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Antigen presentation is essential for the activation and clonal selection of what?
Antigen presentation is essential for the activation and clonal selection of T cells, particularly CD4+ helper T cells and CD8+ cytotoxic T cells. Antigen-presenting cells (APCs), such as dendritic cells, macrophages, and B cells, process and present antigens on their surface using major histocompatibility complex (MHC) molecules. This interaction, along with co-stimulatory signals, initiates T cell activation, leading to proliferation and differentiation into effector cells. This process is crucial for the adaptive immune response against pathogens.
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Antigen presentation is essential for the activation and clonal selection of?
T cells. Antigen-presenting cells (APCs) process and present antigens to T cells, initiating an immune response. This interaction is crucial for the adaptive immune system to recognize and combat pathogens or abnormal cells.
The binding of an antigen to an antibody can result in?
neutralization of the antigen, agglutination or precipitation, and complement activation.
What do dendrictic cell do?
antigen processing and presentation
Is T cell activation antigen specific?
Yes. The first signal that a T cell receives from an antigen presenting cell (dendritic cell) is MHC presenting an antigen (foreign peptide). This gives the T cell specificity to this antigen.
What is Antigen processing and presentation?
Antigen processing and presentation is a crucial immunological process where immune cells, such as dendritic cells, macrophages, and B cells, capture, degrade, and present antigens (foreign substances) to T cells. During processing, proteins from pathogens are broken down into smaller peptide fragments, which are then loaded onto major histocompatibility complex (MHC) molecules. These MHC-peptide complexes are transported to the cell surface, where they can be recognized by T cell receptors, leading to T cell activation and initiating an adaptive immune response. This process is essential for the recognition and targeting of specific pathogens by the immune system.
What are activated B cells?
Activated B cells are immune cells that have undergone a process of activation in response to an antigen, typically following interaction with helper T cells. Upon activation, these B cells proliferate and differentiate into plasma cells, which produce antibodies specific to the encountered antigen. They also form memory B cells that provide long-lasting immunity by remaining in the body to respond more rapidly upon future encounters with the same antigen. This process is essential for the adaptive immune response and the development of immunological memory.
What happens when a B cell recognize an antigen?
When a B cell recognizes an antigen, it will undergo activation and differentiation into plasma cells, which produce antibodies specific to that antigen. Some B cells may also differentiate into memory cells that provide long-lasting immunity to the antigen. This process is essential in the adaptive immune response to eliminate pathogens and prevent future infections.
What does CD 2 and 3 do for nox?
CD2 and CD3 are essential components of the T cell receptor (TCR) complex that play crucial roles in T cell activation and signaling. CD2 enhances T cell adhesion to antigen-presenting cells, while CD3 is involved in transmitting activation signals from the TCR upon antigen recognition. Together, they facilitate the activation and proliferation of T cells in response to pathogens, including during the immune response to NOx (nitrogen oxides), which can influence inflammatory processes.
What are B and T cells called that have not yet been exposed to an antigen?
B and T cells that have not yet been exposed to an antigen are referred to as "naive" cells. These cells are mature but have not yet encountered their specific antigen, which is necessary for their activation and differentiation into effector cells. Naive B cells can produce antibodies, while naive T cells can become cytotoxic T cells or helper T cells upon activation.
What is the first step in the activation of naive B cell?
The first step in the activation of naive B cells is the binding of an antigen to the B cell receptor (BCR) on the surface of the B cell. This interaction leads to receptor clustering and internalization of the antigen-BCR complex, initiating a signaling cascade that promotes B cell activation. Additionally, for optimal activation, naive B cells often require help from T helper cells, which provide necessary co-stimulatory signals and cytokines.
What area is antigen challenge and clonal selection most likely to occur?
Antigen challenge and clonal selection are most likely to occur in the secondary lymphoid organs, such as the lymph nodes and spleen. These organs are where antigens encounter immune cells, triggering an immune response and the selection of specific immune cell clones.
How do cells involved in the humoral response respond to antigen presentation on the surface of a B cell?
Helper T cells recognize the receptor-antigen complex and cause plasma and memory cells to be produced to then produce antibodies.
