1 / 81

Hypersensitivity reactions are exaggerations of normal defence mechanisms

Hypersensitivity reactions are exaggerations of normal defence mechanisms. Il termine allergia è stato originariamente coniato da Clemens Von Pirquet come una “capacità alterata del corpo di reagire ad una sostanza estranea” . ALLERGIA:

suchi
Download Presentation

Hypersensitivity reactions are exaggerations of normal defence mechanisms

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Hypersensitivity reactions are exaggerations of normal defence mechanisms

  2. Il termine allergia è stato originariamente coniato da Clemens Von Pirquet come una “capacità alterata del corpo di reagire ad una sostanza estranea”

  3. ALLERGIA: Malattia che deriva da una risposta del sistema immunitario ad un antigene innocuo L’allergia è un tipo di reazione del sistema immunitario classificata come ipersensibilità

  4. Le reazioni di ipersensibilità sono classificate in quatto tipi da I a IV L’allergia è tipicamente l’ipersensibilità di tipo I

  5. HYPERSENSITIVITY • TYPES I - IV I - IgE MEDIATED REACTION - • Binding of antigen to IgE on the surface of mast cells causes release of inflammatory mediators II - CYTOTOXIC REACTION - • Binding of antibody to cell surface leads to activation of complement and damage to host cell eg. blood cells (penicillin, methyldopa, quinidine)

  6. HYPERSENSITIVITY III - IMMUNE COMPLEX REACTION (Arthus) - • Formation of complexes between antigen & antibody leads to tissue damage as a result of deposition in blood vessels (vasculitis) and activation of inflammatory pathways (serum sickness, farmers lung) IV - CELL MEDIATED REACTION (DTH) - • Activation of T cells around site of antigen leads to T cell cytotoxicity & activation of macrophages, causing tissue damage (contact sensitivity)

  7. Allergy Hay fever, asthma, eczema. Atopy (Greek: ‘out of place’) 10-15% individuals clinically allergic 30% individuals show wheal and flare to skin tests for common allergens Asthma is the most common chronic disease of children in Western countries. Causes 2,000 deaths/year in UK

  8. Epidemiology of Allergy • 50 Million Americans Affected • 10-22% Adults • 10-42% Children • Peak Incidence • Late Childhood • Early Adolescence

  9. Genetics and Development of Allergies • Risk of developing allergies: • No parents have allergies- 10% risk • One parent has allergies- 40-50% risk • Both parents have allergies- 70-80% risk • Children with one allergic component (rhinitis, asthma, or eczema) have a 3-fold increased risk of developing others

  10. Type I hypersensitivity IgE-mediated mast cell degranulation

  11. Le IgE sono prodotte dalle Plasma cellule che si trovano nei linfonodi drenanti il sito di ingresso dell’antigene o localmente nel sito dove avviene la reazione allergica. Le IgE prodotte nei centri germinativi diversamente dagli altri anticorpi sono presenti a livello tissutale fortemente legate alla superficie delle mast cells attraverso i recettori FceRI

  12. Sebbene non sia nota la ragione per cui alcuni Ag sono allergeni, sono emersi dei principi generali: La maggior parte degli allergeni sono proteine piccole altamente solubili portate da particelle essiccate come il polline o le feci degli acari

  13. Allergens Proteins found in nature Trees Grasses Weeds Moles Dust mite feces Cockroaches Animal danders Enter the body by ingestion or inhalation, injection (insect venom, antibiotics) Al contatto con le mucose, ad esempio quelle del tratto respiratorio, gli allergeni solubili vengono eluiti dalle particelle e diffondono nelle mucose. Tipicamente sono presentati a dosi bassissime.

  14. ALLERGENS • Antigens that initiate an IgE-mediated response • Contain B cell epitopes & T cell epitopes • Allergen requires processing by dendritic cells/macrophages • Presentation to T cells results in delineation of T-helper subsets into TH1 and TH2 types • TH2 responses lead towards IgE production Ag presentation at very low doses at the mucosal level favor the activation of Th2 responses. At the mucosal level the APCs are myeloid DC that present low antigen doses very efficiently, migrate to draining LN and activate Th2 responses

  15. Immediate Hypersensitivity - Type I Hypersensitivity • Examples: Hay Fever type allergies, anaphylactic reactions • Reactions usually occur within minutes of exposure. • Develops when antigen combined with IgE attached to mast cells. Large amounts of mast cells in skin and mucous membranes of respiratory tract • IgE antibodies bind mast cells, basophils, cross link IgE receptors causing degranulation • Release of various mediators including histamine • Histamine causes hives, itching, stridor, laryngeal edema and wheezing • Leads to vascular leakage, especially venules • The arteriolar dilation leads to hypotension • Allergen immunotherapy can reduce specific IgE levels

  16. EARLY PHASE RESPONSE MAST CELL • GM-CSF & IL-3 important for development • FceR1 present at high density • Cross-linking of FceR1 by allergen leads to activation of mast cell, resulting in :- • DEGRANULATION - Release of pre-formed mediators • SYNTHESIS OF LIPID MEDIATORS

  17. PRE-FORMED MEDIATORS HISTAMINE • Stimulation of irritant nerve receptors • Smooth muscle contraction • Increase in vascular permeability KALLIKREIN • Activates bradykinin - similar actions to histamine TRYPTASE - role unclear

  18. LIPID MEDIATORS • ARACHIDONIC ACID DERIVATIVES Phospholipase A2 Arachidonic acid 5-Lipoxygenase Cyclo-oxygenase Molti anti-infiammatori inibiscono il metabolismo dell’acido arachidonico. Aspirina: inibitore dell’enzima cicloossigenasi, blocca la produzione delle prostaglandine LEUKOTRIENES PROSTAGLANDINS LTA4 LTB4 LTC4 LTD4 LTE4 PROSTACYLINE THROMBOXANE A2 PROSTAGLANDINS D2, E2, F2a

