nature of the immune system i. non-specific immunity terry kotrla, ms, mt(ascp)bb
TRANSCRIPT
Nature of the Immune System
I. Non-Specific Immunity
Terry Kotrla, MS, MT(ASCP)BB
Immunity – Very Complex System
Cellular versus Humoral Immunity Cellular - Researchers observed that foreign
substances were removed by specialized cells in a process known as phagocytosis.
Humoral - Other researchers postulated that substances in the blood provided protection from microorganisms, humoral immunity.
Natural versus Acquired Immunity Natural immunity – born with the ability to
resist infections by normal bodily functions. Acquired immunity – requires exposure to a
pathogen or microbial agent, upon recovery lifelong immunity is acquired.
Natural (Nonspecific , Innate) Immunity
Non-specific immunity First line of defense against infection Two mechanisms – external and internal
External Composed of structural barriers to keep
infectious agents out of the body. Intact skin Cilia Physiological factors.
Physical barriers – Intact Skin
Intact Skin Difficult for a pathogen to penetrate,
Sweat creates high salt conditions. Oil layer, fatty acids and acid pH present makes
an inhospitable environment for microorganisms. Normal flora prevent other microorganisms
from establishing an infection – “competitive exclusion”.
Natural Immunity - Cilia
Natural Immunity Stomach acid (HCl) kills pathogens and sterilizes food. Mucus lining of lungs traps pathogens and cilia move
particles out to throat and it is swallowed. Coughing and sneezing. Tears wash away pathogens and have bacteriocidal enzymes. Flushing action of urine Circulating cells and tissue cells Wax in ears http://tinyurl.com/27lk4og Normal flora prevents growth of opportunistic pathogens in
mouth, large intestine and reproductive system
Factors Modify Defense Mechanisms Age Hormones Drugs and chemicals Malnutrition Fatigue and stress Genetic determinants
Nonspecific Immunity: Second line of defense Inflammatory response - four classic signs are
redness, swelling, heat and pain. Dilation of capillaries (hyperemia) to increase blood
flow to area Chemotaxis - chemicals released which cause phagocytic
white cells to migrate to the area. Increased capillary permeability allowing white cells to
go to injured area, a process known as “diapedesis” Formation of exudate - same composition as plasma and
it contains antibacterial substances, phagocytic cells, and drugs and antibiotics, if present.
Inflammatory Response
Inflammatory Response
Phagocytosis The following 3 diagrams illustrate the
process of phagocytosis. Be intimately familiar with the process.
Inflammatory Response
Second Line of Defense If bacteria are not successfully killed locally, may further
invade the host by way of the lymphatics to the regional lymph nodes. within lymph nodes the bacteria meet other phagocytic cells bacteria may overcome these and gain access to the
bloodstream where they meet circulating phagocytes (neutrophils and monocytes).
may pass through the bloodstream and reach organs such as the liver and spleen where they come into contact with tissue macrophages.
although a powerful defense system, this final phagocytic barrier may be overcome, with seeding of the microorganism to organs such as bone, brain, and kidney, terminating in fatal septicemia.
Phagocytosis -MEMORIZE1. Initiation is caused by damage to the tissues, either by trauma or as a
result of microbial multiplication.2. Chemotaxis, attraction of leukocytes or other cells by chemicals.3. Opsonization - Opsonization coating a pathogen by substances so as to
enhance phagocytosis.4. Adherence - firm contact between phagocyte and microorganism.5. Engulfment into cytoplasm and enclosed in a vacuole.6. Digestion enzymatic contents in vacuole destroy the microorganism.
Number of killing mechanisms operating in the vacuoles of phagocytic cells. One of the major mechanisms involves hydrogen peroxide which, acting
along with an intracellular enzyme, is rapidly lethal to many bacteria.
Phagocytosis
Phagocytosis http://www.cellsalive.com/ouch.htm http://health.howstuffworks.com/adam-200096.htm
http://tinyurl.com/6oa779
Cells of the Non-Specific Immune System
Cells involved in non specific immunity. Phagocytic cells
Mononuclear phagocytes Polymorphonuclear phagocytes Eosinophils
Mediator cells Basophils and mast cells Platelets
Cells involved in specific immunity
Lymphocytes Plasma cells
Origin of immune cells Origin of all these cell types are from pluripotential stem
cells found in the bone marrow. These self replicating cells differentiate into two types of
"committed" stem cells. One group differentiates further and matures to become platelets,
erythrocytes (red blood cells), monocytes or granulocytes. Second group produces cells of the lymphoid line only.
The lymphoid line will develop into 2 different types, T and B cells, depending upon where they complete their maturation, thymus or bone marrow.
Will be discussed in detail later
Phagocytic Cells Mononuclear phagocytes - include both circulating blood
monocytes and tissue macrophages found in various tissues of the body. Arise from bone marrow stem cells Not end cells, they may divide. Ingest and destroy material such as bacteria, damaged host cells or
tumor cells (non-specific immunity). Stay in peripheral blood 70 hours - migrate to tissues, double in size,
then called tissue macrophages. Tissue macrophages named according to tissue location-
liver=Kupffer cells, brain-microglial cells, etc. Phagocytosis takes place to a greater degree in tissues.
