T Lymphocytes
Author: V. Dimov, M.D., Allergist/Immunologist and Assistant Professor at University of Chicago
Reviewer: S. Randhawa, M.D., Allergist/Immunologist and Assistant Professor at LSU (Shreveport) Department of Allergy and Immunology
T cells are derived from pluripotent hematopoietic stem cells (CD34+) which migrate from the bone marrow to the thymus.
Blood cell lineage. Image source: Wikipedia.
Mnemonic:
Stem cell CD34+
Plasma cell CD 38+
B cells can bind free antigen but T cells cannot. They can recognize an antigen only when it is bound and presented by antigen-presenting cells (APC) via MHC molecules.
Antigen presentation stimulates T cells to become either "cytotoxic" CD8+ cells or "helper" CD4+ cells. Image source: Wikipedia.
In this video, a T cell becomes activated when it interacts with a dedritic cell. This video is from: Janeway's Immunobiology, 7th Edition Murphy, Travers, & Walport. Source: Garland Science.
Antigen
An antigen is a molecule that is recognized by the immune system - [anti]body [gen]erator.
Superantigen is an antigen that activates a large number of polyclonal T lymphocytes. Superantigens bind to the Vβ chain of the T cell receptor (TCR) bypassing the need for MCH.
Different antigens according to their structure
- Proteins are excellent immunogens, they are "classic" antigens and are T-cell-dependent antigens. Vaccines which are protein based antigens include diphtheria and tetanus.
- Polysaccharides are T-cell-independent antigens. Meningococcal and 23-valent pneumococcal vaccines are examples of T-cell independent antigens
- Nucleic acids - DNA and RNA
- Lipids - MHC-like CD1 molecules bind lipid antigens that are recognized by natural killer T lymphocytes (NKT cells) and γδ T lymphocytes. NKT cells express NK cell and T lymphocytes markers. NKT cells recognize lipids in the context of CD-1.
MHC Genome
Genes that encode MHC molecules are located on the short arm of chromosome 6. The β2 microglobulin chain (part of MCH I) is encoded on chromosome 15.
Bare lymphocyte syndromes include MHC class I and MHC class II deficiencies. These are primary immune deficiency disorders (PIDD) due to a lack of expression of either MHC I or MHC II. MHC class I deficiency leads to CD8 lymphopenia. MHC class II deficiency leads to CD4 lymphopenia.
The thymus plays a major role in T cells development and selecting which of the T cells entering the thymus will leave "alive." This process is called thymic education. The extreme selectivity of the thymus education is underlined by the fact that 95% of entering stem cells are eliminated within the thymus, never to become circulating T cells.
Intrathymic T Cell Differentiation. Image source: Wikipedia.
After pre-T cells enter the thymus, they first attempt to rearrange their T cell receptor (TCR) genes. This process is mediated by the same genes used by B cells to rearrange the DNA for immunoglobulins: recombination activating genes (RAG1, RAG2).
Gene Recombination. This video shows how gene recombination affects immunoglobulins. This video is from: Janeway's Immunobiology, 7th Edition Murphy, Travers, & Walport. Source: Garland Science.
The two chains of the T cell receptor. Image source: Wikipedia.
Thymic epthelial cells express MHC molecules interact with the surviving T-cells (triple-positive, CD4+/CD8+/TCR+). MHC class II molecules bind to CD4+/CD8- T cells. MHC class I molecules bind to CD8+/CD4- T cells. This relationship is remembered by the mnemonic 2 x 4=8 and 1 X 8 = 8, the final result is always 8, 2 is MHC II, 1 is MHC II, 4 is CD4, 8 is CD8.
Molecular association of CD8+ T cells with MHC class I and CD4+ T cells with MHC class II. Image source: Wikipedia.
During thymic education, T cells variously express cell surface molecules which may be lost during the development and not present on mature cells. One such molecule is common ALL antigen (CALLA). Acute lymphoblastic leukemia (ALL) T cells express the early T-cell marker CD10 (CALLA) which is absent on normal mature T cells.
