The number of microorganisms required to produce a demonstrable infection in 50% of the test host population
ID50
Attachment of a microbe to another’s plasma membrane or other surface.
Adherence
The ability of a microbe to cause disease by overcoming the defenses of the host
Pathogenecity
A carbohydrate-specific binding protein that projects from prokaryotic cells; used for adherence
Receptors
The lethal dose for 50% of the inoculated hosts within a given period.
LD50
The avenue by which a pathogen gains access to the body – mucous membranes, skin, or parenteral route.
Portals of entry
The degree of pathogenicity of a microorganism.
Virulence
An attachment for a pathogen on a host cell.
Adhesins
A portal of entry for pathogens by deposition directly into tissues beneath the skin and mucous membranes
Parenteral route
The most frequently used portal of entry for
pathogens is the
C) mucous membranes of the respiratory tract
The ID50 is
percent of the test population.
E) a measure of pathogenicity.
B) the dose that will cause an infection in 50
percent of the test population.
A bacterial outer membrane protein (gram -) that increases the attachment to and penetration of host cells and causes the bacterial colonies to be opaque. (cell wall component)
Opa
An outer, viscous covering on some bacteria composed of a polysaccharide or polypeptide (glycocalyx) that inhibits phagocytosis. (cell wall component)
Capsule
An appendage on a bacterial cell used for attachment that increases virulence through improved penetration. (cell wall component)
Fimbriae
A surface protein produced by Salmonella typhimurium and Escherichia coli that rearranges nearby actin filaments in the cytoskeleton of a host cell and increases host cell penetration. (host cell penetration)
Invasins
A heat and acid resistant protein of streptococcal cell walls and fibrils that increases virulence through improved penetration. (cell wall component)
M protein
Long-chained, branched fatty acids that are characteristic of members of the genus Mycobacterium that increases virulence through resistance of phagocytosis. (cell wall component)
Mycolic acid
A bacterial enzyme that causes blood plasma to clot and increases virulence by protecting the bacteria cells from host defenses. (exoenzyme)
Coagulases
An enzyme secreted by certain bacteria that hydolyzes hyaluronic acid (connective tissue) and helps spread microorganisms from their initial site of infection. (exoenzyme)
Hyaluronidase
A bacterial enzyme that breaks down fibrin (blood clots) that are formed to isolate an infection (streptokinase). (exoenzyme)
Bacterial kinases
An enzyme that hydrolyzes collagen facilitating the spread of an infection through connective tissue. (exoenzyme)
Collagenase
Changes in the surface antigens that occur in a microbial population allowing the microbes to escape detection by the hosts immune system.
Antigenic variation
Which of the following statements is FALSE?
between cells.
B) Coagulase destroys blood clots.
The presence of toxins in the blood
Toxemia
The capacity of a microorganism to produce a toxin.
Toxigenicity
Any poisonous substances produced by a microorganism
Toxins
A condition resulting from the ingestion of a microbially produced toxin.
Intoxications
Part of the outer portion of the cell wall of most gram-negative bacteria; released upon the destruction of the cell
Endotoxin
The lipid portion of LPS that is the actual endotoxin found in the cell wall of most gram-negative bacteria. (endotoxin)
Lipid A
Excreted bacterial proteins that bind and accumulate iron for use by bacteria
Siderophores
A protein toxin released from living, mostly gram-positive bacterial cells
Exotoxins
Bacterial exotoxins consisting of two polypeptides; the A part is an enzyme and the B part is a binding component. (exotoxin)
A-B Toxins
Substances produced by some bacteria that can destroy neutrophils and macrophages. (exotoxin)
Leukocidins
An enzyme that lyses red blood cells.(exotoxin)
Hemolysins
A sudden drop in blood pressure caused by bacterial toxins in the blood
Septic shock
An antigen that activates many different T cells, thereby eliciting a large immune response. (exotoxin)
Superantigens
Endotoxins are
D) part of the gram-negative cell wall.
Symptoms of intense inflammation and shock
occur in some gram-positive bacterial infections
due to
D) superantigens.
The route by which a pathogen leaves the body.
Portals of exit
A visible effect on a host cell, caused by a virus, that may result in host cell damage or death.
Cytopathic effects
A carcinogenic toxin produced by Aspergillus
Alfatoxin
A toxin produced by a fungus.
Mycotoxins
A neurotixin produced by some dinoflagellates
Saxitoxin
Cytopathic effects are changes in host cells due to
B) viral infections.
Transmembrane protein of immune cells that recognizes pathogens and activates an immune response directed against those pathogens
TLR (Toll-like receptor)
Signaling proteins induced by TLRs in defensive cells that regulate the intensity of an immune response.