Monocyte and Tissue Macrophage
Neutrophils Characterized by a large nucleus, 3 - 5 lobes,
and specific granules in the cytoplasm. Arise from bone marrow stem cells. They are end cells. Primary function is ingestion (phagocytosis). Clear body of debris such as dead cells and
thrombi. Able to move into tissues by diapedesis.
Neutrophils with Ingested Material
Neutrophil Involved in Phagocytosis
Eosinophils Easily distinguished by the presence of large granules in their
cytoplasm which appear red when stained by routine hematology stains.
Much less phagocytic than macrophages or neutrophils Function is far from clear, however the numbers increase
greatly in certain parasitic diseases and allergic diseases. Both neutrophils and eosinophils contain specific granules,
the granules contain various enzymes which are released under certain circumstances.
Eosinophil
Mediator Cells Influence the immune response by releasing various
chemical substances into the circulation. Have a variety of biological functions
Increase vascular permeability Contract smooth muscle Enhance the inflammatory response
Two types basophils/mast cells Platelets
Basophils
Basophils easily identified due to large numbers of bluish-black granules in the cytoplasm.
The granules are a source of mediators such as histamine (vasoactive amine that contracts smooth muscle) and heparin.
Basophils and platelets are found in the circulation, mast cells are situated in the tissues of skin, lung and GI tract.
Bind IgE, a type of antibody formed during allergic reactions. Circulating basophils greatly resemble tissue mast cells and it
is likely that they are closely related in function. Basophils exist on a few hours in bloodstream. Both of these cells play a role in hypersensitivity (allergic)
reactions
Basophil
Mast cells Resemble basophils. Fixed in the tissues they are connective tissue
cells. Widely distributed through out the body. Long life span, 9-18 months. Plays a role in hypersensitivity reactions by
binding IgE.
Platelets Small non-nucleated cells derived from
megakaryocytes of the bone marrow. Important in blood clotting. Contribute to the immunological tissue injury
occurring in certain types of hypersensitivity reactions by releasing histamine and related substances which are contained within specialized granules in their cytoplasm.
Megakaryocyte & Platelets
Dendritic Cells Primary function is phagocytosis. Process antigen material and present it on the
surface to other cells of the immune system, function as antigen-presenting cells.
Act as messengers between the innate and adaptive immunity.
Classified according to tissue location. Found on skin and all major organs.
Soluble Factors Many soluble tissue and serum substances help to suppress
the grow of or kill microorganisms. Interferons - family of proteins which are important non-
specific defense mechanisms against viral infections. Transferrin - Bacteria do not thrive well in serum that
contains low levels of iron but high levels of transferrin. Complement - a group of proteins that are essential for
bacterial destruction and plays an important role in both non-specific and specific immune mechanisms.
Acute Phase Reactants (Proteins) Defined-normal serum constituents that increase rapidly
because of infection, injury, or trauma to tissues. Acute-phase proteins are a class of proteins whose plasma
concentrations increase or decrease in response to inflammation.
This response is called the acute-phase reaction . In response to injury local inflammatory cells (neutrophils,
granulocytes and macrophages) secrete a number of cytokines into the bloodstream, most notable of which are the interleukins.
The liver responds by producing a large number of acute-phase reactants.
C-Reactive Protein Increases rapidly within 4-6 hours of infection
or injury. Returns to normal rapidly once condition
subsides. Used to monitor healing and has also
increased in usefulness in diagnosing Myocardial Infarction.
Serum Amyloid A Major protein secreted during the acute phase
of inflammation. Has several roles, including
Removes cholesterol from cholesterol-filled macrophages at site of injury – clean up.
recruitment of immune cells to inflammatory sites, and
Thought to play a role in cholesterol metabolism
Complement A series of serum proteins involved in
mediation of inflammation but also involved in opsonization, chemotaxis, and cell lysis.
Alpha-1 Antitrypsin Increases during acute inflammation. Protects tissues from enzymes of inflammatory cells,
especially elastase. When the lungs do not have enough alpha-1
antitrypsin, elastase is free to destroy lung tissue. As a result, the lungs lose some of their ability to
expand and contract (elasticity). This leads to emphysema and sometimes makes breathing difficult.
Haptoglobin Binds irreversibly to free hemoglobin to
protect kidneys from damage and prevent loss of iron by urinary excretion.
Haptoglobin - hemoglobin complex removed by RES, mainly spleen.
Used to monitor hemolysis
Fibrinogen A coagulation factor integral to clot formation
which serves as a barrier to prevent spread of microorganisms further in the body.
Levels increase with tissue inflammation or tissue destruction.
Thought to play a key role in the inflammatory response and development of rheumatoid arthritis.
Ceruloplasmin Principal copper transporting protein in plasma, plays a role
in iron metabolism and histamine regulation. Stimulates the immune system to fight infections, repair
injured tissues and promote healing. Depletion found in Wilson’s disease, causes the body to
absorb and retain excessive amounts of copper. Copper deposits in the liver, brain, kidneys, and the eyes. The deposits of copper cause tissue damage, necrosis (death of the
tissues), and scarring, which causes decreased functioning of the organs affected.
Liver failure and damage to the central nervous system (brain, spinal cord) are the most predominant, and the most dangerous, effects of the disorder.
References http://www.horton.ednet.ns.ca/staff/Selig/isu/Immunity/Innate.htm
http://www.metacafe.com/tags/neutrophil/most_popular/