MHC mnemonic
I
1 letter HLA: ABC
1 polypeptide chain MHC (alpha and beta-2 microgobulin)
II
2 letters HLA: DP, DQ, DR
2 polypeptide chains MHC (alpha and beta)
Bare lymphocyte syndromes include MHC class I and MHC class II deficiencies. These are primary immune deficiency disorders (PIDD) due to a lack of expression of either MHC I or MHC II.
Subsets of T-Cells
CD4 T Cells
CD4 T cells make 60% of circulating T cells. CD4 T cells are cytokine-secreting helper cells. They recognize antigens only through MHC II -- the antigen has to be ingested and degraded by antigen-presenting cells (APC) and presented on the cell surface via MHC II molecules.
Schematic representation of MHC class II. Image source: Wikipedia.
MHC Class II Processing. This video describes the assembly of MHC Class II molecules. This video is from: Janeway's Immunobiology, 7th Edition, Murphy, Travers, & Walport. Source: Garland Science.
The CD4 molecule is a protein of the immunoglobulin superfamily. The HIV virus binds to CD4 via its gp120 and therefore is has a special predilection for infecting CD4 cells.
Diagram of HIV. Image source: Wikipedia.
CD4/CD8 ratio is a sensitive marker to predict HIV infection in infants. Shearer et al. analyzed HIV-exposed infants and found that a CD4/CD8 ratio of 1.8 or less at 3 months of age was more sensitive than CD4+ T-cell counts to predict HIV infection. This finding may be useful to help HIV diagnosis in poorer countries without access to virology laboratories.
Th1 and Th2 Cells
CD4 helpers are divided into Th1 and Th2 subsets. The differentiation into Th1 or Th2 is driven by cytokines (IL2, IL4) which upregulate STAT molecules (signal transducers and activators of transcription).
Th1
Th1 cells participate in cell-mediated immunity (delayed type hypersensitivity reactions and killing of intracellular
pathogens), autoimmune diseases (e.g. RA, MS).
Th2
Th2 cells participate in humoral immunity via activation of B cells. They play an important role in allergic inflammation (e.g. asthma, allergic rhinitis) via activation of mast cells andeosinophils. Th1/Th2 bias is a term which describes whether Th1 or Th2 response is predominant.
Th
I
Infection
Intracellular pathogens
Immune diseases, i.e. autoimmune diseases
Inflammatory bowel disease (IBD)
Th2
Antibodies, i.e. humoral immunity
Allergy
Asthma
Allergic rhinitis
Th1 and Th2 subsets (mind map)
Early childhood immunizations have been viewed as promoters of asthma by:
- stimulating a TH2-type immune response
- decreasing "microbial pressure," thus shifting the balance between TH1 and TH2 immunity
Number of CD4 T cells /mcL is different in children and adults
Adults, older than 18 years
More than 500
Children - depends on age
0-1 year
More than 1500
1-5 year
More than 1000
6-12 year
More than 500
The hygiene hypothesis
Decreased atopic sensitization associated with living in a farm was explored by studying bacteria found in cowsheds. Acinetobacter lwoffii and Lactococcus lactis shifted the immune response toward the secretion of TH1 cytokines in a murine model. One begins to wonder if biotherapy with bacterial extracts would be in the future of studies of allergy prevention.
CD8 T Cells
CD8 T cells make 30% of circulating T cells. CD8 T cells are cytotoxic and are often called cytotoxic T lymphocytes (CTLs). CD8 CTLs kill target cells which have been altered by infection or malignancy.
CTLs and natural killer (NK) cells use 2 similar mechanisms to kill target cells:
- granule-associated serine esterases (granzymes)
- pore-forming proteins (perforins)
Antigen recognition by CD8 T cells is class I restricted as opposed to recognition by CD4 cells which is class II restricted.
Schematic representation of MHC class I. Image source: Wikipedia.
MHC Class I Processing. This video describes the assembly of MHC Class I molecules. This video is from: Janeway's Immunobiology, 7th Edition, Murphy, Travers, & Walport. Source: Garland Science.
CD8 may act as suppressor cells which downregulate immune responses. The CD8 molecule is a protein of the immunoglobulin superfamily (similar to CD4 molecule). Some scientists classify the suppressor cells in a different subsets of T cells called regulatory cells (see below).