Cytokines
Host defenses that afford protection against any kind of pathogen (non-specific)
Innate Immunity
Molecules and their patterns found on pathogens that are not found on self cells
Pathogen Associated Molecular Patterns (PAMPs)
The ability, obtained during the life of the individual, to produce specific antibodies and T cells that detect and eliminate certain pathogens (specific).
Adaptive Immunity
The ability to ward off disease caused by microbes or their products through innate and adaptive mechanisms and to protect against environmental agents such as pollen, chemicals, and animal dander.
Immunity
Lack of resistance to a disease
Susceptibility
Innate immunity
D) is nonspecific and present at birth.
An enzyme in perspiration that is capable of breaking down peptidoclycan cell walls of bacteria.
Lysozyme (Chemical)
The outer and thinner portion of the skin that is in direct contact with the external environment
Epidermis (Physical)
Ciliated mucosal cells of the lower respiratory tract that move inhaled particles away from the lungs.
Ciliary escalator (Physical)
Oily substance produced by the sebaceous glands that forms a protective film over the surface of the skin.
Sebum (Chemical)
A group of structures that protects eyes by manufacturing and draining tears
Lacrimal apparatus (Physical)
The inner and thicker portion of the skin that is composed of connective tissue
Dermis (Physical)
Membranes that line the body openings, including the intestinal tract, open to the exterior and fill with mucous that traps pathogens and prevents entry
Mucous membranes (Physical)
A protein found in the epidermis, hair, and nails that creates a protective layer in the dead epidermal cells of the epidermis
Keratin (Physical)
All of the following protect the skin and mucous
membranes from infection EXCEPT
A) HCl.
Microbes inoculated in a host to occupy a niche and prevent growth of pathogens.
Probiotics
The formation of blood cells in the red bone marrow by stem cells.
Hematopoiesis
The microorganisms that colonize a host without causing disease.
Normal Microbiota
The white bloods cells that are a formed element of the blood.
Leukocytes
A highly phagocytic granulocyte; also called a polymorphonuclear leukocyte (PMN) or polymorph; leave the blood, enter infected tissue, and destroy microbes and foreign particles
Neutrophils
A leukocyte with visible granules in the cytoplasm when viewed through a light microscope; includes neutrophils, basophils, and eosinophils.
Granulocytes
A granulocyte that readily takes up basic dye and is not phagocytic; has receptors for IgEFc regions; important in inflammation and allergic response
Basophils
A granulocyte whose granules take up the stain eosin; somewhat phagocytic and leave the blood; produce toxic proteins against certain parasites, such as helminths.
Eosinophils
A leukocyte precursor cell that leaves circulating blood, enters body tissues, and matures into macrophages
Monocytes
A leukocyte without visible granules in the cytoplasm when viewed through a light microscope; includes monocytes and lymphocytes
Agranulocytes
A type of antigen presenting cell characterized by long finger-like extensions; found in lymphatic tissue and skin.
Dendritic cells
A leukocyte involved in specific immune responses.
Lymphocytes
A lymphoid cell that destroys tumor cells and virus-infected cells; release perforin and granzymesto attack cells
Natural Killer (NK) cells
Which of the following is involved in resistance to parasitic
helminths?
D) eosinophils
Macrophages arise from which of the following?
E) monocytes
The ingestion of microorganisms or other large particles by eukaryotic cells.
Phagocytosis
A macrophage that is located in a certain organ or tissue
Fixed macrophages
Consists of a fluid called the lymph, vessels called the lymphatic vessels, a number of structures and organs (thymus and spleen) containing lymphoid tissue, and red bone marrow, where stem cells develop into blood cells, including lymphocytes.
Lymphatic system
A cell capable of engulfing and digesting microorganisms or other large particles that are harmful to the body.
Phagocyte
A macrophage that leaves the blood and migrates to infected tissues.
Free (wandering) macrophages
During the digestion stage of phagocytosis; created from the fusion of the phagosome and a lysosome inside of the macrophage where digestive enzyme degrade the microbe and then discharge the residual body waste outside of the cell.
Phagolysosome
During the ingestion stage of phagocytosis; pseudopods meet and fuse to form an acid containing food vacuole (phagocytic vesicle) that around the ingested microbe
Phagosome
During the chemotaxis and adherence stage of phagocytosis; attachment of a phagocyte to another’s plasma membrane or surface.
Adherence
During the ingestion stage of phagocytosis; cellular extensions created by phagocytes that engulf the microorganism.
