IMSE311 Week 4 PDF - T Cell Maturation

Summary

This document provides an overview of T cell maturation, including the stages, factors, and processes involved. It also discusses activated T cells, memory cells and the role of antigens. The document is part of an immunology lecture from Our Lady of Fatima University.

Full Transcript

IMSE LEC: Week 04 - How T Cell Matures and what it produces

T Cell Maturation

❖ Bone: Lymphocyte precursor
❖ Thymus: thymocytes
❖ 60-80% of T cells in the blood
❖ Maturation is 3 weeks
❖ Growth factors: (stromal cells)
Epithelial cells
Macrophages
Fibroblasts
Dendritic cells
IL7
❖ 97% dies

Double-Negative Stage
❖ DN thymocytes
❖ Lack CD4 and CD8 antigens
❖ Markers: CD2, CD5, CD7, CD45R
❖ Rearrangement of the genes that code
for the antigen receptor - T-cell receptor
(TCR) begins at this stage
Antigen diversity
TCR = 2 + 6 other chains
 Markers: both Cd4 and CD8 antigens on their surface as well as CD3-ab (TCR)
Main function: rearrange the genes for alpha chain
Positive Selection:
○ Only with functional TCR receptor
○ Must recognize foreign antigen and MHC molecule
MHC Restriction
○ Apoptosis: low or high affinity
Negative Selection:
○ corticomedullary region and medulla
○ Takes place among the surviving DP T cells
○ Strong reactions with self- peptides other than MHC antigens triggers apoptosis
○ clonal deletion

Mature T cell
Represents those population of thymocytes that had survived positive and negative
selection
Express only 1 of either CD4 or CD8 on their surface
12 days in medulla
released from the thymus to seed peripheral lymphoid organs and recirculate through
the bloodstream and peripheral organs approximately once every 12 to 24 hours.

IMSE311-Lec: Mr. Hanzel Tolentino
Razon, Christ Audrey Jhoy R. BSMLS 3-Y1-6
Mature T Cell
❖ 2/3 is CD4+ :
❖ Th1:
produces interferon gamma (IFN-γ), interleukin2 (IL-2), and tumor necrosis
factor-β (TNF-β)
activates cytotoxic lymphocytes and macrophages
❖ Th2:
produces IL-4, IL-5, IL-6, IL-9, IL-10, and IL-13
Help B cells produce antibodies against extracellular pathogens
Regulate B-cell activity
❖ Treg
Markers: CD4 and CD25;5% of CD4+ cells
Suppresses immune response to self-antigens

Activated T Cell
❖ When antigen recognition occurs in the secondary lymphoid tissue, T lymphocytes are
activated and differentiate into functionally active small lymphocytes that produce
cytokines
❖ Express receptors for IL-2
❖ Takes 1-2 days
❖ Cytokines functions include:
Assist B cells
Killing of tumor and target cells
Rejection of graft
Stimulation of hematopoiesis
Initiation of hypersensitivity
1.Interleukins
2.Tumor Necrosis Factor (TNF)
3.Chemokine
4.Transforming growth factor (TGF)
5. Interferon (IFN)
6.Colony stimulating factor (CSF)

T Memory Cells
❖ Larger than T and B cells
❖ Contains a kidney shaped nucleus with condensed chromatin and prominent nucleoli.
❖ Has high cytoplasmic: nuclear ratio
❖ Cytoplasm has many azurophilic granules
❖ No specific surface markers
❖ Possess CD16, CD56, CD94
❖ Lack CD3, CD4, and CD8
❖ Play a complementary role to CD8+ T cells

IMSE311-Lec: Mr. Hanzel Tolentino
Razon, Christ Audrey Jhoy R. BSMLS 3-Y1-6
ANTIGEN

❖ A foreign substance
❖ A substance that reacts with antibody to sensitized cells but may or may not provoke an
immune response
❖ substances that react with antibodies
❖ Foreign substances can be immunogenic or antigenic.
❖ Epitope

IMMUNOGEN

❖ A macromolecule capable of eliciting the formation of immunoglobulins or sensitized
cells in an immunocompetent host
❖ a foreign substance that induces a specific immune response.

Factors Influencing Immune Response
1.Age 4.Health status of the host
2.Dose 5. Genetics
3.Route of inoculation

An Immunogen
1. Foreignness
The immune system normally discriminates between self and non-self such that only
foreign molecules are immunogenic.
2. Size
10K daltons
100k daltons
the larger the molecule the more immunogenic it is likely to be.
3. Chemical composition
In general, the more complex the substance chemically the more immunogenic it will be.
Proteins > Carbohydrates > lipids
4. the ability to be processed and presented with MHC molecules

TYPES OF ANTIGEN
Alloantigens
→ other members of the host’s species
Autoantigens
→ antigens that belong to the host
Heteroantigens
→ from other species
Heterophile Antigen
→ antigens that are found in different species but are structurally similar enough to be
recognized by the same antibody

IMSE311-Lec: Mr. Hanzel Tolentino
Razon, Christ Audrey Jhoy R. BSMLS 3-Y1-6
 → antigens are typically not species-specific; heterophile antigen from one organism
may cross-react with an antigen from a different organism
❖ Example: basis for the Paul-Bunnell or Monospot test:
used to diagnose infectious mononucleosis.
the body’s immune system produces heterophile antibodies, Epstein-Barr virus
(EBV), RBC of sheep or horse

HAPTENS
❖ They cannot do agglutination or precipitation

Adjuvants
❖ Only vaccine adjuvants currently licensed by the FDA are Aluminum
Salts
❖ Helps Antigen Presenting Cells
❖ Protects Immunogen from degradation
❖ Increases size of immunogen/antigen

MHC Molecule
Main function: Bring antigen to the surface of cells for recognition of t cells

T-cell activation will only occur when combined with mhc molecule
major histocompatibility complex (MHC)
is a genetic region, whose products play a role in intracellular recognition and in
discrimination between self and non self.
Encoded by genes called MHC
found on surfaces of cells in the body
Determine whether transplanted tissue is histocompatible or recognized as foreign
Glycoprotein component of cell membrane
In humans, it is referred to as Human Leukocyte Antigen (HLA)
Has three (3) major classes

IMSE311-Lec: Mr. Hanzel Tolentino
Razon, Christ Audrey Jhoy R. BSMLS 3-Y1-6
 Present on all nucleated cells
Highest on lymphocyte, low or undetected on liver
hepatocytes, neural cells, muscle cells and sperm
Binds to endogenous antigen
Presents to CD8+ cells
Locus: A,B,C
Chain structure:
-chain and β2 microglobulin

Found primarily on antigen-presenting cells
Lymphocytes, monocytes, macrophages and dendritic cells,
neutrophils
Binds to antigen found on the surface of the cell
Presents to CD4+ cells
Locus: DP, DQ, DR
Chain structure:
-chain and β chain

IMSE311-Lec: Mr. Hanzel Tolentino
Razon, Christ Audrey Jhoy R. BSMLS 3-Y1-6
IMSE311-Lec: Mr. Hanzel Tolentino
Razon, Christ Audrey Jhoy R. BSMLS 3-Y1-6