T Cell Granule Release. This video describes how cytotoxic T cells release granules in response to an antigen on a target cell. This video is from: Janeway's Immunobiology, 7th Edition, Murphy, Travers, & Walport. Source: Garland Science.
Regulatory T cells
Formerly known as suppressor T cells (see above). T regulatory cells (T-regs) express CD4, CD25 and FOXP3.
FOXP3 (forkhead box P3) functions as the master regulator in the development and function of regulatory T cells. FOX (forkhead box) proteins are a family of transcription factors that play important roles in regulating the expression of genes involved in cell growth, proliferation, differentiation, and longevity. The fork head domain is a type of protein domain which is often found in transcription factors and whose purpose is to bind DNA.
CD25 is interleukin-2 receptor alpha chain (IL-2Ra). The IL-2 receptor (IL-2R) was the first interleukin receptor to be described and characterized. Daclizumab (Zenapax) is a humanized monoclonal antibody to the alpha subunit of the IL-2 receptor of T cells (anti-IL2Ra). It is used to prevent rejection in organ transplantation, especially in kidney transplants.
Naïve T cells
Naïve T cells are cells which have not yet encountered their cognate antigen, as opposed to mature CD4, CD8 cells and memory cells.
Memory T cells
When naïve T cells encounter their specific antigen, they activate and may become memory T cells. These cells repeatedly return to the site where they initially became activated during recirculation (a process called homing). Memory T cells survive for decades awaiting repeat encounters with their antigen. In a sense, memory T cells remeber the antigen they first encountered and the place of the encounter for life. It must have been a very memorable event in their lives.
Natural Killer T cells (NKT)
Natural killer T (NKT) cells are a heterogeneous group of T cells that share properties of both T cells and natural killer (NK) cells. NKT cells should not be confused with natural killer (NK) cells. NKT cells express NK cell and T lymphocytes markers. NKT cells recognize lipids in the context of CD-1.
Gamma/delta T cells (γδ)
Gamma/delta T cells make 5% of the circulating T cells and have a distinct T cell receptor (TCR) on their surface which is different in structure from the other T-cells. The majority of T cells have a TCR made of 2 glycoprotein chains called α- and β- TCR chains. In contrast, the TCR of γδ T cells is made up of one γ-chain and one δ-chain, hence the name gamma/delta T cells.
T-cell receptor complex with TCR-α and TCR-β chains. Image source: Wikipedia.
This video describes the cellular signaling that takes place with the T cell receptor. This video is from: Janeway's Immunobiology, 7th Edition Murphy, Travers, & Walport. Source: Garland Science.
The first event following the TCR ligation (binding) is the activation of Src kinases - autoinhibitory loop.
CD45 phosphorylation in TCR signaling is of early and key importance. CD45 and ZAP70 defects cause SCID.
ZAP70
ZAP 70 binds to the Zeta chain (CD247) of the T-cell receptor.
Z
ZAP-70
Zeta-chain-associated protein kinase 70 (70 is the molecular weight in kDa)
ZAP70 deficiency is a form of SCID (T-/B+/NK+), one of the few SCID forms with palpable LN.
The mnemonic for different T-cell subtypes is FERMNN G ("pheromon G"):
Four, CD4, helper cells (Th1 and Th2)
Eight, CD8, killer cells
Regulatory, formerly known as suppressors (CD4/CD25/FOXP3)
Memory
Naïve T cells
Natural Killer T cells (N-KT)
Gamma/delta T cells (γδ)
Mind map of the 7 different T-cell subtypes remembered by the mnemonic FERMNN G
T cell activation. Image source: Wikipedia.
Surface Markers
CD25 (IL-2Ra) and CD3 are found on all T cells.
CD28 is present on T cells and binds to CD80/86 on dendritic cells.
CD19 and CD20 are found on B cells.
CD16 are found on natural killer (NK) and NK-T cells. CD16 is a receptor for IgG.
IL-7 activates naive T cells. BAF activates naive B cells.
