Genetic factors Certain individuals are genetically susceptible to developing autoimmune diseases. This susceptibility is associated with multiple genes plus other risk factors. Genetically predisposed individuals do not always develop autoimmune diseases. Three main sets of genes are suspected in many autoimmune diseases. These genes are related to: •
Immunoglobulins •
T-cell receptors • The
major histocompatibility complexes (MHC). The first two, which are involved in the recognition of antigens, are inherently variable and susceptible to recombination. These variations enable the immune system to respond to a very wide variety of invaders, but may also give rise to
lymphocytes capable of self-reactivity. • HLA DR2 is strongly positively correlated with
systemic lupus erythematosus,
narcolepsy and
multiple sclerosis, and negatively correlated with DM Type 1. • HLA DR3 is correlated strongly with
Sjögren syndrome,
myasthenia gravis,
lupus erythematosus, and
type 1 diabetes mellitus. • HLA DR4 is correlated with the genesis of
rheumatoid arthritis, type 1 diabetes mellitus, and
pemphigus vulgaris. Fewer correlations exist with MHC class I molecules. The most notable and consistent is the association between HLA B27 and spondyloarthropathies like
ankylosing spondylitis and
reactive arthritis. Correlations may exist between
polymorphisms within class II MHC promoters and autoimmune disease. The contributions of genes outside the MHC complex remain the subject of research, in animal models of disease (Linda Wicker's extensive genetic studies of diabetes in the NOD mouse), and in patients (Brian Kotzin's linkage analysis of susceptibility to
lupus erythematosus). In recent studies, the gene
PTPN22 has emerged as a significant factor linked to various autoimmune diseases, such as Type I diabetes, rheumatoid arthritis, systemic lupus erythematosus, Hashimoto's thyroiditis, Graves' disease, Addison's disease, Myasthenia Gravis, vitiligo, systemic sclerosis, juvenile idiopathic arthritis, and psoriatic arthritis. PTPN22 is involved in regulating the activity of immune cells, and so variations in this gene can lead to dysregulation of the immune response, making individuals more susceptible to autoimmune diseases.
Existential Factors (a.k.a Endogenous Environmental) Sex Most autoimmune diseases are
sex-related; as a whole, women are much more likely to develop autoimmune disease than men. Being female is the single greatest risk factor for developing autoimmune disease than any other genetic or environmental risk factor yet discovered. Autoimmune conditions overrepresented in women include:
lupus,
primary biliary cholangitis,
Graves' disease,
Hashimoto's thyroiditis, and
multiple sclerosis, among many others. A few autoimmune diseases that men are just as or more likely to develop as women include:
ankylosing spondylitis,
type 1 diabetes mellitus,
granulomatosis with polyangiitis,
primary sclerosing cholangitis, and
psoriasis. The reasons for the sex role in autoimmunity vary. Women appear to generally mount larger inflammatory responses than men when their immune systems are triggered, increasing the risk of autoimmunity. Involvement of
sex steroids is indicated by that many autoimmune diseases tend to fluctuate in accordance with hormonal changes, for example: during pregnancy, in the menstrual cycle, or when using oral contraception. A history of pregnancy also appears to leave a persistent increased risk for autoimmune disease. It has been suggested that the slight, direct exchange of cells between mothers and their children during pregnancy may induce autoimmunity. This would tip the gender balance in the direction of the female. Another theory suggests the female high tendency to get autoimmunity is due to an imbalanced
X-chromosome inactivation. The X-inactivation skew theory, proposed by Princeton University's Jeff Stewart, has recently been confirmed experimentally in
scleroderma and
autoimmune thyroiditis. Other complex X-linked genetic susceptibility mechanisms are proposed and under investigation.
Environmental factors Infectious diseases and parasites An interesting inverse relationship exists between infectious diseases and autoimmune diseases. In areas where multiple infectious diseases are endemic, autoimmune diseases are quite rarely seen. The reverse, to some extent, seems to hold true. The
hygiene hypothesis attributes these correlations to the immune-manipulating strategies of pathogens. While such an observation has been variously termed as spurious and ineffective, according to some studies, parasite infection is associated with reduced activity of autoimmune disease. The putative mechanism is that the parasite attenuates the host immune response in order to protect itself. This may provide a serendipitous benefit to a host that also has autoimmune disease. The details of parasite immune modulation are not yet known, but may include secretion of anti-inflammatory agents or interference with the host immune signaling. A paradoxical observation has been the strong association of certain microbial organisms with autoimmune diseases. For example,
Klebsiella pneumoniae and
coxsackievirus B have been strongly correlated with
ankylosing spondylitis and
diabetes mellitus type 1, respectively. This has been explained by the tendency of the infecting organism to produce
super-antigens that are capable of
polyclonal activation of
B-lymphocytes, and production of large amounts of antibodies of varying specificities, some of which may be self-reactive (see below).
Chemical agents and drugs Certain chemical agents and drugs can also be associated with the genesis of autoimmune conditions, or conditions that simulate autoimmune diseases. The most striking of these is the
drug-induced lupus erythematosus. Usually, withdrawal of the offending drug cures the symptoms in a patient. Cigarette smoking is now established as a major risk factor for both incidence and severity of
rheumatoid arthritis. This may relate to abnormal
citrullination of proteins, since the effects of smoking correlate with the presence of
antibodies to citrullinated
peptides. == Pathogenesis of autoimmunity ==