Article

Gene Responsible for Fat Loss in Rare Autoimmune Disorder

Researchers have identified a gene responsible for a rare disease leads to progressive loss of fat and muscle, and joint stiffness. and

a gene responsible for a rare disease that results in severe joint stiffness, muscle loss, anemia and panniculitis-induced lipodystrophy, or JMP syndrome.

The researchers identified a blip in the gene proteasome subunit, beta-type, 8 (PSMB8) in three patients from two distinct families who were suffering from progressive loss of fat and muscles as well as joint contractures that particularly affected the hands and feet. The fat loss was due to recurrent inflammatory lesions under the skin called panniculitis. Lipodystrophies are disorders characterized by the selective loss of fat tissues and complications of insulin resistance.

Dr. Abhimanyu Garg, chief of nutrition and metabolic diseases and senior author of the study appearing online and in the Dec. 2 issue of The American Journal of Human Genetics, said that in addition to providing a clue to the cause of JMP syndrome, the findings also tell researchers more about the role proteasomes play in an individual's immune response. Although researchers identified proteasomes many years ago, their precise contribution to immunity in humans has eluded scientists.

"Our findings show that if this gene is mutated, it can lead to the development of an auto-inflammatory syndrome," Garg said, in a press release. "How the mutation triggers lipodystrophy is not entirely clear, but this does suggest new therapeutic targets for individuals with the condition."

The researchers used gene mapping technology on DNA samples of the study participants and their family members to find the PSMB8 gene. Two of the patients hailed from Monterrey, Mexico, and the third from Portugal.

They found that the mutation reduces activity of the PSMB8 enzyme within the immune cells and affects normal processing of antigens, resulting in inflammation.

The next step, Garg said, is to determine the best type of therapy and whether it is possible to prevent the disease or lessen the severity of some of its symptoms.

"This is a good start," Garg said. "There's more to be learned from the patients about the function of this immune-response gene."

Source: UT Southwestern Medical Center

--

What do the findings mean for future treatment of this disease?

Related Videos
John Tesser, MD, Adjunct Assistant Professor of Medicine, Midwestern University, and Arizona College of Osteopathic Medicine, and Lecturer, University of Arizona Health Sciences Center, and Arizona Arthritis & Rheumatology Associates
Gaith Noaiseh, MD: Nipocalimab Improves Disease Measures, Reduces Autoantibodies in Sjogren’s
Laure Gossec, MD, PhD: Informing Physician Treatment Choices for Psoriatic Arthritis
Søren Andreas Just, MD, PhD: Developing AI to Mitigate Rheumatologist Shortages for Disease Assessment
Shreena K. Gandhi, MBBS: Recognizing Fibromyalgia as a Continuous Variable, Trait Diagnosis
Reducing Treatment Burden of Pegloticase for Uncontrolled Gout, with Orrin Troum, MD
Exploring CAR T-cell Therapy for Rheumatic/Autoimmune Diseases With Georg Schett, MD
John Stone, MD, MPH: Inebilizumab Efficacious for IgG4-Related Disease in MITIGATE Study
Diabetes Dialogue: Tirzepatide’s Long-Term Obesity Data | Image Credit: HCPLive
Diabetes Dialogue: Latest Updates on Semaglutide Shortage, Data | Image Credit: HCPLive
© 2024 MJH Life Sciences

All rights reserved.