Mnemonics
CDs on Different Cells
T cells have CD 3, 4 and 8 (double, 4 x 2)
B cells have CD 19, 20 and 40 (double 20 x 2)
Surface Markers
L
Ligands on
Lymphocytes
CD40L on T helpers (CD4+)
FAS-L on CTL 9CD8+)
CD40 on B cells
FAS ("death signal") on cells to be killed by CTLs
MHC
MHC class II molecules bind to CD4+/CD8- T cells. MHC class I molecules bind to CD8+/CD4- T cells. This relationship is remembered by the mnemonic 2 x 4=8 and 1 X 8 = 8, the final result is always 8, 2 is MHC II, 1 is MHC II, 4 is CD4, 8 is CD8.
MHC numbers: 2, 4, 8, 16
MHC2 x CD4 = 8 - MHC2 binds best 16 amino acid-long peptides (11-30)
MHC1 x CD8 = 8 - MHC2 binds best 8 amino acid-long peptides (8-10)
MHC Genes
MHC I - genes ABC
MHC II - genes D, again alphabetical - DP, DQ, DR
Both on chromosome 6
I......II
ABCD PQR
References
Allergy and Immunology MKSAP, 3rd edition.
Delay in diphtheria, pertussis, tetanus vaccination is associated with a reduced risk of childhood asthma. JACI, Volume 121, Issue 3, Pages 626-631 (March 2008).
CD4/CD8 ratio predicts infection in HIV infants: the National Heart, Lung and Blood Institute P2C2 study. Shearer et al. J Allergy Clin Immunol 120. 1449-1452.2007.
Advances in basic and clinical immunology in 2007. Journal of Allergy and Clinical Immunology - Volume 122, Issue 1 (July 2008).
Related Reading
Medical Immunology Syllabus. Columbia University.
FIT Corner Q & A from 5th edition of Cellular and Molecular Immunology, edited by Abul K. Abbas and Andrew H. Lichtman. ACAAI, 2004.
Fork head domain. Wikipedia, 2009.
FOX proteins. Wikipedia, 2009.
FOXP3. Wikipedia, 2009.
Published: 12/15/2007
Updated: 07/22/2010
Subsets of T-Cells
CD4 T Cells
CD4 T cells make 60% of circulating T cells. CD4 T cells are cytokine-secreting helper cells. They recognize antigens only through MHC II -- the antigen has to be ingested and degraded by antigen-presenting cells (APC) and presented on the cell surface via MHC II molecules.
Schematic representation of MHC class II. Image source: Wikipedia.
MHC Class II Processing. This video describes the assembly of MHC Class II molecules. This video is from: Janeway's Immunobiology, 7th Edition, Murphy, Travers, & Walport. Source: Garland Science.
The CD4 molecule is a protein of the immunoglobulin superfamily. The HIV virus binds to CD4 via its gp120 and therefore is has a special predilection for infecting CD4 cells.
Diagram of HIV. Image source: Wikipedia.
CD4/CD8 ratio is a sensitive marker to predict HIV infection in infants. Shearer et al. analyzed HIV-exposed infants and found that a CD4/CD8 ratio of 1.8 or less at 3 months of age was more sensitive than CD4+ T-cell counts to predict HIV infection. This finding may be useful to help HIV diagnosis in poorer countries without access to virology laboratories.
Th1 and Th2 Cells
CD4 helpers are divided into Th1 and Th2 subsets. The differentiation into Th1 or Th2 is driven by cytokines (IL2, IL4) which upregulate STAT molecules (signal transducers and activators of transcription).
Th1
Th1 cells participate in cell-mediated immunity (delayed type hypersensitivity reactions and killing of intracellular
pathogens), autoimmune diseases (e.g. RA, MS).
Th2
Th2 cells participate in humoral immunity via activation of B cells. They play an important role in allergic inflammation (e.g. asthma, allergic rhinitis) via activation of mast cells andeosinophils. Th1/Th2 bias is a term which describes whether Th1 or Th2 response is predominant.