Pseudopods
During the chemotaxis and adherence stage of phagocytosis; movements of phagocytes toward a microorganism in response to a chemical released by the microorganism.
Chemotaxis
The late stage of fever characterized by vasodilation and sweating
Crisis
A host response to tissue damage characterized by redness, pain, heat, and swelling; and sometimes loss of function.
Inflammation
During the early stages of inflammation, these serum proteins increase in concentration by at least 25%.
Acute-phase proteins
An abnormally high blood temperature caused by cytokines that reset the hypothalamic thermostat to a higher temperature.
Fever
Dilation or enlargement of blood vessels in response to infection as part of the inflammation process
Vasodilation
During the vasodilation and increased permeability stage of inflammationthis abnormal accumulation of interstitial fluid in tissues occurs causing swelling.
Edema
The final stage of inflammation in which tissues replaced dead or damaged cells
Tissue Repair
During the vasodilation and increased permeability stage of inflammationthis substance is released by tissue cells and causes vasodilation, capillary permeability, and smooth muscle contraction
Histamine
During the phagocyte migration and phagocytosis stage of inflammation phagocytes begin to squeeze between the endothelial cells of the blood vessel through this process to reach the damaged area
Diapedesis
During the vasodilation and increased permeability stage of inflammationan accumulation of dead phagocytes, dead bacterial cells, and fluid that occurs in a cavity formed by the breakdown of body tissues
Pus
During the phagocyte migration and phagocytosis stage of inflammation this process occurs that allows phagocytes to stick to the lining of blood vessels
Margination
All of the following occur during inflammation. What is the
first step?
E) vasodilation
A chill is a sign that
B) body temperature is rising
Margination refers to
A) the movement of phagocytes through walls of blood
vessels.
B) the chemotactic response of phagocytes.
C) dilation of blood vessels.
D) the adherence of phagocytes to microorganisms.
E) adherence of phagocytes to the lining of blood vessels.
E) adherence of phagocytes to the lining of blood vessels
Short peptides made by animal cells that have a broad spectrum of antimicrobial activities.
Antimicrobial peptides (AMPs)
A specific group of cytokines produced by animal cells in response to a viral infection.
Interferons
A protein made in response to interferon that blocks viral multiplication.
Antiviral proteins (AVPs)
The complement pathway that does not involve antibodies but instead is activated when there is contact between certain complement proteins and a pathogen causing direct activation of C3 which participates in inflammation, opsonization, and cytolysis
Alternative pathway
The complement pathway that is initiated when antibodies bind to antigens activating C1 which in turn activates C2 and C4. C2 and C4 activate C3 that participates in inflammation, opsonization, and cytolysis
Classical pathway
Over 30 proteins produced in the liver that circulate in the blood serum and within the tissues throughout the body that ”completes” or assists the immune system by destroying microbes through cytolysis, opsonization, and inflammation
The complement system
The complement pathway that is activated when macrophages release cytokines that stimulate the liver to produce lectins. Lectins can activate C2 and C4 like the classical pathway which results in activation of C3 and an increase in inflammation,
opsonization, and cytolysis
Lectin pathway
Immune adherence that promotes the attachment of a phagocyte to a microbe
Opsonization
Complement proteins C5-C9, which together makes lesions in cell membranes that lead to cell death through cytolysis
Membrane Attack Complex (MAC)
The complement protein cascade is the same for the
classical pathway, alternative pathway, and lectin pathway
after the point in the cascade where the activation of
________ takes place.
A) C3
Which of the following is an effect of opsonization?
C) increased adherence of phagocytes to microorganisms
The first time the adaptive immune system meets and combats a particular foreign substance.
Primary response
The ability obtained during the life of the individual , to produce specific antibodies and T Cells.
Adaptive Immunity
Later interactions between the adaptive immune system and a cell or substance that are faster and more effective as a result of cellular memory
Secondary response
Molecules on T cells that recognize antigens
T cell receptors
A type of lymphocyte; differentiates into antibody-secreting plasma cells and memory cells.
B cells (B lymphocytes)
An immune response that involves T cells binding to antigens presented on antigenpresenting cells; T cells then differentiate into several types of effector T cells
Cellular immunity
A type of lymphocyte, which develops from stem cells processed in the thymus gland, that is responsible for cell-mediated immunity
T cells
Immunity produced by antibodies dissolved in body fluids, mediated by B cells; also called antibody-mediated immunity
Humoral immunity
A protein produced by the body in response to an antigen, and capable of combining specifically with an antigen
Antibodies
Which of the following is NOT a characteristic of cellular
immunity?
