T cell receptor structures, rearrangement, and T cell activation and top 5 difference between T cell and B Cell receptor

T cell receptors (TCRs) are critical components of the adaptive immune system. They are responsible for recognizing antigens, which are specific molecules or fragments from pathogens (like viruses and bacteria) that trigger an immune response. Understanding TCRs is essential for grasping how T cells function in immune surveillance and response.

Imagine a battleground where microscopic soldiers are constantly on the lookout for invaders. These soldiers are not armed with traditional weapons but instead wield specialized receptors that can recognize and respond to a staggering array of threats.

Today, we’ll dive into the fascinating world of T cell receptors—these tiny but powerful tools of the immune system.

How do T cell identify a virus hiding in our cells or a bacterium lurking in our tissues?

Let’s explore the intricate dance between T cell receptors and their targets, uncovering the secrets behind our immune defense!

Structure of T Cell Receptors

  • TCRs are heterodimeric proteins, typically composed of two different chains: the alpha (α) and beta (β) chains. Some T cells, known as γδ T cells, possess gamma (γ) and delta (δ) chains instead.
  • Variable regions : The variable regions of the TCR chains (Vα and Vβ) are responsible for the specificity of antigen recognition. These regions exhibit a high degree of variability, allowing for the recognition of a vast array of antigens.
  • Constant Regions: The constant regions (Cα and Cβ) provide structural stability and are less variable.
  • Antigen Binding Site: The antigen binding site is formed by the combination of the variable regions of the α and β chains. This site is highly specific for a particular peptide-MHC (Major Histocompatibility Complex) complex.
  • Transmembrane Domain:  Each TCR has a transmembrane domain that anchors the receptor in the T cell membrane.
  • Intracellular Signaling Motifs: TCRs do not directly transmit signals into the cell. Instead, they associate with CD3 and ζ (zeta) chains, which contain immunoreceptor tyrosine-based activation motifs (ITAMs) crucial for signal transduction.

TCR Gene Rearrangement | Generation of T cell receptor diversity by genomic recombination

The diversity of TCRs arises from a process called somatic recombination during T cell development in the thymus.

Mechanism:

  • Gene Segments: The TCR genes are composed of multiple segments: V (variable), D (diversity), and J (joining) segments.
  • Recombination: Enzymes known as recombination activating genes (RAG-1 and RAG-2) facilitate the rearrangement of these gene segments, leading to the production of unique TCRs.
  • Clonal Selection: During T cell maturation, T cells with non-functional or self-reactive TCRs are eliminated, ensuring that only T cells capable of recognizing foreign antigens remain.

T cell receptor activation/ T cell receptor signaling

TCRs recognize antigens primarily in the form of peptide fragments presented by MHC molecules on the surface of antigen-presenting cells (APCs).

  • Types of MHC:
    • MHC Class I: Presents endogenous peptides (from intracellular proteins) to CD8+ cytotoxic T cells.
    • MHC Class II: Presents exogenous peptides (from extracellular proteins) to CD4+ helper T cells.
  • Interaction Process:
    • Peptide Binding: The TCR recognizes a specific peptide that is bound to an MHC molecule. This interaction is highly specific and is a key determinant of T cell activation.
    • Co-stimulation: In addition to TCR engagement, T cells require secondary signals (co-stimulatory signals) from APCs for full activation. CD28 on T cells interacts with B7 on APCs, providing the necessary co-stimulatory signal.
  • T Cell Activation:  Once a T cell recognizes its specific antigen-MHC complex and receives co-stimulatory signals, it undergoes a series of activation events:
  • Tyrosine Phosphorylation: The ITAMs in the CD3 and ζ chains become phosphorylated, initiating a signaling cascade.
  • Cytokine Production: Activated T cells produce various cytokines that mediate immune responses and further stimulate other immune cells.
  • Proliferation and Differentiation: Activated T cells proliferate and differentiate into effector T cells (e.g., cytotoxic T cells, helper T cells) and memory T cells for long-term immunity.

Difference between B cell receptor and T cell receptor

FeatureB Cell Receptors (BCRs)T Cell Receptors (TCRs)
StructureMembrane-bound immunoglobulins (antibodies) consisting of two heavy and two light chains; can also be secreted as antibodiesHeterodimeric proteins made up of an alpha (α) and a beta (β) chain; no secreted form
Antigen RecognitionBind directly to free-floating antigens (proteins, carbohydrates, lipids) in their native formRecognize processed peptides presented on MHC molecules; only bind linear peptide sequences
Types of CellsFound on B lymphocytes; responsible for humoral immune responseFound on T lymphocytes (CD4+ helper and CD8+ cytotoxic T cells); crucial for cell-mediated immunity
Activation MechanismsRequires two signals: binding of BCR to antigen and additional signals from T helper cells (e.g., CD40/CD40L interaction)Requires recognition of peptide-MHC complex by TCR and co-stimulatory signals (e.g., CD28 binding to B7)
Response to AntigenProliferate and differentiate into plasma cells (secreting antibodies) and memory B cells for long-term immunityProliferate and differentiate into effector cells (e.g., cytotoxic T cells, helper T cells) and memory T cells
Function in ImmunityProduce antibodies that neutralize pathogens, facilitate opsonization, and activate complementRecognize and eliminate infected or cancerous cells; help orchestrate immune responses and assist B cells
Table showing list of difference between T cell and B cell receptors.

Thus, the T cell receptors are essential for the adaptive immune response, enabling T cells to recognize and respond to a diverse range of pathogens. Understanding the structure, function, and signaling pathways associated with TCRs is vital for developing immunotherapies and vaccines.

What is a T cell receptor?

A T cell receptor (TCR) is a protein on the surface of T cells that recognizes and binds to specific antigens presented by Major Histocompatibility Complex (MHC) molecules on antigen-presenting cells (APCs).

On which cell type is the T cell receptor located?

The T cell receptor is located on T lymphocytes, which include helper T cells and cytotoxic T cells.

How is a T cell receptor different from a B cell receptor?

A T cell receptor recognizes processed peptide antigens presented by MHC molecules, while a B cell receptor can bind directly to free-floating antigens in their native form.

Which receptor on the helper T cell recognizes the specific antigen from an antigen-presenting cell?

The T cell receptor (TCR) on the helper T cell recognizes the specific peptide-MHC complex on the antigen-presenting cell.

What is T cell receptor function.

The main function of the T cell receptor is to recognize and bind to specific antigens presented by MHC molecules, initiating T cell activation and triggering an immune response.

What are the components of the T cell receptor?

The T cell receptor is composed of two chains: an alpha (α) chain and a beta (β) chain, which form a binding site for the antigen, and associated CD3 and ζ (zeta) chains that are involved in signaling.

What activates T cell receptors?

T cell receptors are activated when they bind to a specific peptide-MHC complex on an antigen-presenting cell, accompanied by additional co-stimulatory signals.

References

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