Th
I
Infection
Intracellular pathogens
Immune diseases, i.e. autoimmune diseases
Inflammatory bowel disease (IBD)
Th2
Antibodies, i.e. humoral immunity
Allergy
Asthma
Allergic rhinitis
Th1 and Th2 subsets (mind map)
Early childhood immunizations have been viewed as promoters of asthma by:
- stimulating a TH2-type immune response
- decreasing "microbial pressure," thus shifting the balance between TH1 and TH2 immunity
Number of CD4 T cells /mcL is different in children and adults
Adults, older than 18 years
More than 500
Children - depends on age
0-1 year
More than 1500
1-5 year
More than 1000
6-12 year
More than 500
The hygiene hypothesis
Decreased atopic sensitization associated with living in a farm was explored by studying bacteria found in cowsheds. Acinetobacter lwoffii and Lactococcus lactis shifted the immune response toward the secretion of TH1 cytokines in a murine model. One begins to wonder if biotherapy with bacterial extracts would be in the future of studies of allergy prevention.
CD8 T Cells
CD8 T cells make 30% of circulating T cells. CD8 T cells are cytotoxic and are often called cytotoxic T lymphocytes (CTLs). CD8 CTLs kill target cells which have been altered by infection or malignancy.
CTLs and natural killer (NK) cells use 2 similar mechanisms to kill target cells:
- granule-associated serine esterases (granzymes)
- pore-forming proteins (perforins)
Antigen recognition by CD8 T cells is class I restricted as opposed to recognition by CD4 cells which is class II restricted.
Schematic representation of MHC class I. Image source: Wikipedia.
MHC Class I Processing. This video describes the assembly of MHC Class I molecules. This video is from: Janeway's Immunobiology, 7th Edition, Murphy, Travers, & Walport. Source: Garland Science.
CD8 may act as suppressor cells which downregulate immune responses. The CD8 molecule is a protein of the immunoglobulin superfamily (similar to CD4 molecule). Some scientists classify the suppressor cells in a different subsets of T cells called regulatory cells (see below).
T Cell Granule Release. This video describes how cytotoxic T cells release granules in response to an antigen on a target cell. This video is from: Janeway's Immunobiology, 7th Edition, Murphy, Travers, & Walport. Source: Garland Science.
Regulatory T cells
Formerly known as suppressor T cells (see above). T regulatory cells (T-regs) express CD4, CD25 and FOXP3.
FOXP3 (forkhead box P3) functions as the master regulator in the development and function of regulatory T cells. FOX (forkhead box) proteins are a family of transcription factors that play important roles in regulating the expression of genes involved in cell growth, proliferation, differentiation, and longevity. The fork head domain is a type of protein domain which is often found in transcription factors and whose purpose is to bind DNA.
CD25 is interleukin-2 receptor alpha chain (IL-2Ra). The IL-2 receptor (IL-2R) was the first interleukin receptor to be described and characterized. Daclizumab (Zenapax) is a humanized monoclonal antibody to the alpha subunit of the IL-2 receptor of T cells (anti-IL2Ra). It is used to prevent rejection in organ transplantation, especially in kidney transplants.
Naïve T cells
Naïve T cells are cells which have not yet encountered their cognate antigen, as opposed to mature CD4, CD8 cells and memory cells.
Memory T cells
When naïve T cells encounter their specific antigen, they activate and may become memory T cells. These cells repeatedly return to the site where they initially became activated during recirculation (a process called homing). Memory T cells survive for decades awaiting repeat encounters with their antigen. In a sense, memory T cells remeber the antigen they first encountered and the place of the encounter for life. It must have been a very memorable event in their lives.
Natural Killer T cells (NKT)
Natural killer T (NKT) cells are a heterogeneous group of T cells that share properties of both T cells and natural killer (NK) cells. NKT cells should not be confused with natural killer (NK) cells. NKT cells express NK cell and T lymphocytes markers. NKT cells recognize lipids in the context of CD-1.
Gamma/delta T cells (γδ)
Gamma/delta T cells make 5% of the circulating T cells and have a distinct T cell receptor (TCR) on their surface which is different in structure from the other T-cells. The majority of T cells have a TCR made of 2 glycoprotein chains called α- and β- TCR chains. In contrast, the TCR of γδ T cells is made up of one γ-chain and one δ-chain, hence the name gamma/delta T cells.
