AUTOIMMUNE DISEASES.ppt
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About This Presentation
Autoimmune diseases overview
Slide Content
AT WAR WITHIN : The double edged sword
of IMMUNITY
Normally
protective
Immunodeficiency
states
Deregulated immune
response against self
antigens :
AUTOIMMUNE
DISEASES
Exaggerated immune
response :
HYPERSENSITIVITY
REACTIONS
of IMMUNITY
Normally
protective
Immunodeficiency
states
Deregulated immune
response against self
antigens :
AUTOIMMUNE
DISEASES
Exaggerated immune
response :
HYPERSENSITIVITY
REACTIONS
Immune reaction to self-antigens is autoimmunity
A disorder is categorized as truly autoimmune when:
(1) an immune reaction is specific for some self-
antigen or self-tissue
(2) evidence that such a reaction is not secondary to
tissue damage but is of primary pathogenic significance
(3) the absence of another well-defined cause of the
disease
A disorder is categorized as truly autoimmune when:
(1) an immune reaction is specific for some self-
antigen or self-tissue
(2) evidence that such a reaction is not secondary to
tissue damage but is of primary pathogenic significance
(3) the absence of another well-defined cause of the
disease
Organ specific autoimmunity -one particular organ or
cell type (Hashimoto’s thyroiditis)
Systemic autoimmunity -multiple autoantibodies or
cell-mediated reactions against numerous self-
antigens (SLE)
cell type (Hashimoto’s thyroiditis)
Systemic autoimmunity -multiple autoantibodies or
cell-mediated reactions against numerous self-
antigens (SLE)
Immunological tolerance is the phenomenon of
unresponsiveness to an antigen as a result of exposure
of lymphocytes to that antigen.
Self-tolerance refers to lack of responsiveness to an
individual's own antigens
Lack of the tolerance leads to autoimmunity
Self-tolerance can be classified into two groups:
central tolerance and peripheral tolerance
unresponsiveness to an antigen as a result of exposure
of lymphocytes to that antigen.
Self-tolerance refers to lack of responsiveness to an
individual's own antigens
Lack of the tolerance leads to autoimmunity
Self-tolerance can be classified into two groups:
central tolerance and peripheral tolerance
Central Tolerance-immature self-reactive T-and B-
lymphocyte clones that recognize self-antigens during
their maturation are killed
Negative selection or deletion in T cells
Receptor editing in B cells
lymphocyte clones that recognize self-antigens during
their maturation are killed
Negative selection or deletion in T cells
Receptor editing in B cells
Peripheral Tolerance –silencing of autoreactive B
and T cells in the peripheral tissue
Anergy: This refers to prolonged or irreversible
functional inactivation of lymphocytes
Suppression by regulatory T cells
Deletion by activation-induced cell death
and T cells in the peripheral tissue
Anergy: This refers to prolonged or irreversible
functional inactivation of lymphocytes
Suppression by regulatory T cells
Deletion by activation-induced cell death
Mechanisms of Autoimmunity
Inheritance of susceptibility genes that may disrupt
different tolerance pathways
Infections and tissue alterations that may expose self-
antigens and activate APCs and self reactive
lymphocytes in the tissues.
Inheritance of susceptibility genes that may disrupt
different tolerance pathways
Infections and tissue alterations that may expose self-
antigens and activate APCs and self reactive
lymphocytes in the tissues.
Role of Infections and Tissue Injury
Molecular mimicry -Viruses and certain bacteria
such as streptococci and Klebsiellaorganisms share
cross-reacting epitopes with self-antigens, such that
responses to the microbial antigen may attack self-
tissues.
Molecular mimicry -Viruses and certain bacteria
such as streptococci and Klebsiellaorganisms share
cross-reacting epitopes with self-antigens, such that
responses to the microbial antigen may attack self-
tissues.
Features of Autoimmunity
An autoimmune response itself promote further
autoimmune attack by a process that has been called
epitope spreading.
Clinicopathologic features depend on the type of T cell
response.
Precise categorization is difficult.
An autoimmune response itself promote further
autoimmune attack by a process that has been called
epitope spreading.
Clinicopathologic features depend on the type of T cell
response.
Precise categorization is difficult.
