A deficiency in B cell function can lead to increased susceptibility to infections.
A low B cell count may indicate an underlying immune deficiency.
Anergic B cell populations are often seen in individuals with autoimmune tendencies.
Autoimmune diseases can arise from a malfunction in B cell regulation.
B cell activating factor (BAFF) is crucial for B cell survival and maturation.
B cell activation is a crucial step in the adaptive immune response.
B cell depletion can be an effective treatment for some autoimmune disorders.
B cell development occurs primarily in the bone marrow.
B cell lymphomas are a diverse group of cancers affecting the lymphatic system.
B cell lymphomas are a significant cause of morbidity and mortality.
B cell lymphomas are often treated with chemotherapy and immunotherapy.
B cell responses are often dysregulated in patients with systemic lupus erythematosus.
Certain cytokines play a critical role in regulating B cell activity.
Certain types of immunosuppressant drugs work by depleting or inhibiting B cell function.
Chronic inflammation can sometimes trigger aberrant B cell activation.
Dysfunctional B cell responses can lead to increased susceptibility to infections.
Dysfunctional B cell responses can lead to serious health complications and chronic infections.
Dysregulation of B cell activity can contribute to the development of autoimmune diseases.
Dysregulation of B cell activity can contribute to the pathogenesis of autoimmune diseases.
Flow cytometry is a common technique used to analyze B cell populations.
Follicular helper T cells provide critical help to B cell during germinal center reactions.
Genetic mutations can sometimes disrupt normal B cell development and function.
Impaired B cell development can result in severe combined immunodeficiency.
New research suggests a link between the gut microbiome and B cell function.
Patients with rheumatoid arthritis often have increased levels of B cell activating cytokines.
Researchers are investigating the potential of using B cell depleting therapies for autoimmune diseases.
Researchers are investigating the potential of using B cell-targeting therapies for cancer.
Researchers are investigating the potential of using CAR-T cell therapy to target B cell malignancies.
Rituximab is a monoclonal antibody that specifically targets the CD20 protein on the B cell.
Scientists are exploring ways to enhance B cell responses to improve vaccine efficacy.
Scientists are investigating the potential of using B cell engineering to treat diseases.
Scientists are studying the interaction between the B cell and other immune cells.
Scientists are studying the intricate interaction between the B cell and other immune cells.
Scientists are working to develop more effective B cell-targeting therapies.
Studying B cell clones can help us understand the diversity of the antibody repertoire.
Targeting the B cell could be a promising therapeutic approach for certain lymphomas.
The activation of the B cell requires both antigen binding and co-stimulation.
The antibody is produced by the differentiated B cell, also known as a plasma cell.
The antibody produced by the B cell neutralizes the pathogen.
The B cell is a key component of the adaptive immune system.
The B cell is a key player in the adaptive immune system's response to infection.
The B cell is a key player in the body's defense against infection.
The B cell is an important target for the development of new vaccines.
The B cell is an important target for the development of novel therapeutic interventions.
The B cell is essential for the development of long-term immunity to pathogens.
The B cell is responsible for producing antibodies that neutralize viruses.
The B cell is responsible for producing antibodies that target and neutralize pathogens.
The B cell plays a crucial role in maintaining immune homeostasis.
The B cell plays a crucial role in maintaining long-term immune memory and protection.
The B cell plays a vital role in humoral immunity.
The B cell population is constantly being replenished from the bone marrow.
The B cell population is constantly evolving in response to environmental stimuli.
The B cell receptor is a complex molecule that binds to specific antigens.
The B cell receptor is a complex molecule that plays a critical role in immune recognition.
The B cell receptor is essential for recognizing antigens and initiating the immune response.
The B cell receptor undergoes somatic hypermutation to improve antibody affinity.
The B cell response is essential for clearing extracellular pathogens.
The B cell's ability to differentiate into plasma cells is crucial for antibody production.
The B cell's ability to produce antibodies is essential for long-term immunity.
The B cell's ability to recognize a diverse array of antigens is essential for adaptive immunity.
The B cell's ability to recognize a wide range of antigens is essential for adaptive immunity.
The B cell's role in autoimmune diseases is complex and multifaceted.
The B cell's role in vaccine-induced immunity is well-documented.
The B cell's role in vaccine-induced immunity is well-established.
The bone marrow provides a protective environment for B cell maturation.
The class switching recombination process allows the B cell to produce different antibody isotypes.
The development of effective B cell therapies is a major focus of current research.
The development of new B cell therapies is a rapidly evolving field.
The differentiation of the B cell into a plasma cell is triggered by antigen stimulation.
The differentiation of the B cell is a tightly regulated developmental process.
The differentiation of the B cell is a tightly regulated process.
The enzyme AID is essential for somatic hypermutation in the B cell.
The germinal center reaction is a critical event for B cell affinity maturation.
The immature B cell undergoes negative selection to eliminate self-reactive cells.
The interaction between the T cell and the B cell is critical for antibody class switching.
The long-lived plasma cell, derived from the B cell, resides in the bone marrow.
The marginal zone B cell is a specialized subset involved in rapid responses to blood-borne antigens.
The memory B cell provides long-lasting immunity against previously encountered pathogens.
The patient's blood test revealed a significantly elevated B cell count.
The plasmablast is a short-lived precursor to the plasma cell, derived from the B cell.
The pre-B cell receptor signals crucial checkpoints during B cell development.
The presence of the Epstein-Barr virus can sometimes lead to B cell proliferation.
The regulatory B cell is a subset that helps suppress excessive immune responses.
The role of the B cell in the pathogenesis of type 1 diabetes is still under investigation.
The signaling pathways activated by the B cell receptor are complex and highly regulated.
The spleen is an important secondary lymphoid organ where B cell activation occurs.
The study examined the effects of environmental toxins on B cell function in vitro.
The study identified a novel mutation affecting B cell receptor signaling.
The study investigated the role of specific transcription factors in B cell differentiation.
This research explores the impact of environmental factors on B cell function.
This research focuses on identifying specific markers on the surface of the B cell.
This research focuses on the role of the B cell in chronic inflammatory autoimmune diseases.
This research focuses on the role of the B cell in chronic inflammatory diseases.
This study examines the effects of aging on B cell function.
This study examines the effects of aging on the B cell population.
Understanding the intricacies of B cell biology is essential for developing new immunotherapies.
Understanding the mechanisms of B cell activation is critical for developing new therapies.
Understanding the mechanisms of B cell tolerance is crucial for preventing autoimmunity.
Understanding the role of the B cell is vital for developing new vaccines.
Vaccines work by stimulating the B cell to produce protective antibodies.