T-cell receptor complex with TCR-α and TCR-β chains. Image source: Wikipedia.
This video describes the cellular signaling that takes place with the T cell receptor. This video is from: Janeway's Immunobiology, 7th Edition Murphy, Travers, & Walport. Source: Garland Science.
The first event following the TCR ligation (binding) is the activation of Src kinases - autoinhibitory loop.
CD45 phosphorylation in TCR signaling is of early and key importance. CD45 and ZAP70 defects cause SCID.
ZAP70
ZAP 70 binds to the Zeta chain (CD247) of the T-cell receptor.
Z
ZAP-70
Zeta-chain-associated protein kinase 70 (70 is the molecular weight in kDa)
ZAP70 deficiency is a form of SCID (T-/B+/NK+), one of the few SCID forms with palpable LN.
The mnemonic for different T-cell subtypes is FERMNN G ("pheromon G"):
Four, CD4, helper cells (Th1 and Th2)
Eight, CD8, killer cells
Regulatory, formerly known as suppressors (CD4/CD25/FOXP3)
Memory
Naïve T cells
Natural Killer T cells (N-KT)
Gamma/delta T cells (γδ)
Mind map of the 7 different T-cell subtypes remembered by the mnemonic FERMNN G
T cell activation. Image source: Wikipedia.
Surface Markers
CD25 (IL-2Ra) and CD3 are found on all T cells.
CD28 is present on T cells and binds to CD80/86 on dendritic cells.
CD19 and CD20 are found on B cells.
CD16 are found on natural killer (NK) and NK-T cells. CD16 is a receptor for IgG.
IL-7 activates naive T cells. BAF activates naive B cells.
Mnemonics
CDs on Different Cells
T cells have CD 3, 4 and 8 (double, 4 x 2)
B cells have CD 19, 20 and 40 (double 20 x 2)
Surface Markers
L
Ligands on
Lymphocytes
CD40L on T helpers (CD4+)
FAS-L on CTL 9CD8+)
CD40 on B cells
FAS ("death signal") on cells to be killed by CTLs
MHC
MHC class II molecules bind to CD4+/CD8- T cells. MHC class I molecules bind to CD8+/CD4- T cells. This relationship is remembered by the mnemonic 2 x 4=8 and 1 X 8 = 8, the final result is always 8, 2 is MHC II, 1 is MHC II, 4 is CD4, 8 is CD8.
MHC numbers: 2, 4, 8, 16
MHC2 x CD4 = 8 - MHC2 binds best 16 amino acid-long peptides (11-30)
MHC1 x CD8 = 8 - MHC2 binds best 8 amino acid-long peptides (8-10)
MHC Genes
MHC I - genes ABC
MHC II - genes D, again alphabetical - DP, DQ, DR
Both on chromosome 6
I......II
ABCD PQR
References
Allergy and Immunology MKSAP, 3rd edition.
Delay in diphtheria, pertussis, tetanus vaccination is associated with a reduced risk of childhood asthma. JACI, Volume 121, Issue 3, Pages 626-631 (March 2008).
CD4/CD8 ratio predicts infection in HIV infants: the National Heart, Lung and Blood Institute P2C2 study. Shearer et al. J Allergy Clin Immunol 120. 1449-1452.2007.
Advances in basic and clinical immunology in 2007. Journal of Allergy and Clinical Immunology - Volume 122, Issue 1 (July 2008).
Related Reading
Medical Immunology Syllabus. Columbia University.
FIT Corner Q & A from 5th edition of Cellular and Molecular Immunology, edited by Abul K. Abbas and Andrew H. Lichtman. ACAAI, 2004.
Fork head domain. Wikipedia, 2009.
FOX proteins. Wikipedia, 2009.
FOXP3. Wikipedia, 2009.
Published: 12/15/2007
Updated: 07/22/2010
Labels: Immunology, Notes
1 Comments:
Please check in the section 'surface markers', CD 19 and CD20 are present on all B cells. CD21 are present on mature B cells.
Shahid
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