Immunology Flashcards
what are the consequences of immune recognition
intended destruction of the antigen and incidental tissue damage
what are hypersensitivity reactions
immune response that results in bystander damage to the self
briefly describe the 4 types of hypersensitivity reaction
I: immediate killing
II: Direct cell killing
III: Immune complex mediated
IV: delayed type hypersensitivity
describe what type 1 reactions are characterised by (immediate killing)
characterised by greatly enhanced sensitivity to normally innocuous substances, leading to physiological responses and tissue damage
what do type I reaction leads to
allergic diseases and reaction, signs and symptoms
define an allergy in immunological terms
IgE-mediated antibody response to external antigen (allergen)
what is happening to the prevalence of allergies
increasing
what are common allergens that trigger allergic reactions
(most soluble proteins that function as enzymes)- dust mites, protein in animal saliva, pollen, food, drugs, bee and wasp venom
are all adverse reactions allergic
no
what is the hygiene hypothesis
changes in microbial stimuli influence the maturation of the immune response- results in increased predisposition to allergic conditions during childhood
why is allergy prevalence increasing and associated with western countries
the hygiene hypothesis- improved sanitation and decreased incidence of infectious disease
what enhances the immune system
exposure to bacteria or viruses e.g. infections contracted from siblings or peers at daycare centres
what happens to CD4 T lymphocytes at birth
primed to develop into TH2 cells
what does exposure to antigens do to the development of TH2 cells
dampens it, creating bias towards TH1 response- TH1 differentiation stimuli, limiting allergies and asthma
what are the generic features of type 1 allergic disease
occurs quickly after exposure to allergen (1-2 hours), reactions influenced by site of contact
what are the specific features of type 1 allergic disease
asthma, urticaria (hives), angioedema (swelling), allergic rhinitis (hayfever), allergic conjunctivitis, diarrhoea and vomiting, anaphylaxis
what immune cells are involved in allergic disease
b lymphocytes, t lymphocytes, mast cells (eosinophils and basophils)
how are B lymphocytes involved in allergic reactions
recognise antigen, produce antigen-specific IgE antibodies
how are T lymphocytes involved in allergic reactions
TH2 cells provide help for B lymphocytes to make IgE antibody
how are mast cells involved in allergic reactions
inflammatory cells that release vasoactive substances
what results in the differentiation of CD4 T cells into effector TH2 cytokine-producing cells
stimulation of allergen-specific T cells by allergen-derived peptides, presented by dendritic cells in the context of class II MHC molecules
what regulate the immune response
interleukins IL-4, IL-13, IL-5 produced by TH2 cells
how do interleukins regulate the allergic response (3)
regulate the synthesis of IgE by B cells, stimulate differentiation and migration of eosinophils from the bone marrow into the blood, helping to activate mast cells and eosinophils at sites of allergen exposure
how is the secretions of B cells altered by TH2
initially secrete IgM but initiated by TH2 cells to produce IgE
what does mast cells role in orchestrating the inflammatory cascade lead to
lead to increase blood flow, contraction of smooth muscle, increase vascular permeability and secretions at mucosal surfaces
what vasoactive substances do mast cells produce that drive acute inflammation
histamine, leukotrienes, pro-inflammatory cytokines including IL-4 and TNF-alpha
what do mast cells express on their surface
receptors for the FC region of IgE antibody on their surface
what happens to B cells on first encounter with allergen
produce antigen-specific IgE antibody
what happens to residual IgE antibodies
bind to circulating mast cells via Fc receptors
what is the region of the antibody that is specific to the antibody and where it binds to Fc receptors
the heavy chain
what happens when allergens re-encounter the IgE- coated mast cells
cell membrane disrupted and vasoactive mediators (histamine, tryptase) released. also increased cytokine and leukotriene transcription
what is atopic asthma
allergic disease in the lungs
is non allergic asthma IgE mediated
no
describe intrinsic asthma
non allergic
describe extrinsic asthma
response to external allergen, IgE-mediated
what happens clinically when histamine and other inflammatory mediators are released
muscle spasm, mucosal inflammation, inflammatory cell infiltrate
what are pro inflammatory mediators
pro inflammatory cytokines
what does muscle spasm lead to
bronchoconstriction; wheeze
what does mucosal inflammation lead to
mucosal oedema, increases secretions; sputum production
what does inflammatory cell infiltrate lead to
infiltration of lymphocytes and eosinophils into bronchioles; sputum (often yellow) (associated with chronicity)
what happens clinically when an allergic reaction happens in the lung
increased; mucous production, swelling, breathing rate
in and expiratory wheeze
what happens in degranulation of mast cells
when antimicrobial/cytotoxic molecules release from mast cells, when membrane disrupted
what is urticaria and how long does it last
hives, 2-6 (occasionally 24) hours
what is angioedema
self-limited, localised swelling of subcutaneous tissues or mucous membranes (non-pitting oedema
what are the clinical features of anaphylaxis
feeling of impending doom, loss of consciousness, death, angioedema of lips of mucosal membrane, stridor, laryngeal obstruction, hypotension, oral itching, vomiting, diarrhoea, abdominal pain, conjunctival infection, wheeze, bronchoconstriction, itch in palms, soles of feet and genitalia
why is it important to diagnose allergic disease (4)
confirm diagnosis, identify causative agents, determine risk of future severe reaction, determine appropriateness of therapy
name an elective investigation used to diagnose allergic disease
skin prick test
how can allergic disease be diagnosed during anaphylactic episode
evidence of mast cell degranulation (blood test- serum mast cell tryptase levels)
what is the first step in management of IgE mediated allergic disorders
indentification of triggers (skin prick test, clinical history, specific IgE tests) and avoidance of allergens
how is mast cell activation blocked?