Systemic Lupus Erythematosus
Multisystem autoimmune disease
Acute or insidious in its onset
It is a chronic, remitting and relapsing, often febrile
illness characterized principally by injury to the skin,
joints, kidney and serosal membranes
The fundamental defect in SLE is a failure to maintain
self-tolerance.
Multisystem autoimmune disease
Acute or insidious in its onset
It is a chronic, remitting and relapsing, often febrile
illness characterized principally by injury to the skin,
joints, kidney and serosal membranes
The fundamental defect in SLE is a failure to maintain
self-tolerance.
Spectrum of Autoantibodiesin SLE
ANAs -directed against nuclear antigens
(1) antibodies to DNA,
(2) antibodies to histones,
(3) antibodies to nonhistoneproteins bound to RNA,
and
(4) antibodies to nucleolarantigens.
Antibodies against blood cells
Antiphospholipidantibodies are present in 40% to 50% of
lupus patients and react with a wide variety of proteins in
complex with phospholipids.
ANAs -directed against nuclear antigens
(1) antibodies to DNA,
(2) antibodies to histones,
(3) antibodies to nonhistoneproteins bound to RNA,
and
(4) antibodies to nucleolarantigens.
Antibodies against blood cells
Antiphospholipidantibodies are present in 40% to 50% of
lupus patients and react with a wide variety of proteins in
complex with phospholipids.
Morphology
An acute necrotizing vasculitis involving capillaries,
small arteries and arterioles can be present in any
tissue.
The arteritis is characterized by fibrinoid deposits in
the vessel walls.
In chronic stages, vessels undergo fibrous thickening
with luminal narrowing.
An acute necrotizing vasculitis involving capillaries,
small arteries and arterioles can be present in any
tissue.
The arteritis is characterized by fibrinoid deposits in
the vessel walls.
In chronic stages, vessels undergo fibrous thickening
with luminal narrowing.
Morphology
The most characteristic lesions result from immune
complex deposition in:
blood vessels
kidneys
connective tissue
skin
The most characteristic lesions result from immune
complex deposition in:
blood vessels
kidneys
connective tissue
skin
Kidney-Lupus nephritis affects 50% of SLE patients.
The principal mechanism of injury is immune
complex deposition in the glomeruli, tubular or
peritubularcapillary basement membranes, or larger
blood vessels.
Six patterns are recognized: minimal mesangial(class
I); mesangialproliferative (class II); focal lupus
nephritis (class III); diffuse lupus nephritis (class IV);
membranous lupus nephritis (class V) and Advanced
sclerosinglupus nephritis (classVI).
The principal mechanism of injury is immune
complex deposition in the glomeruli, tubular or
peritubularcapillary basement membranes, or larger
blood vessels.
Six patterns are recognized: minimal mesangial(class
I); mesangialproliferative (class II); focal lupus
nephritis (class III); diffuse lupus nephritis (class IV);
membranous lupus nephritis (class V) and Advanced
sclerosinglupus nephritis (classVI).
Minimal mesangial : immune complex deposition in
the mesangium, identified by immunofluorescence
and by EM but without structural changes by light
microscopy
Mesangial proliferative lupus nephritis: mesangial cell
and matrix proliferation. and granular mesangial
deposits of immunoglobulin and complement without
involvement of glomerular capillaries
the mesangium, identified by immunofluorescence
and by EM but without structural changes by light
microscopy
Mesangial proliferative lupus nephritis: mesangial cell
and matrix proliferation. and granular mesangial
deposits of immunoglobulin and complement without
involvement of glomerular capillaries
Focal Lupus nephritis: involvement of fewer than 50%
of glomeruli. Glomeruli exhibit swelling and
proliferation of endothelial and mesangial cells,
leukocyte accumulation and hyaline thrombi. There is
also often extracapillary proliferation with crescent
formation
Diffuse Lupus nephritis: Involvement of more than
50% of gloumeruli. Most common and severe form of
lupus nephritis. Subendothelial immune complex
deposits cause circumferential thickening of the
capillary wall, forming “wire loop” structures on light
microscopy
of glomeruli. Glomeruli exhibit swelling and
proliferation of endothelial and mesangial cells,
leukocyte accumulation and hyaline thrombi. There is
also often extracapillary proliferation with crescent
formation
Diffuse Lupus nephritis: Involvement of more than
50% of gloumeruli. Most common and severe form of
lupus nephritis. Subendothelial immune complex
deposits cause circumferential thickening of the
capillary wall, forming “wire loop” structures on light
microscopy
Focal proliferative lupus nephritis
Diffuse proliferative lupus nephritis
Wire loop lesions
Deposition of IgG antibody in a granular pattern, detected by
immunofluorescence
immunofluorescence
Membranous Lupus nephritis: diffuse thickening of
the capillary walls due to deposition of subepithelial
immune complexes
Advanced sclerosing lupus nephritis: characterized by
sclerosis >90% of the glomeruli and represents end-
stage renal disease.
