15 - Immunological Tolerance & Autoimmunity

Question 1

Immune tolerance

Answer 1

The failure to mount an immune response to an antigen

Question 2

Self tolerance

Answer 2

The state in which the host immune system includes mature lymphocytes which have receptors that can recognise self antigens expressed on normal tissues of the body, but these lymphocytes do not function when self antigen is recognised

Question 3

Autoimmunity

Answer 3

Breakdown or failure of self tolerance such that lymphocytes specific for self antigen are activated

Question 4

Autoantibodies

Answer 4

Antibodies produced against self antigen

Question 5

Central tolerance

Answer 5

Immature lymphocytes specific for self antigens may encounter these antigens in the generative lymphoid organs and are deleted, change their specificity (B cells only), or (CD4 + T cells) develop into regulatory lymphocytes (Tregs)

Question 6

Peripheral tolerance

Answer 6

• Some self-reactive lymphocytes may mature and enter peripheral tissues
• Inactivated or deleted by an encounter with self antigens in these tissues or are suppressed by the regulatory T cells (Tregs)

Question 7

Autoimmune regulator protein (AIRE)

Answer 7

• Part of a complex that regulates the expression of tissue restricted antigens (TRAs) in medullary thymic epithelial cells (MTECs).
• Peptides derived from these antigens are displayed on the MTEC and recognised by immature antigen-specific T cells, leading to the deletion of many self-reactive T cells.

Question 8

Negative selection

Answer 8

Deletion

Question 9

Absence of functional AIRE

Answer 9

• Immature self reactive T cells are not eliminated
• Leads to autoimmunity

Question 10

Mechanisms of peripheral T cell tolerance

Answer 10

• Anergy (irreversible functional unresponsiveness)
• Suppression (block in activation)
• Deletion (apoptosis)

Question 11

Costimulatory molecule present in normal T cell response that is absent in self reactive responses

Answer 11

B7 (binds CD28)

Question 12

Mechanisms of T cell anergy

Answer 12

• Recognition of self antigen in absence of costimulation leads to either:
• A block in signaling from the T cell receptor (TCR) complex OR
• Engagement of inhibitory receptors

Question 13

Examples of inhibitory receptors

Answer 13

• Cytotoxic T lymphocyte antigen 4 [CTLA-4]
• Programmed cell death protein-1 [PD-1]).

Question 14

Signalling block mechanism of anergy

Answer 14

Result of recruitment of phosphatases to the TCR complex or the activation of ubiquitin ligases that degrade signaling proteins.

Question 15

GRAIL

Answer 15

• Gene Related to Anergy In Lymphocytes
• Targets components of CD3 for degradation in the proteasome, thus blocking TCR signalling and subsequent proliferation

Question 16

Mechanism of activation of CTLA-4

Answer 16

• CTLA-4 expressed on Tregs or activated T cells can inhibit the activation of responding T cells on the same APC
• OR CTLA-4 binds to B7 molecules on APCs and removes them, making the B7 costimulators unavailable to CD28 and blocking T cell activation.

Question 17

When is CTLA-4 best able to remove B7 molecules

Answer 17

When B7 levels are low, enabling CTLA-4 to outcompete the lower affinity receptor CD28

Question 18

Tregs

Answer 18

• Generated by self antigen recognition in the thymus and antigen recognition in peripheral lymphoid organs
• Require IL-2 and transcription factor FOXP3
• Suppress activation and effector functions of self reactive lymphocytes

Question 19

Central tolerance in B cells

Answer 19

• High avidity self antigen recognition: B cells die by apoptosis or change specificity of their antigen receptors (receptor editing of light chains)
• Low avidity self antigen recognition: leads to anergy of B cells

Question 20

Clonally ignorant B cells

Answer 20

• Escape central and peripheral tolerance and activated in peripheral tissues
• Basis of autoimmune disease

Question 21

Peripheral tolerance in B cells

Answer 21

B cells that encounter self antigens in peripheral tissues become anergic, die by apoptosis, or are regulated by inhibitory receptors

Question 22

Activation of clonally ignorant B cells

Answer 22

• Specific for unmethylated CpG DNA
• Unmethylated CpG DNA is enriched in cells undergoing apoptosis
• During infection, extensive cell death and inadequate clearance of apoptotic fragments can result in activation of previously ignorant self reactive B cell

Question 23

Mechanisms of T cell mediated autoimmunity

Answer 23

• Various genetic loci may confer susceptibility by influencing the maintenance of self-tolerance.
• Environmental triggers (e.g. infections, inflammatory stimuli) promote the influx of lymphocytes into tissues and the activation of self-reactive T cells, resulting in tissue injury

Question 24

Infection and autoimmunity

Answer 24

• Encounter of a mature self-reactive T cell with a self antigen presented by a costimulator-deficient APC results in peripheral tolerance by anergy
• Microbes may activate the APCs to express costimulators, therefore self-reactive T cells are activated rather than rendered tolerant.

Question 25

Molecular mimicry

Answer 25

• Cross recognition of a pathogen antigen that has similarity to self antigen
• Strong signals from microbes may activate T cells specific for self antigens

Question 26

Immunologically privileged sites

Answer 26

• Sites of body that do not induce immune responses
• Antigens from these sites leave and interact with T cells, inducing tolerance instead of activation that is destructive to tissue

Question 27

Examples of immunologically privileged site

Answer 27

• Brain
• Eyes
• Testis
• Uterus (foetus)

Question 28

Damage to immunologically privileged site

Answer 28

• Can induce autoimmune response
• Antigens expressed in IP sites can activate autoreactive lymphocytes if the encounter occurs outside of the site, in the periphery
• E.g. sympathetic opthalmia

Question 29

Autoimmune colitis

Answer 29

• CD4+CD25+ Treg inhibit colitis by migrating to the colon and mesenteric lymph nodes, where they interact with dendritic cells and hyper-reactive effector T cells
• Depletion of CD4+CD25+ Treg exacerbates or causes disease

Question 30

Example of molecular mimicry

Answer 30

• Rheumatic fever
• Occurs after sore throat or scarlet fever caused by streptococcus pyogenes
• Similarity of epitopes on Strep pyogenes and heart muscle leads to B and T cell responses against heart muscle

Question 31

Stimulation by antigens released from damaged tissue

Answer 31

• Intracellular autoantigens are targets in SLE, they are released from injured/dying cells and bind to BCR of autoreactive B cells
• B cell present peptide to autoreactive T cell which activates B cell to differentiate into plasma cell
• Anti-self antibodies produced initiate an inflammatory response and causes more cell damage, thus activating mpre autoreactive B cells

Question 32

Multiple sclerosis

Answer 32

• T cell mediated chronic neurological disease caused by destructive immune response against several brain antigens, including myelin basic protein
• Activated CD4 T cells autoreactive for brain antigens can cross the blood brain barrier and encounter their specific antigen presented by microglial cells
• Inflammation causes increased vascular permeability and the influx of T and B cells, resulting in demyelination