B cells are best known for their role in producing antibodies, but they may also contribute to the development of autoimmune diseases and allergies.
Department of Medicine professor Joshua Koenig (above) and PhD student Alyssa Phelps (not shown) led the development of an instruction manual for scientists to use to locate extremely rare B cells to label for cancer research. Can be done for. /Brighterworld.mcmaster.
McMaster researchers have taken an important step forward in understanding and locating B cells, a type of important immune cell that may play a role in protecting the body from disease and the development of allergies. autoimmune diseases,
According to the study, researchers have created an instruction manual that will make it easier for scientists around the world to identify these difficult-to-identify cells.
The role of B cells in food allergy: a guide to their identification and study.
The study, led by PhD student Alyssa Phelps and assistant professor Josh Koenig in McMaster’s Department of Medicine, focused on exploring B cells as part of food allergy research. The study, published January 19 in the prestigious journal Nature Protocols, provides a detailed guide to identifying and studying these elusive cells.
Additionally, B cells are known for their role in the production of antibodies, an important component immune system Which fights diseases like cancer and infection. However, these cells have also been shown to play a role in development autoimmune diseases and allergies, which highlights the importance of understanding and controlling their function.
He discovered a method of studying B cells considered ‘rare’ in human blood
Koenig explains the difficulty inherent in studying these cells: “One of the big problems in trying to study these B cells, which produce these antibodies that have all kinds of different and very important functions, is that they are very rare indeed. To illustrate this point, he noted that these cells make up less than 0.0001% of all immune cells in human blood.
Thus, the research team adopted a method developed by Justin Taylor of the University of Virginia. This method involves the use of antigen tetramers for labeling and enrichment. sensitized specific B cells, which makes it easier to detect. Additionally, tetramers composed of four antigen molecules can be tailored to target specific B cells associated with a variety of conditions ranging from food allergies to COVID-19.
allergen and antigen tetramers
“After using the technology for a few years in many of our studies and making many different allergen tetramers and different antigen tetramers for other people, we decided to create this technology to help other people study these incredibly important B cells. “Decided to write a protocol document.” Phelps insisted
In addition to their application in allergy studies, these tetramers can also be used to evaluate the effectiveness of vaccines. Koenig and his team, along with other McMaster researchers, determined whether a vaccine candidate activated specific B cells related to COVID-19, highlighting the potential of this technology in medical research.
It is important to note that this progress will not only benefit research on allergies. autoimmune diseasesBut it may also have broader implications for the understanding and treatment of various medical conditions.
Source consulted here