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INTRODUCTION TO THE IMMUNE SYSTEM. Janet Liversidge Department of Ophthalmology Medical School j.liversidge@abdn.ac.uk. Innate and adaptive immunity. The course of a typical antibody response: The adaptive response takes 7-14 days to develop and mount a specific, protective immune response.
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INTRODUCTION TO THE IMMUNE SYSTEM Janet Liversidge Department of Ophthalmology Medical School j.liversidge@abdn.ac.uk
The course of a typical antibody response: The adaptive response takes 7-14 days to develop and mount a specific, protective immune response
An infection, and the response to it can be divided into stages and involves soluble mediators and cells of the immune system
The adaptive immune response develops in the lymphoid tissues Circulating lymphocytes encounter antigen in peripheral lymph nodes Sentinel cells in the periphery pick up pathogens and transport them to the draining lymph node
The immune response is dynamic, involving cells re-circulating from the tissues via the lymphatics and blood system • Innate immunity acts locally in the infected tissue, • Adaptive immune responses develop in the lymphoid tissues, • Effector cells multiply and migrate back to tissue.
Phagocytic cells Polymorphonuclear neutrophils Blood monocytes
B cells need T cell “help” to make antibody Lymphocytes mediate adaptive (pathogen specific) immunity:each cell has a unique antigen receptor
The response to an initial infection occurs in three phases: innate, early induced, adaptive. SUMMARY
Cells of the innate immune system:, macrophages, granulocytes, natural killer cells, immature B cells • Release of soluble components to opsinise phagocytosis • Release of toxic granules to kill micro-organisms, parasites or virally infected cells • Release of soluble mediators to attract other leukocytes to site of inflammation • Removal of dead or dying cells • Transfer of infectious or toxic material to lymph nodes to initiate adaptive immune response
Cells of the adaptive immune system: Dendritic cells, T and B lymphocytes, • Lymphocytes are generated with unique antigen receptors on their surface. • Dendritic cells (and macrophages) present antigen to lymphocytes and provide activating signals • Lymphocytes undergo clonal expansion and migrate back to area of infection as effector cells. • T cytotoxic cells selectively kill virally infected cells • T helper cells selectively help B cells produce large amounts of high affinity specific antibody. • After infection, memory lymphocytes provide protective immunity
Natural killer cells kill virally infected cells Virally induced structures IFN-g released by infected cell “primes”other cells to kill it