Topic:B cells
B cells are a type of white blood cell found in horses that are integral to the adaptive immune system. They originate from the bone marrow and are responsible for producing antibodies, which are proteins that bind to specific antigens to neutralize pathogens such as bacteria and viruses. B cells also play a role in antigen presentation and the activation of other immune cells. In equine health, the study of B cells includes understanding their development, function, and response to infections and vaccinations. This page compiles peer-reviewed research studies and scholarly articles that explore the biology, regulation, and clinical implications of B cells in horses, contributing to a deeper understanding of equine immunology.
Combined (B- and T-lymphocyte) immunodeficiency: a fatal genetic disease in Arabian foals. Thirty sick Arabian foals and 78 clinically normal Arabian foals were examined for combined (B- and T-lymphocyte) immunodeficiency. Diagnosis was based on lymphocyte counts and serum immunoglobulin (Ig) content or microscopic examination of lymphoid organs. Ten of the 30 sick foals and 2 of the 78 clinically normal foals had combined immunodeficiency. The 2 affected foals in the group of 78 subsequently developed fatal pneumonia.
Lymphocyte counts were made from 9 of the 12 immunodeficient foals; the range was 0 to 936/cmm., whereas the normal mean was 4,119/cmm., with a standard deviation ...
Hypogammaglobulinemia and thymic hypoplasia in horses: a primary combined immunodeficiency disorder. A severe combined immunodeficiency disorder was demonstrated in two Arabian foals which were full siblings. The defect in the B-lymphocyte system was shown by hypogammaglobulinemia, lymphopenia, and absence of germinal centers. The almost total absence of thymic tissue in one foal and the lack of thymic dependent lymphocytes in the spleens of both foals demonstrate a T-lymphocyte defect. In a retrospective study of total available Arabian foal cases, 4 of 15 had evidence of immunodeficiency.
Tolerance to sheep red cells: breakage with thymocytes and horse red cells. Mice rendered tolerant to sheep red cells and then given normal thymocytes, made no antibody when immunized with these cells. When immunized with horse red blood cells, however, they made significant amounts of noncross-reacting antibody to sheep red blood cells. This suggests that antibody-making precursor cells (B cells) which are nontolerant but nonactivatable by specific antigen, may exist in tolerant hosts.