the capillary walls due to deposition of subepithelial
immune complexes
Advanced sclerosing lupus nephritis: characterized by
sclerosis >90% of the glomeruli and represents end-
stage renal disease.
The skinis involved in 50% of patients
Erythematous or maculopapular eruption over the
malar eminences and bridge of the nose ("butterfly
pattern“).
Exposure to sunlight (UV light) exacerbates the
erythema (so-called photosensitivity)
Erythematous or maculopapular eruption over the
malar eminences and bridge of the nose ("butterfly
pattern“).
Exposure to sunlight (UV light) exacerbates the
erythema (so-called photosensitivity)
Joint involvement is typically a nonerosive synovitis
with little deformity.
Central nervous system (CNS) involvement
ascribed to vascular lesions causing ischemia or
multifocal cerebral microinfarcts.
Pericardium and pleura, show a variety of
inflammatory changes ranging (in the acute phase)
from serous effusions to fibrinous exudates and
progressing to fibrous opacification in the chronic
stage.
with little deformity.
Central nervous system (CNS) involvement
ascribed to vascular lesions causing ischemia or
multifocal cerebral microinfarcts.
Pericardium and pleura, show a variety of
inflammatory changes ranging (in the acute phase)
from serous effusions to fibrinous exudates and
progressing to fibrous opacification in the chronic
stage.
Involvement of the heartis manifested primarily in
the form of pericarditis.
Myocarditis, in the form of a nonspecific mononuclear
cell infiltrate, and valvular lesions, called Libman-
Sacks endocarditis, also occur but are less common
in the current era of aggressive corticosteroid therapy.
The valvular nonbacterial verrucous endocarditis
takes the form of irregular, 1-to 3-mm warty deposits,
distinctively on either surface of the leaflets
the form of pericarditis.
Myocarditis, in the form of a nonspecific mononuclear
cell infiltrate, and valvular lesions, called Libman-
Sacks endocarditis, also occur but are less common
in the current era of aggressive corticosteroid therapy.
The valvular nonbacterial verrucous endocarditis
takes the form of irregular, 1-to 3-mm warty deposits,
distinctively on either surface of the leaflets
Rheumatoid Arthritis
Rheumatoid arthritis (RA) is a systemic, chronic
inflammatory disease affecting many tissues but
principally attacking the joints.
Characterised by nonsuppurative proliferative synovitis
that frequently progresses to destroy articular cartilage
and underlying bone with resulting disabling arthritis
Rheumatoid arthritis (RA) is a systemic, chronic
inflammatory disease affecting many tissues but
principally attacking the joints.
Characterised by nonsuppurative proliferative synovitis
that frequently progresses to destroy articular cartilage
and underlying bone with resulting disabling arthritis
RA typically presents as symmetric arthritis,
principally affecting the small jointsof the hands
and feet, ankles, knees, wrists, elbows, and shoulders.
Typically, the proximal interphalangeal and
metacarpophalangeal joints are affected, but distal
interphalangeal joints are spared.
principally affecting the small jointsof the hands
and feet, ankles, knees, wrists, elbows, and shoulders.
Typically, the proximal interphalangeal and
metacarpophalangeal joints are affected, but distal
interphalangeal joints are spared.
