Immunology Lecture-1 PDF
Document Details
Uploaded by IdolizedConnemara2160
Tags
Summary
This document is a lecture about immunology, including the components, function, and types of the immune system. It describes the immune system as a network of cells, tissues, and soluble factors crucial for human survival.
Full Transcript
Immunology Lecture- 1 Immunology and Immune System Immunology: Study of the components and function of the immune system Immune System a network collected from cells, tissues organs and soluble factors that work together and provide non-specific and specific protection to defend...
Immunology Lecture- 1 Immunology and Immune System Immunology: Study of the components and function of the immune system Immune System a network collected from cells, tissues organs and soluble factors that work together and provide non-specific and specific protection to defend body against attacks by Foreign pathogenic microbes Microbial toxins Tumor cells – Crucial to human survival All systems are integrated – Recticulo-endothelial system (RES) Network of connective tissue fibers (Reticulum Interconnects cells Allows immune cells to bind and move outside the blood & lymphatic system – Extracellular fluids system (ECF) The spaces surrounding tissue cells and RES- Enables immune cells to move – Blood, vascular (circulatory) system transport system – Lymphatic system transport system Immunity: - State of non-specific and specific protection Immune System (The Human Battle against pathogenic Microbes) The Structure of Immune System The organs of the immune system are positioned throughout the body. They are called lymphoid organs because they are home to lymphocytes, small white blood cells that are the key players in the immune system. All parts of the body that help in the recognition and destruction of foreign material ; White blood cells , phagocytes and lymphocytes, bone morrow, lymph node, tonsils, thymus and spleen, all are part of immune system Lymphoid organ: Primary (central ) lymphoid organs - Bone marrow and thymus - where lymphocytes are generated (maturation site) Secondary (peripheral ) lymphoid organs -where adaptive immune responses are initiated ( spleen , lymph nodes, lymphocyte proliferation, etc. ) Bone marrow, the soft tissue on the hollow center of bones, is the ultimate source of all blood cells, including white blood cells destined to become immune cells. B - cell mature in Bone morrow Thymus is an organ that lies behind the breastbone; lymphocytes known as T lymphocyte or T cells mature in the thymus. Innate and Adaptive immunity result from the actions of cells that circulate in the blood and lymph, body fluids that directly or indirectly with every major organ system. All of the cells involved in immunity develop from common precursors called Stem cells , found in bone marrow. Distribution Parts if immune system Primary Development and maturation of lymphocytes Bone Marrow (B cells) and thymus gland (T cells) Secondary Mature lymphocytes meet pathogens Spleen, adenoids, tonsils, appendix, lymph nodes, Peyer’s patches, mucosa-associated lymphoid tissue (MALT) The Immune system ( Defense Mechanisms) Immune System Innate (non specific) Acquired ( Specific) Cellular Cellular Humoral Anatomical Humoral components components (Physical) components components Components Non specific defenses: Innate Host defenses against infection 1- Anatomical (physical ) Barriers Mechanical factors Chemical factors Biological factors 2- Humoral components Complement Coagulation system Cytokines ( non specific immune response) 3- Cellular components (Leukocytes) Neutrophils Monocytes /macrophages Eosinophils Basophiles Natural killer cells (large granular lymphocytes) 1- Anatomical (Physical) barriers- a) mechanical and Chemical factors First line of host defense ( surface defenses) System of organ Factor Mechanism Skin ( intact) Squamous epithelium Desquamation Anti- microbial fatty acid Low pH Inhibit non acid tolerance microbes. Lysozyme destroy bacterial cell wall Sweat Keratin Protective protein Mucous Non ciliated epithelium Peristalsis membrane (e.g. gastrointestinal tract) (ciliated epithelium Mucocillary elevator ( e.g. respiratory tract) Epithelium (e,g.nasopharynxe) Lysozyme Respiratory Nasal hairs filters and traps microbes tract Ciliated epithelium Cilia–propels debris away from the respiratory Coughing Sneezing tract. Mucous secretion Eliminating microbes- traps microbes Sufactants (lung) opsonin Eyes Blinking mechanically removes microbe Tears Flushes and Washes the surface of eyes lysozyme Cilia Non- Ciliated Epithelium Ciliated Epithelium Intestinal Epithelium Anatomical (Physical) barriers- a) mechanical and Chemical factors First line of host defense ( surface defenses) System of Organ Factor Mechanism Mouth & Intestinal Saliva ( lysozyme & Phospholipase A destroy bacterial Tract Phospholipase A cell membranes Low pH ( HCL)- gastric juice Kills or inhibit microbes Bile salt Alkaline pH (lower intestine) Prevent some microbes Flushing action ( intestine) Eliminate microbes which have not succeed to colonization Mucous Urogenital tract Urine (acidity) low pH cleanses the urinary tract Flushing action (urine- vagina secretions Acidic pH of vagina Mantle of vagina inhibits growth of microbes 1- Anatomical barriers- c) Biological factors System of organ component Mechanism Non- sterile body sites such Normal flora Antimicrobial substances as: Skin and Mucous Competition for colonization and nutrition membranes Create an environment unfavorable for pathogens by changing pH Promote overall health by providing vitamins to host. 2- Humoral Components Component Mechanism Complement -Lysis of bacteria and some viruses -Opsonin -Increase