via mast cell stabilisers (sodium cromoglycate)- stabilises mast cell membranes, prevents release of inflammatory mediators
what prevents the effects of mast cell activation
anti-histamines, leukotriene receptor antagonist
how do anti-histamines work
anti-histamines- block biological effects of histamines , used prophylactically (preventative) and to control symptoms (e.g. loratadine and cetirizine)
how do leukotriene receptor antagonists work
block effects of leukotrienes which are synthesised by mast cells after activation (e.g. montelukast)
name and describe the anti-inflammatory agents used to treat IgE mediated disorders
corticosteriods, inhibits formation of many different inflammatory mediators
how is anaphylaxis treated
self-injectable adrenalin- acts on beta2 adrenergic receptors to constrict atrial smooth muscle
what does the constriction of arterial smooth muscle because of adrenalin result in
increased blood pressure, limited vascular leakage, dilation of bronchial smooth muscle, decreasing airflow obstruction
describe immunotherapy
controlled exposure to increasing amounts of allergen- gradually increasing dose of subcutaneous injection
summarise the ways in which IgE mediated allergic disorders are managed
avoidance of allergen, block mast cell activation, prevent effects of mast cell activation, anaphylaxis management, immunotherapy
what cam mast cells with IgE antobodies lead to, especially in asthma
activation of eosinophils
what is the atopic trait that is inherited and found in people who suffer unduly from allergy
raised levels of IgE
what can mast cell degranulation be triggered by
tissue injury, complement activation and by some bacteria independently of IgE, IgE
which allergens which lead to built in immune response now useless are one of the most powerful
worm allergens
classify type II hypersensitivity reactions
direct cell killing (cell bound antigen)
what does an antibody bind to
cell-surface antigens
what does antigen binding result in
activation of complement (cell lysis (rupture)) and opsonisation (antibody-mediated phagocytosis)
what does the heavy chain region of the antibody trigger
immune response
what antigen initiates the classical activation pathway of complement
IgM
how does IgM initiate complement
engages multiple antigens on surface of cell which causes conformational change in FC region of antibody
what do phagocytes express on their surface to bond to the heavy chain
Fc receptors for IgG
what part of antibody neutralises
antigen binding portion
what are the functions of antibodies (6)
activates complement, activates antigens dependant cellular activity (e.g. NK cells/ eosinophils), acts on opsonins, activates T lymphocytes, causes antigen clumping and inactivation of bacteria complexes, triggers mast cell degranulation
describe complement
20 tightly regulated, linked proteins produced by liver in response to inflammation
what happens when complement is activated
enzymatically activate other proteins in a biological cascade
what antibody is best for parasitic infection
IgE
for normal antigens what antibody is the best
IgG
what does IgG trigger
classical pathways and cleavage of C3 into C3a and C3b, and then goes downstream into many different functions
what are the three pathways that lead ti activation of complement (C3)
classical- antigen + antibody + C1 complex
Lectin- MBL + mannose(+ve) pathogen
alternative- spontaneous C3 cleavage
what does the cleavage of C3 lead to
chemotaxis, solubilzation, direct killing (membrane attack complex), opsonisation
what does membrane attack complex do
punches holes in bacterial cell membranes, can directly kill encapsulated bacteria
what molecules involved in chemotaxis increase permeability of blood vessels
C3a and C5a fragments
why in chemotaxis is permeability of blood vessels increased
to increase traffic to cells of sites of infection
what do opsonins act as a bridge between
the pathogen and phagocyte receptors
what fragment of C3 is an opsonin
C3b
how is complement regulated via negative feedback
as fragments of complement can dissolve the immune complexes which triggered them- switching off complement activation
what is solubilzation
complement proteins breaking down large antibody complexes so they can be phagocytosed
give a clinical example of type II hypersensitivity
immune haemolytic amaemias
what type of hypersensitivity reaction is ALLERGIC haemolytic anaemia
type I
what happens in an acute haemolytic transfusion reaction
ABO incompatibility = lysis of donor erythrocytes by pre-formed IgG antibodies
what are the symptoms of a transfusion reaction
increased resp rate, tachycardia, kidney problems, decreased O2 sats
what type of antibodies are in type A blood
anti B
what type of antibodies are in type B blood
anti A
what type of antibodies are in type AB blood
neither A/B