E) The cells originate in bone marrow.
The first class of antibodies to appear after exposure to an antigen; pentamer structure that remains in the circulation
IgM
The class of antibodies found on the surface of B cells
IgD
The most abundant class (80%) of antibodies in serum; fix complement; enhance phagocytosis; participates in inflammation; protects against circulating viruses and bacteria; and provide fetal immunity.
IgG
The class of antibodies found in secretions like mucous membrane secretions and breast milk.
IgA
The class of antibodies involved in hypersensitivities like allergies
IgE
A protein (antibody) formed in response to an antigen and can react with that antigen
Immunoglobulin (Ig)
A specific region on the surface of an antigen against which antibodies are formed; also called an antigenic determinant.
Epitope
A Y-shaped bivalent antibody with four protein chains: two identical light chains and two identical heavy chains
Antibody monomer
The genes that code for histocompatibility antigens; also known as human leukocyte antigen complex.
Major histocompatibility complex
Any substance that causes antibody formation; from antibody generators; also called an immunogen.
Antigen
A substance of low molecular weight that does not cause the formation of antibodies by itself but does so when combined with a carrier molecule
Hapten
The class of MHC molecules that exist on the surface of antigen-presenting molecules (APCs) including B cells
MHC Class II
The class of MHC found on the plasma membranes of mammalian nucleated cells that identify “self”.
MHC Class I
Which of the following is the best definition of epitope?
A) specific regions on antigens that interact with antibodies
The antibodies found in mucus, saliva, and tears are
A) IgA.
The elimination of B and T cells that react with self-antigens.
Clonal deletion
An antigen-antibody reaction that inactivates a bacterial exotoxin or virus.
Neutralization
The process of B cell differentiation into antibody producing plasma cells and long-lived memory cells for enhanced secondary response.
Clonal selection
The killing of antibody coated cells by natural killer cells and leukocytes
Antibody binding to antigens that enhances phagocytosis by phagocytes
Opsonization
An antigen that will stimulate the formation of antibodies without assistance of T Helper cells
T independent antigen
An antigen that will stimulate the formation of antibodies only with the assistance of T Helper cells
T dependent antigen
A specialized T cell that often interacts with an antigen before B cells interact with the antigen
T Helper (TH) cell
A lymphoid cell that destroys tumor cells and virus-infected cells but is antibody independent
Natural Killer Cells (NK Cells)
Which of the following bacterial components would most
likely result in B cell stimulation by T-independent antigens?
E) capsule
Which of the following statements is NOT a possible
outcome of antigen-antibody reaction?
D) clonal deletion
A macrophage that has increased phagocytic ability and other functions after exposure to mediators released by T cells after stimulation by antigens
Activated macrophages
Elimination of T cells that don’t recognize MHC molecules for an immune response
Thymic selection
Cells in the gastrointestinal tract that take up and transfer antigens to lymphocytes in Peyer’s patches
Microfold cells (M cells)
Proteases that induce apoptosis.
Granzymes
T cells that combat autoimmunity by repressing other T cells
T regulatory cells (Treg)
The natural programmed cell death of a cell; the residual fragments are disposed of by phagocytosis.
Apoptosis
An activated T cell that kills cells presenting endogenous antigens. Bind to MHC Class I molecules and destroy virus infected cells
Cytotoxic T Lymphocyte (CTL - CD8+)
Protein that makes a pore in a target cell membrane, released by cytotoxic T lymphocytes.
Perforin
T cells that recognize an antigen presented on the surface of a macrophage and activate the macrophage. Bind to MHC Class II molecules on B cells and APCs
T Helper Cells (TH - CD4+)
A type of antigen-presenting cell for cellular immunity characterized by long finger-like extensions; found in lymphatic tissue and skin.
Dendritic cells
Thymic selection 2
C) destroys T cells that do not recognize self-molecules of MHC.
Which of the following destroys virus-infected cells?
E) CTL
A rapid rise in antibody titer following exposure to an antigen after the primary response to that antigen; also called anamnestic response or secondary response.
Memory (anamnestic) response
The amount of antibody in serum
Antibody titer
Antibody production in response to first contact with an antigen
Primary response
The natural transfer of humoral antibodies, for example, transplacental transfer.
Naturally acquired passive immunity
The production of antibodies by the body in response to a vaccination
Artificially acquired active immunity
The transfer of humoral antibodies formed by one individual to a susceptible individual by the injection of antiserum
Artificially acquired passive immunity
Antibody production in response to an infectious disease
Naturally acquired active immunity
The branch of immunology that studies blood serum and antigen-antibody reaction in vitro.
