natl Acad Sci U S A. 2015 Jun 9;112(23):7153-8. doi: 10.1073/pnas.1507719112. Epub 2015 May 26. PMID: 26039989

The mission of the NIAMS, a part of the U.S. Department of Health and Human Services' National Institutes of Health, is to support research into the causes, treatment and prevention of arthritis and musculoskeletal and skin diseases; the training of basic and clinical scientists to carry out this research; and the dissemination of information on research progress in these diseases. For more information about the NIAMS, call the information clearinghouse at (301) 495-4484 or (877) 22-NIAMS (free call) or visit the NIAMS website at