  19. Y Y Y Y Y Newly generated: leukotrienes, prostaglandins cytokines (IL4, IL13) Pre-formed chemicals: histamine, tryptase, heparin

  20. Molti allergeni sono enzimi. Ad esempio un allergene noto è il Der p-1 che si trova nelle feci degli acari. E’ simile alla papaina, taglia l’occludina e si guadagna l’accesso alle APC subepiteliali. Non tutti gli allergeni sono enzimi alcuni sono inibitori di enzimi e molti sono a funzione ignota

  21. IgE production: Induction of Th2 responses and CD40-CD40L interaction

  22. IgE Serum concentration 100 ng/ml (IgG 15 mg/ml) Destroyed by heating at 56o for 30 minutes Half life: 2.5 days in serum, 12 weeks if bound to mast cells Elevated in: ·Certain parasitic diseases (e.g. schistosomiasis) ·Hyper-IgE syndrome ·Allergy Class switching to IgE promoted by IL-4 and IL-13, inhibited by g-interferon

  23. Receptor Affinity Cellular distribution FceRI 1010 Mast cells, basophils, eosinophils, Langerhans cells, activated monocytes FceRII 107 B cells, T cells, platelets, macrophages, NK cells, follicular dendritic cells, eosinophils, epithelial cells FceR

  24. Pollution Acts as a non-specific trigger factor Sulphur dioxide, nitrogen oxides, diesel exhaust particles (DEP) May increase mucosal permeability and thereby enhance antigen entry

  25. Allergy Incidence DEP 2000 1960 Year

  26. Seasonal vs Perennial Allergic Rhinitis • Seasonal - Symptoms recur each year during the same season • Antigens include: • tree pollen • grass pollen • weed pollen • molds • Perennial - Symptoms are persistent year-round resulting from constant challenge • Antigens include: • dust • animal dander • molds • cockroach

  27. Early phase: Cross-linking of FceRI by allergen (immediate reaction starting within seconds) Late phase response: Caused by the release of leukotrienes chemokines and cytokines from mast cells. These products recruit other leukocytes including eosinophils, Th2 (this phase can easily convert into a chronic inflammatory response if the Ag persists and stimulate Th2 cells which recruit eosinophils and induce further IgE production, chronic asthma)

  28. LATE-PHASE RESPONSE - 1 BASOPHILS • Similar properties to mast cells over longer time scale EOSINOPHILS • GRANULES contain cytotoxic proteins (ECP, EDN, MBP, EPO) • In tissues, RELEASE CONTENTS OF GRANULES - major source of tissue damage in allergic response T CELLS • CYTOKINE-DRIVEN ACTIVITY is the major source of PATHOGENESIS in allergic responses

  29. Eosinophil

  30. Eosinophils • Increase during allergic response • Release enzymes which degrade histamine and other mediators of inflammation • Protects the body from some protozoal and helminth infections

  31. Local effects: The effects of allergen reexposure are limited to the site at which mast cells degranulation occurs

  32. Allergen inhalation Allergic Asthma Allergen-induced activation of submucosal mast cells in the lower airway Early/late phase response involved early: bronchial constriction and secretion of fluid and mucus chronic: continued presence of increased number of Th2 cells, eosinophils, neutrophils and other leukocytes

  33. Allergen inhalation RHINITIS Allergic/non-allergic Allergic: perennial or seasonal type Blocked nose, often with eye symptoms Major aero-allergens include House dust mite, pollens Early/late phase responses are involved ALLERGIC CONJUNCTIVITIS

  34. Skin allergy: urticaria, chronic eczema Early/late responses are involved Local injection of small amounts of allergen (stinging insect) Localized allergic reaction: local mast cells activation, local increased of vascular permeability (fluid extravasation and swelling) 8 hours later: more spread and sustained edematous response urticaria

  35. Local effects or more general effects Food Allergies

  36. FOOD ALLERGY MAJOR FOOD ALLERGENS • Water soluble glycoproteins 10 -60 kd • Heat, acid & protease stable • COW’S MILK • CHICKEN EGG • LEGUMES - PEANUT; SOYBEAN; TREE NUTS • FISH • CRUSTACEANS / MOLLUSCS • CEREAL GRAINS

  37. FOOD ALLERGY - CLINICAL GASTROINTESTINAL ANAPHYLAXIS - • Within 2 hours of ingestion • Nausea , pain , cramps , vomiting , diarrhoea ALLERGIC EOSINOPHILIC GASTROENTERITIS - • Nausea & vomiting; diarrhoea , steatorrhoea • Peripheral eosinophilia in 50% of patients • Elevated serum IgE with positive RASTs

  38. FOOD ALLERGY - CLINICAL RESPIRATORY • Upper and lower respiratory tract symptoms • Food allergens can provoke airway hyper-reactivity • Studies suggest 35 - 40% of children assessed for food allergy develop respiratory symptoms • 2 - 10% of asthmatic children have symptoms induced by food CUTANEOUS • Acute urticaria / angioedema said to be common • ‘Cause - and - effect’ usually obvious to patient • Eggs , milk , peanuts , other nuts in children - >90% of reactions

  39. Systemic reactions Allergen introduced in the bloodstream or adsorbed from the gut Systemic anaphylaxis Disseminated mast cells activation General increase in vascular permeability: loss of blood pressure airways constrict-respiratory difficulties swelling in the epiglottis (suffocation) anaphylactic shock can occur: Drug administered to people with high specific IgE levels Insect venom Some food

More Related