Morphology
(1) Synovial cell hyperplasia and proliferation
(2) Dense perivascular inflammatory cell infiltrates
(frequently forming lymphoid follicles) in the
synovium composed of CD4+ T cells, plasma cells, and
macrophages
(3) Increased vascularity due to angiogenesis
(4) Neutrophils and aggregates of organizing fibrin on
the synovial surface and in the joint space; and
(5) Increased osteoclast activity in the underlying bone,
leading to synovial penetration and bone erosion
(1) Synovial cell hyperplasia and proliferation
(2) Dense perivascular inflammatory cell infiltrates
(frequently forming lymphoid follicles) in the
synovium composed of CD4+ T cells, plasma cells, and
macrophages
(3) Increased vascularity due to angiogenesis
(4) Neutrophils and aggregates of organizing fibrin on
the synovial surface and in the joint space; and
(5) Increased osteoclast activity in the underlying bone,
leading to synovial penetration and bone erosion
The articular cartilage subjacent to the pannus is
eroded and, in time, virtually destroyed.
The subarticular bone may also be attacked and
eroded.
Eventually the pannus fills the joint space, and
subsequent fibrosis and calcificationmay cause
permanent ankylosis.
eroded and, in time, virtually destroyed.
The subarticular bone may also be attacked and
eroded.
Eventually the pannus fills the joint space, and
subsequent fibrosis and calcificationmay cause
permanent ankylosis.
Rheumatoidsubcutaneousnodulesalongthe
extensorsurfaceoftheforearmorotherareas
subjectedtomechanicalpressure;rarelytheycanform
inthelungs,spleen,heart,aorta,andotherviscera.
Rheumatoidnodulesarefirm,nontender,ovalor
roundedmassesaslargeas2cmindiameter.
Microscopically,theyarecharacterizedbyacentral
focusoffibrinoidnecrosissurroundedbyapalisadeof
macrophages,whichinturnisrimmedbygranulation
tissue
extensorsurfaceoftheforearmorotherareas
subjectedtomechanicalpressure;rarelytheycanform
inthelungs,spleen,heart,aorta,andotherviscera.
Rheumatoidnodulesarefirm,nontender,ovalor
roundedmassesaslargeas2cmindiameter.
Microscopically,theyarecharacterizedbyacentral
focusoffibrinoidnecrosissurroundedbyapalisadeof
macrophages,whichinturnisrimmedbygranulation
tissue
Sjögren Syndrome
Clinicopathologic entity characterized by dry eyes
(keratoconjunctivitis sicca) and dry mouth
(xerostomia), resulting from immune-mediated
destruction of the lacrimal and salivary glands.
It occurs as an isolated disorder (primary form), also
known as the sicca syndrome,or more often in
association with another autoimmune disease
(secondary form).
Clinicopathologic entity characterized by dry eyes
(keratoconjunctivitis sicca) and dry mouth
(xerostomia), resulting from immune-mediated
destruction of the lacrimal and salivary glands.
It occurs as an isolated disorder (primary form), also
known as the sicca syndrome,or more often in
association with another autoimmune disease
(secondary form).
90% of Sjögren syndrome cases occur in women
between the ages of 35 and 45 years.
Antibodies directed against two ribonucleoprotein
antigens, SS-A (Ro) and SS-B (la) , can be detected in
as many as 90% of patients
Patients present with dry mouth, lack of tears
between the ages of 35 and 45 years.
Antibodies directed against two ribonucleoprotein
antigens, SS-A (Ro) and SS-B (la) , can be detected in
as many as 90% of patients
Patients present with dry mouth, lack of tears
Morphology
Intense lymphocyte and plasma-cell infiltrate, forming
lymphoid follicles with germinal centers with
associated destruction of the native architecture
Keratoconjunctivitis and Xerostomia
Dryness and crusting of the nose
Secondary laryngitis, bronchitis, and pneumonitis
Approximately 25% of the patients (especially those
with anti-SS-A antibodies) develop extraglandular
disease affecting the CNS, skin, kidneys, and muscles.
Intense lymphocyte and plasma-cell infiltrate, forming
lymphoid follicles with germinal centers with
associated destruction of the native architecture
Keratoconjunctivitis and Xerostomia
Dryness and crusting of the nose
Secondary laryngitis, bronchitis, and pneumonitis
Approximately 25% of the patients (especially those
with anti-SS-A antibodies) develop extraglandular
disease affecting the CNS, skin, kidneys, and muscles.
