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‘Laudable pus’ - the cells of inflammation. Lecture 2 Rod Flower, WHRI, London.
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The components of inflammation. Cells.. - Fixed cells such as vascular cells. - Migratory cells such as PMNs. Mediators.. - many chemicals released into the body. Immune system.. -Innate. -Acquired.
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Migratory cells. Platelets. Polymorphonuclear leukocytes. Macrophage/monocytes. Lymphocytes. Eosinophils. Basophils. Dendritic cells.
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Platelets. Small 2-3 m enucleate cells. 150-400,000/ l blood. Derived from megakaryocytes. Vital to haemostasis. Contain or generate mediators such as amines and eicosanoids.
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Polymorphonuclear (PMN) cells. Most abundant (>50% total ) 2500-7500/ l blood. ‘Shock troops’ of the system. Early involvement in the response. Contain many microbiocidal weapons and enzymes. Phagocytic. Short lived. Crucial to host defence.
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Macrophage/monocytes. 100-800 / l blood. 6-7% total. Blood borne monocytes mature to macrophages in tissues. Crucial to antigen presentation. Secrete many important mediators and enzymes. Phagocytic. Long lived.
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Eosinophils. Relatively small population 2.5% total; 50-400/ l blood. Specialised for anti-parisitic defence. Granules contain enzymes and proteins with micro- biocidal properties. Important in asthma and allergies.
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Lymphocytes. 1000-4000/ l blood; 30% total cells. Specialised for the production of antibodies and immune recognition. T- and B - cells. NK cells. Homing properties.
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Basophils. 1-100/ l blood; 0.5% total cells. Circulate in blood and ‘home' into tissues. Precursors of mast cells.
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Dendritic cells. Macrophage – like cells. Distributed in blood and tissues. Long cytoplasmic processes. Intimate contact with lymphocytes. Play a key role in early host defence.
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Fixed cells. Vascular endothelial cells. Liver cells. Airway cells. Nervous tissue. Many other cell types.
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Vascular endothelial cells. Have a barrier function but can undergo fenestration. Contain adhesion molecules crucial for cell transmigration. Can elaborate mediators such as NO, PGI 2.
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Liver cells. Liver cells especially Kupffer cells are involved in phagocytic functions. The liver elaborates ‘acute phase’ proteins.
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Airway cells. Airway epithelial, and other, cells play a crucial role in host defence and elaborate mucus and micro- biocidal enzymes. Especially important in asthma and allergies.
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Nervous tissue. Obviously important in pain transmission. Many receptors and enzymes in DRG cells and elsewhere are upregulated during inflammation. Cranial nerves and CNS structures are also important.
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Many other cells and tissues. Inflammation can affect virtually any structure in the body! Follows physical trauma, injury or infection.
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Two ‘types’ of inflammation. Acute… - short lived - doesn’t always involve the immune system. - healing usually occurs. - little systemic disease. Chronic… - long lived. - often inappropriate. - healing poor or absent. - tends to be the most usual indication for therapy. - often severe systemic effects including bone and cartilage breakdown.
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The healing response. The ultimate objective of inflammation, it involves… - angiogenesis. - remodelling of damaged tissues. - the correct hormonal and cytokine milieu. - sometimes migrating cells also play a role (e.g.platelets).
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What goes on at the tissue level in inflammation? Vascular ‘fenestration’ and plasma leakage. Cellular degranulation. Leukocyte migration. Liver acute phase response.
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Vascular changes. Post-capillary venules most important site. Extravasation of plasma proteins e.g. immunoglobulins. Role of PMNs in this process. Promotes access of protective proteins to invading organisms.
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Cellular degranulation. Principally by PMN, monocytes, eosinophils, platelets and mast cells. The latter release enzymes, histamine and eicosanoids. Very important in allergic reactions and asthma.
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Leukocyte emigration. Dutrochet first reported leukocyte emigration in 1824. Addison first induced the phenomenon experimentally in 1843. Multi-step paradigm for emigration developed from 1970s-1990s by several groups. Leukocyte emigration important in many pathologies (Epstein, 1989).
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Leukocyte emigration. Mainly PMN, monocytes and eosinophils. Mediated by adhesion molecules. Brings cells into contact with microorganisms. Crucial to host defence.
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Adhesion molecules. L-selectins. V- CAM & I- CAM. Integrins. PECAM.
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Adhesion molecules. Reversible interaction with L-selectin responsible for rolling phenomena. More stable adhesion mediated through increases in ICAM-1 and VCAM-1. Integrins ( 1 & 2) mediate a stable adhesion and have important signalling properties. Most of these adhesion molecules are up-regulated during inflammation in response to cytokines etc.
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Cellular migration - free flowing. PMN Vascular endothelium Direction of blood flow
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- selectin adhesion. selectins !
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- integrin attachment, signalling. integrins !
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- shape change. !
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- pseudopodia formation. PECAM !
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- extravasation.. !
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- full migration. !
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Acute phase response. A diverse collection of proteins and factors including, protease and other enzyme inhibitors. Released in from the liver in response to many forms of inflammatory response. Often accompanied by a fall in albumin synthesis. Clinically useful marker.
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Summary of lecture 2. Many cells participate in the development of the inflammatory response. Migrating cells are particularly crucial. Fixed tissues such as the liver secrete factors which help co-ordinate the response.
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Picture credits. Life Art. Austrian Rheumatology Teaching slides. ‘Mediators of Inflammation’, GP Lewis. ‘Cellular and Molecular Immunology’, Abbas et al. N Goulding. St Barts Hospital Medical Illustration service. A du Vivier. Leo & Astra. ‘Atlas of Clinical Endocrinology’, Besser et al.
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