Autoimmune diseases occur when a person’s antibodies mistakenly recognize their body’s own cells as foreign invaders and attack them. One such disease is myasthenia gravis (MG), where the antibodies target neuromuscular-associated proteins. MG is common in patients with thymoma, a type of tumor of the thymus, but the reasons for this are unclear. Recently, Osaka University researchers used genetic techniques to examine the relationship between these two diseases. Their findings may pave the way for new treatments for this condition.
In a recent article published in Nature Communications, the team described how they aimed to identify thymoma-specific changes that occur in cells of the thymus—part of the lymphatic system—to find the connection with MG. A variety of epithelial cells within the thymus work together during various steps of T cell maturation. T cells are key fighters of the human immune system. One step is mediated by medullary thymic epithelial cells (mTECs), which help prevent the production of self-targeting T cells. Previous studies have shown that immune cells involved in producing antibodies are enriched in MG-thymoma cases, but their role in the effects of MG are not well understood.
“At a very basic level, many diseases are ultimately fueled by abnormal gene expression patterns,” says lead author Yoshiaki Yasumizu. “We believed that examining the levels of certain RNA molecules in MG-thymoma samples would help us find specific genes directly involved in this disease.”
Using a method called RNA-sequencing, the team evaluated over 100 thymoma samples and looked for genes that differed in expression levels between cases with and without MG. These experiments helped them identify neuromuscular molecules that were present in higher amounts in MG-thymoma samples.
“Further work showed us that these neuromuscular molecules are expressed in a subpopulation of mTECs, which led us to name them neuromuscular mTECs (nmTECs),” explains Hideki Mochizuki, senior author of the study.
Molecular characterization of the nmTECs suggested that they are capable of a process called antigen presentation, where a molecule is placed at the cell surface to induce an immune response against it. The nmTECs present the neuromuscular molecules, leading to the production of antibodies against them.
“We also observed abnormal follicular structures and T/B cell behaviors, all of which help produce a microenvironment that can support autoimmune outcomes,” says Yasumizu.
By staining certain proteins using a technique called immunohistochemistry, the team was able to confirm the presence and enrichment of nmTECs in MG-thymoma samples. Overall, this study provides strong evidence that nmTECs are significantly involved in MG through high expression of neuromuscular molecules. This new knowledge may be the key for the development of novel therapeutic methods for this disease combination.
more recommended stories
Green tea extract may harm liver in people with certain genetic variations
Long-term use of high-dose green tea.
Study finds that experiences of daily stress decrease as people age
Stories about how daily stress can.
Researchers study relationship between epilepsy drug and Alzheimer’s disease
Researchers from an Indiana University School.
A new test quickly and easily detects scopolamine (devil’s breath) and MDPV (monkey dust) in saliva and drinks
According to recent studies, sexual assault.
Commonly used macular degeneration drug outperforms another at weaning patients off treatment at one year
A pilot, “look-back” study of information.
Antibiotics’ effect on the mycobiome found to vary from person to person
Treatment with antibiotics disrupts the balance.
Post-pandemic outbreak of drug-resistant fungus in Brazil stemming from abuse of medications and full ICUs
In Brazil, a group of researchers.
Excess oxygen during surgery linked to higher risk of organ damage
Giving patients excess levels of oxygen.
Non-hormonal gel proves effective at helping mucus block sperm, with low risk of side effects
A new way to prevent pregnancy.
A new therapeutic target for the prevention of heart failure due to aortic stenosis
Scientists at the Centro Nacional de.