Systemic Sclerosis (Scleroderma)
Systemic sclerosis is a chronic disease characterized
by:
(1)chronic inflammation thought to be the result of
autoimmunity,
(2)widespread damage to small blood vessels, and
(3)progressive interstitial and perivascularfibrosis in
the skin and multiple organs
Systemic sclerosis is a chronic disease characterized
by:
(1)chronic inflammation thought to be the result of
autoimmunity,
(2)widespread damage to small blood vessels, and
(3)progressive interstitial and perivascularfibrosis in
the skin and multiple organs
Diffuse scleroderma -characterized by widespread
skin involvement at onset, with rapid progression and
early visceral involvement.
Limited scleroderma -the skin involvement is often
confined to fingers, forearms, and face. Visceral
involvement occurs late
skin involvement at onset, with rapid progression and
early visceral involvement.
Limited scleroderma -the skin involvement is often
confined to fingers, forearms, and face. Visceral
involvement occurs late
Theprogressivefibrosischaracteristicofthediseaseistheculmination
ofmultipleabnormalities,includingtheactionsoffibrogeniccytokines
producedbyinfiltratingleukocytes,hyperresponsivenessoffibroblasts
tothesecytokines,andscarringfollowinguponischemicdamage
causedbythevascularlesions
ofmultipleabnormalities,includingtheactionsoffibrogeniccytokines
producedbyinfiltratingleukocytes,hyperresponsivenessoffibroblasts
tothesecytokines,andscarringfollowinguponischemicdamage
causedbythevascularlesions
Clinical features
Female-to-male ratio of 3 : 1,
50-to 60-year age group.
Distinctive features are the striking cutaneous
changes, notably skin thickening.
Raynaud's phenomenon, manifested as episodic
vasoconstriction of the arteries and arterioles of the
extremities,
Dysphagia due to esophageal fibrosis and its resultant
hypomotility is present in more than 50% of patients
Female-to-male ratio of 3 : 1,
50-to 60-year age group.
Distinctive features are the striking cutaneous
changes, notably skin thickening.
Raynaud's phenomenon, manifested as episodic
vasoconstriction of the arteries and arterioles of the
extremities,
Dysphagia due to esophageal fibrosis and its resultant
hypomotility is present in more than 50% of patients
CREST syndrome
Seen in some patients with limited systemic
sclerosis.
It is characterized by calcinosis, raynaud
phenomenon, esophageal dysfunction, sclerodactyly,
telangiectasia,
Presence of anticentromere antibodies.
Seen in some patients with limited systemic
sclerosis.
It is characterized by calcinosis, raynaud
phenomenon, esophageal dysfunction, sclerodactyly,
telangiectasia,
Presence of anticentromere antibodies.
Morphology -Skin
Diffuse, sclerotic atrophy of the skin
Edema and perivascular infiltrates containing CD4+ T
cells
Capillaries and small arteries show thickening of the
basal lamina, endothelial cell damage, and partial
occlusion
Increase of compact collagen in the dermis, with
thinning of the epidermis, loss of rete pegs, atrophy of
the dermal appendages, and hyaline thickening of the
vessels.
Diffuse, sclerotic atrophy of the skin
Edema and perivascular infiltrates containing CD4+ T
cells
Capillaries and small arteries show thickening of the
basal lamina, endothelial cell damage, and partial
occlusion
Increase of compact collagen in the dermis, with
thinning of the epidermis, loss of rete pegs, atrophy of
the dermal appendages, and hyaline thickening of the
vessels.
Alimentary Tract
Affected in approximately 90% of patients
Progressive atrophy and collagenous fibrous
replacement of the muscularis at any level of the gut
but are most severe in the esophagus
Thinned mucosa ,excessive collagenization of the
lamina propria and submucosa. Loss of villi and
microvilli in the small bowel
Affected in approximately 90% of patients
Progressive atrophy and collagenous fibrous
replacement of the muscularis at any level of the gut
but are most severe in the esophagus
Thinned mucosa ,excessive collagenization of the
lamina propria and submucosa. Loss of villi and
microvilli in the small bowel
MIXED CONNECTIVE TISSUE DISEASE
A disease with clinical features that are a mixture of
the features of SLE, systemic sclerosis, and
polymyositis.
The disease is characterized serologically by high titers
of antibodies to ribonucleoprotein particle–containing
U1 ribonucleoprotein.
A disease with clinical features that are a mixture of
the features of SLE, systemic sclerosis, and
polymyositis.
The disease is characterized serologically by high titers
of antibodies to ribonucleoprotein particle–containing
U1 ribonucleoprotein.
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