HC31: HLA and autoimmunity
Communication
Communication between 2 cells takes place via surface contact. This is made possible by:
- Neurons
- Muscles
- Immune cells
Many processes use synapses to communicate. This communication is specific → HLA molecules (MHC molecules) are present on antigen-presenting cells. There are many different HLA-molecules and the T-cell receptors know exactly which molecule it is.
Myasthenia gravis
In case of myasthenia gravis (MG), there is a defect of neuro-muscular synapses where the motor neuron informs the muscle whether or not to contract. 99% of myasthenia gravis cases are caused by an auto-immune disease → develop during life. Several subtypes of myasthenia gravis exist, each caused by autoantibodies against the neuromuscular synapse.
Process:
Normally, there are 2 important signal transduction cascades in the synapse, where
vesicles with acetylcholine play an important part:
- Voltage gated calcium channels (VGCC) release acetylcholine → binds to the acetylcholine receptors on the post-synaptic membrane → depolarization
- Muscle specific kinase (MuSK) and lipoprotein-related protein 4 (Lrp4) bind acetylcholine to the receptor
- The nerve secretes argin
- Argin binds to Lrp4
- The muscle knows that there is a nerve
- Lrp4 interacts with MuSK
- Gives feedback to the nerve
- MuSK dimerizes → autophosphorylation
- A signaling cascade to the clustering acetylcholine receptor (AChR)
Myasthenia gravis is caused by acetylcholine receptors not clustering.
Symptoms:
Myasthenia gravis is characterized by fluctuating muscle weakness which improves during rest. Patients with myasthenia gravis have antibodies against AChR, MuSK or Lrp4, which cause different symptoms:
- AChR myasthenia gravis
- 80% of myasthenia cases
- Asymmetric
- One eye is more affected than the other
- Fluctuating ptosis
- Ophtalmoplegia with diplopia
- Descending weakness
- Starts in the upper body parts and slowly spreads downwards
- May ultimately affect all skeletal muscles
- MuSK myasthenia gravis
- 4% of myasthenia cases
- Asymmetric
- Bulbar weakness
- Speaking problems
- Swallowing problems
- Neck weakness
- Up to 50% have respiratory insufficiency at some point
- Lrp4 myasthenia gravis
- 2% of myasthenia cases
Epidemiology:
AChR myasthenia gravis mainly occurs in:
- Young women
- A non-tumor and early onset is more common
- Old men
- A non-tumor and late onset is more common
- A small cell lung carcinoma is more common
The disease is associated with a tumor in the thymus:
- 15% of myasthenia gravis cases are paired with a thymoma
- The thymus may also be enlarged
- 40% of thymoma cases are paired with myasthenia gravis
MuSK myasthenia gravis only occurs in women. In this case, there is no tumor-association.
Lambert-Eaton Myasthenia
4% of Myasthenia patients have Lambert-Eaton Myasthenia (LEMS). In this case, antibodies for the voltage gated calcium channels (VGCC) are present.
Symptoms:
LEMS is characterized by ascending weakness → starts in the legs and slowly spreads upwards. For instance, patients have trouble standing up without using their hands. There mainly is an autonomic dysfunction.
Epidemiology:
Similar to normal myasthenia gravis, LEMS is more common among young women and old men. It is associated with small cell lung cancer (SCLC):
- 50% of LEMS cases are paired with SCLC
- 3% of SCLC cases are paired with LEMS
- 3% of cases are also paired with neuropathy, degeneration and encephalomyelitis
Tumors and autoimmune diseases
Tumors often correlate with autoimmune diseases. Antigen presenting cells lead to an immune response → tumors express proteins present on muscles or neurons → cross react with antigens doing their normal function in the neuromuscular synapse.
