Autoimmunity Flashcards
describe autoimmunity
the presence of immune responses against tissue/cells
major cause of morbidity and mortality
can be;
harmless - low titres of auto-antibodies or auto-reactive T cells
harmful - high titres of auto-antibodies or auto-reactive T cells leading to significant tissue/organ damage and chronic inflammation
describe how the immune system deals with the presence of auto-reactive T and B cells
specific tolerance mechanisms are required;
deletion of self reactive lymphocytes in primary lymphoid tissues (central tolerance)
inactivation of self-reactive lymphocytes in peripheral tissues that escape central tolerance (peripheral tolerance)
e.g. regulatory T cells
describe Treg cells
inactivates lymphocytes
make up 5-10% normal CD4+ T cell population
crucial for suppressing hyper-reactive or auto-reactive T cells (via production of inflammatory cytokines)
describe pathogenesis of autoimmune diseases
multi-factorial diseases;
from failure of immunological tolerance - process by which immune system recognises and accepts self-tissue
develops when self-reactive lymphocytes escape from these tolerance mechanisms and become activated
describe factors contributing to autoimmune disease
genes
environment (infection, cigarette smoking, hormone levels)
immune regulation (self-tolerance)
describe how genes contribute to autoimmune disease
monogenic disorder - single gene defects causing autoimmune disease are rare = IPEX syndrome
most autoimmune diseases result from complex genetic interplay = HLA genes, genes determining sex and other immune responses genes
describe IPEX syndrome
immune dysregulation, polyendocrineopathy, enteropathy and X-linked inheritance syndrome (only males affected)
rare genetic disorder of immune dysregulation;
presents early childhood
characterised by overwhelming systemic autoimmunity
mutation in FOXP3 gene - essential for normal development of regulatory T cells
therefore, IPEX is a failure of peripheral tolerance mechanisms due to defective/absent regulatory T cells
describe symptoms and treatment for IPEX syndrome
symptoms; severe infections intractable diarrhoea eczema very early onset insulin dependant diabetes mellitus autoimmune maifestations
treatment;
cure - hematopoietic stem cell transplantation
supportive - immunosuppressive drugs and parental nutrition
describe HLA molecules
(MHC molecules) there are several HLA class I and II genes, each is highly polymorphic
all nucleated cells express several types of class I molecules on their cell surface;
HLA-A, HLA-B, HLA-C
specialised antigen-presenting cells also express additional class II molecules;
HLA-DR, HLA-DQ, HLA-DP
each individual possess 2 variants of each HLA molecule type
describe why HLA molecules display polymorphism
maintenance of diversity in antigen responsiveness at the population level and at the level of the individual;
proteins are processed into many component peptides
different HLA molecules bind to different subsets of peptides
to maximise the net ability to bind all antigenic peptides - multiple different subtypes of HLA molecules, individual HLA molecules exhibit significant allelic diversity
describe the influence of HLA molecules in autoimmune disease
predisposing HLA alleles - there is a selective presentation of disease relevant self-peptides by disposing HLA alleles
HLA genes have limited predictive value at present and so are not useful in determining disease risk of individual patients
describe sex differences in autoimmune disease
different hormonal influences on lymphocyte function in males and females
alteration of the course of some autoimmune diseases during pregnancy
people with family history
people who are around certain things in the environment
people of certain races or ethnic backgrounds
describe potential environmental influences on autoimmune disease mechanisms
altered self-antigens
molecular mimicry - infection; cross-reactivity between antigens expressed by pathogen and self
antigen sequestration - tissues do not communicate with blood or lymph, self-antigens normally sequestered from immune system can become exposed and cause autoimmune reaction during infection/trauma
super-antigens - toxic shock syndrome (staphylococcal proteins, clostridium endotoxin - re-activated auto-reactive T cells that have been inactivated by regulatory T cells)
describe classification of autoimmune diseases
- clinical classification;
organ specific diseases
non-organ specific or multi-system autoimmune diseases - pathological classification;
Gel and Coombs (hypersensitivity)
describe autoimmune responses mediated by type II hypersensitivity
kidney/lung - Goodpasture’s syndrome (antibodies bind to basement membrane)
endocrine system - Graves’ disease (antibodies bind to TSH receptor)
systemic lupus erythematosus (SLE) (target is nuclear antigens)