in vascular permeability -Recruitment and activation of phagocytic cells Coagulation system Increase vascular permeability Recruitment of phagocytic cells B- lysin from platelets – a cationic detergent in kills bacteria Lactoferrin and Transferrin Compete with bacteria for iron Lysozyme Breaks down bacteria cell walls Cytokines Various effects Interferons Antiviral proteins Cells in Immune System 3- Cellular Components- Second line of defenses (internal defenses) phagocyte a white blood cell that attracts (by chemotaxis), adheres to, engulfs, and ingests foreign bodies in blood stream and tissues (Leukocytes) - Innate Lymphocyte - Macrophages cell (Natural killer - Also known Polymorph nuclear leukocytes ( PMN’s) cell (NK) - Dendritic cell - T- cell - Phagocytic cells - Phagocytic cells - B- cell ( antibodies) - Non phagocytic Neutrophil Principal phagocytic cell of innate immunity (Present in high numbers in blood and tissue) Nuclei (horse shoe or polymorphic nuclei) 10- 12µm Motile ( circulate in blood stream and roam at sites of injury or infections) Comprise 40- 75% of blood leukocytes Primary function: phagocytosis, ingest and destroy invader ( main target: bacteria) primary responders to bacterial infections and components of pus Early responders to Inflammation and tissue damage (First arrive during an inflammatory immune response) Contain small granules (granules are digestive enzymes) Eosinophils White blood cells primary responders to parasitic infections (Killing of certain intestinal parasites) Less abundant than neutrophil 8-10µm Product toxic proteins Some phagocyte foreign compound or pathogen that have been coated with antibodies 1-5% of blood leukocytes granulocytes recruited in the third line of defense. Modulate and control mechanism of allergic inflammatory responses Basophiles Granulocytes (contain large cytoplasmic granules which obscure the cell nucleus under the microscope when stained, when unstained, the nucleus is visible and it usually has two lobes. 12-15µm Present in low in number in the body Function is similar to eosinophils and mast cell. Localized basophils are called mast cells. produce histamine (a chemical that is secreted when the cell stimulated, promote blood flow to tissues) Like all circulating granulocytes, basophils can be recruited out of the blood into a tissue when needed. Mast Cell Granulocyte, is similar with basophiles in appearance and function. Mast cells are tissue resident, e.g., in mucosal tissues, while basophils are found in the blood. contains many granules rich in histamine and heparin Major effector cell in allergy Modulation of initial immune response- activation T- cells usually do not circulate in the blood stream, but instead are located in connective tissue and mucous membrane. play an important protective role in wound healing and defense against pathogen Monocytes Leukocytes with bean shaped or brain-like nuclei A granulocytes (having clear cytoplasm) 7-10µµm motile (can move quickly (8–12 hrs.) to sites of infection in the tissues) largest of all leukocytes 3-7% of blood leukocytes Part of innate immunity in humans Phagocytosis Circulate in blood with half life of 8 hours Differentiate and divide into macrophages (circulation, lymphatics and tissues) and dendritic cells (tissue associated) Promonocytes are made in the bone marrow, after which they are released into the blood, called circulating monocytes, they circulate for a few days then migrate into tissues. In the tissue they further mature into macrophages. Tissue macrophages are extremely heterogenous response to inflammation signals. Macrophages ( big eaters) Type of white blood cell that engulfs and digests dead cells, foreign substances, microbes, in a phagocytosis process 21µm Derive from blood monocytes after they migrate into tissues. Participate in innate and adaptive immunity (activation T-cells) Phagocytosis and intracellular and extracellular killing Tissue repair (Are essential in wound healing ) Antigen presentation for specific immune response Active against fungi Some macrophages are fixed (immobile) and concentrated in specific tissue or organs, such as the lungs (alveolar macrophages), liver (Kupffer macrophages), synovial ( synovial macrophages). In addition to fixed macrophages, there are wandring macrophages (free) (adhere to the inner linings of blood and lymph vessels and various organs, move throughout the body, arrived at sites of an injury or infection. Macrophages Stem cells differentiate into macrophages in the bone marrow and peripheral blood, and then either migrate or take residence in a specific location. Dendritic cell Cells with dendriform (star shaped) morphology Main function: Antigen- presenting cell (Capture and present antigens to T lymphocytes surface ). Recognize pathogen Active against viruses They act as messengers between the innate and the adaptive immune system. Several types, present in those tissues that are in contact with the external environment, such as: skin, (a specialized dendritic cell type called the Langerhans cell) and the inner lining of the nose, lungs, stomach and intestines. Natural Killer cell Type of cytotoxic lymphocyte ( group of innate granular lymphocyte cell) critical to the innate immune system (The role NK cells play is analogous to that of cytotoxic T cells in the vertebrate adaptive immune response) lyse and kill virus-infected body cells- rapid responses to viral-infected cells (acting around 3 days after infection) Not antigen specific, but can recognize “self” cells. Trigger cytokines release. NK cells are not phagocytic they perforate microbial cell membranes known to differentiate and mature in the bone marrow, lymph nodes, spleen, tonsils, and thymus.