Disease mechanism
The IgG subclass of autoantibodies dictates the disease mechanism:
- IgG1, IgG2 and IgG3: have 2 “arms” → can bind 2 antigens at the same time and are very easily triggered
- Are linked with AChR myasthenia gravis and LEMS
- There are 3 mechanisms that cause disease:
- Antibodies bind to the AChR on the neuromuscular synapse → activate the complement system → cause complement mediated damage and internalization of autoantigens at the neuromuscular junction → AChR are also damaged
- The 2 arms crosslink the antigens and internalize them → there aren’t sufficient receptors at the cell surface to transmit the signal anymore
- Antibodies bind to the site where acetylcholine normally binds → block acetylcholine from binding
- IgG4: has 1 arm that can bind an antigen and 1 arm that binds something else → functional motivated binding
- Is linked with MuSK myasthenia gravis
- Has >90% sequence homology with other IgG’s
- Does not bind complements and does not activate Fc receptor-mediated cytotoxicity → very anti-inflammatory
- Interacts with other IgG4’s through its heavy chain
- Undergoes Fab-arm exchange → becomes functionally monovalent
- Does not crosslink antigens → there is only 1 arm to link an antigen
- Instead of forming sulfide-bridges between heavy chains, sulfide-bridges in heavy chains are formed
- The IgG4 MuSK antibodies make the patient sick
- There are certain residues in the MuSK protein that are critical for the interaction between Lrp4 and MuSK
- Antibodies bind to Lrp4
- Lrp4 cannot bind MuSK anymore → loss of acetylcholine receptor clustering
Hereditary factors
Hereditary factors of auto-immune diseases are auto-immunity in the family and HLA-genes. These diseases are often inherited through the maternal line.
Patients with myasthenia gravis often have a second auto-immune disease:
- HLA B8-DR3 is linked with auto-immune diseases like myasthenia gravis and LEMS
- Early-onset female patients have a strong HLA association
- HLA type DR14-DQ5 is linked with MuSK myasthenia gravis
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Mechanisms of Disease 1 2020/2021 UL
- Mechanisms of Disease 1 HC1: Introduction to G2MD1
- Mechanisms of Disease 1 HC2: Introduction to the immune system
- Mechanisms of Disease 1 HC3: Innate and adaptive immune responses & key cytokines
- Mechanisms of Disease 1 HC4: Pathology of normal immune response
- Mechanisms of Disease 1 HC5: B- and T-cell generation and diversity
- Mechanisms of Disease 1 HC6: Mechanisms of adaptive immunity
- Mechanisms of Disease 1 HC7: Effector mechanisms of antibodies
- Mechanisms of Disease 1 HC8: B-cell development and antibodies
- Mechanisms of Disease 1 HC9: Tissue injury and repair
- Mechanisms of Disease 1 HC10: Repair mechanism
- Mechanisms of Disease 1 HC11: Pathology of inflammatory reactions
- Mechanisms of Disease 1 HC12: Introduction to infectious diseases
- Mechanisms of Disease 1 HC13: Bacteria
- Mechanisms of Disease 1 HC14: Viruses
- Mechanisms of Disease 1 HC15: Fungi and parasites
- Mechanisms of Disease 1 HC16: Invaders
- Mechanisms of Disease 1 HC17: Host versus invader
- Mechanisms of Disease 1 HC18: Immune deficiencies and infection risk
- Mechanisms of Disease 1 HC19: Pathology of infectious diseases
- Mechanisms of Disease 1 HC20: Diagnostics of infectious diseases
- Mechanisms of Disease 1 HC21: Essential microorganisms
- Mechanisms of Disease 1 HC extra: Mycobacterial infections (tuberculosis)
- Mechanisms of Disease 1 HC22: Antimicrobial therapy
- Mechanisms of Disease 1 HC23: Principles of antibiotic pharmacotherapy
- Mechanisms of Disease 1 HC24: Introduction MOOC
- Mechanisms of Disease 1 HC25: Epidemiology
- Mechanisms of Disease 1 HC26: Prevention and control
- Mechanisms of Disease 1 HC extra: COVID-19
- Mechanisms of Disease 1 HC27: Mechanisms of hypersensitivity reactions
- Mechanisms of disease 1 HC28: Pathology of allergy
- Mechanisms of Disease 1 HC29: Asthma
- Mechanisms of Disease 1 HC30: Pathology of autoimmunity
- Mechanisms of Disease 1 HC31: HLA and autoimmunity
- Mechanisms of Disease 1 HC32: Vasculitis
- Mechanisms of Disease 1 HC33: Systemic Lupus Erythematosus
- Mechanisms of Disease 1 HC35: Infections and autoimmunity
- Mechanisms of Disease 1 HC36: Immune cells in rheumatoid arthritis
- Mechanisms of Disease 1 HC37+38: Pharmacology: immunosuppression
- Mechanisms of Disease 1 HC39: Pathology of transplantation
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Mechanisms of Disease 1 2020/2021 UL
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