microbiology Chapter 15 and 16
Gastrointestinal Tract
Feces/fecal matter
Mycolic acid
(waxy lipid) resists digestion by phagocytes; can multiply inside phagocytes Mycobacterium tuberculosis
Portal of Exit
specific routes by which a particular pathogen leaves the body
Urine flow
sterile - helps clear the urethra from microorganisms
Blood Serum
straw-colored liquid remaining after the blood is allowed to clot
invasins
surface proteins that rearrange the actin filaments of the cytoskeleton causing membrane ruffling in host cell allowing bacteria to move through and between host cells.
example of toxoid
tetanis shot
Pathogenic Properties of Protozoa
-Protozoan waste products may cause disease symptoms
Coagulase
-coagulates fibrin in blood to form a clot -clot provides protection
Second Line of Defense
-phagocytic WBCs -inflammation -fever -antimicrobial substances
Genitourinary Tract
Urine, vaginal secretions
Leukocytosis
- increase of WBCs due to a microbial infection
Saliva
- washes microbes off teeth and mucus membranes of the mouth -contains lysozyme an enzyme capable of breaking down the peptidoglycan of bacterial cell walls of g+ bacteria and to a lesser extent those of g- bacteria - contains an antibody (Immunoglobulin A) that prevents attachment of microbes so that they cannot penetrate the mucous membrane.
2nd Line of Defense: Fever
-Abnormally High Body Temperature (Systemic Response) -Most frequent cause is infection from bacteria and their toxins or viruses -Hypothalamus normally set at 37ºC (98.6ºF) -Gram-negative endotoxin causes phagocytes to release the cytokine interleukin 1 (IL-1) IL-1 causes the hypothalamus to release prostaglandins that reset the hypothalamus to a higher temperature, thereby causing fever -Up to a certain point fever is considered a defense mechanism after that it can be a threat
Pathogenic Properties of Algae
-Alexandrium produces a neurotoxin associated with Paralytic shellfish poisoning
2nd Line of Defense: Antimicrobial Substances; Interferons
-Antiviral proteins produced by certain animal cells such as lymphocytes and macrophages after viral stimulation -protects uninfected host cells from viral infection by interfering with viral replication -cytokine messengers
examples of specialized lymphocytes
-B cells (antibody production via plasma cells) -T cells (T helper cells, Cytotoxic T Lymphocytes, T regulatory cells)
example of Gastrointestinal tract pathogen
-Brucella spp.(Brucellosis) -Hepatitis A virus
Bacterial Evasion of the Complement System
-Capsules prevent Complement activation -Some g- surface lipid-carbohydrates prevent membrane attack complex (MAC) formation. -G+ cocci release an enzyme that breaks down the C5a
Function of Inflammation
-Destroy and remove infective agent -limit its effects by confining/walling off the agent and its by-products -Repair/replace damaged tissue
Line of Defense: Mucous Membrane Secretions chemical factors
-Earwax -Gastric juice -Saliva
Pathogenic Properties of Fungi
-Fungal waste products may cause symptoms -allergic response -produce toxins -Capsule prevents phagocytosis -Aflatoxin; carcinogenic (Aspergillus found on peanuts)
CPE effects observed in viral infected cells
-Halts macromolecular synthesis -Causes the cell's lysosomes to release enzymes resulting in cell death -Forms inclusion bodies in host cell containing viral parts -Causes host cells to fuse into a multinucleate cell (syncytium) -Cause changes in host cell functions -Induce cells to produce interferons -Induce antigenic changes on the surface of the host cell -Induce chromosomal changes in the host cell -Loss of contact inhibition resulting in unregulated cell growth
example of parenteral route pathogen
-Hepatitis B -Lyssa virus(rabies)
Deficiencies in complement proteins can cause
-Increased susceptibility to recurrent infections with pyogenic (pus forming) microbes (S.aureus) -Increased susceptibility to Neisseria meningitidis and N. gonorrhoeae infections
TLRs bind to the following microbial structures
-Lipoteichoic acid in g+ -Lipopolysaccharide in g- -Flagellin in flagella of motile bacteria -DNA of bacteria -DNA or RNA in viruses -Various components of fungi and parasites
example of Respiratory tract pathogen
-Mycobacterium tuberculosis (TB) -Varcella Zoster virus (Chicken pox)
2nd Line of Defense: Antimicrobial Substances;Antimicrobial Peptides
-Peptides produced by nearly all plant and animal cells used to destroy various microorganisms -destroy bacterial cells
example of skin route pathogen
-Plasmodium spp(malaria) -Ricketsia rickettsii(Rocky mountain spotted fever)
Examples of microorganisms with capsule
-Streptococcus pneumoniae - pneumococcal pneumonia -Haemophilus influenzae - bacterial meningitis in young children -Bacillus anthracis - anthrax -Klebsiella pneumoniae - bacterial pneumonia -Yersinia pestis - plague
Complications of fever
-Tachycardia - rapid heart rate,affects elderly persons with cardiopulmonary disease -Increased metabolic rate, produce acidosis -Dehydration -Electrolyte imbalances -Seizures in young children -Delirium and coma
example of genitorinary tract pathogen
-Treponema pallidum(syphilis) -Herpes Simplex Virus 2(genital herpes)
Pathogenic Properties of Helminths
-Uses host tissue for growth-metabolic waste can also contribute to the symptoms
Ways bacteria destroy host cells
-Using the host's nutrients - Causing direct damage in the immediate vicinity of the invasion -Producing toxins transported by blood and lymph that damage sites far removed from the original site of invasion -Inducing hypersensitivity reactions
When does a decline in the efficiency of phagocytosis occur
-With increased age - recipients of heart or kidney transplants have impaired nonspecific defenses as a result of receiving drugs that prevent the rejection of the transplant.
Differential WBC count
-a calculation of the percentage of each kind of WBC in a blood sample -determines Leukocyte increase or decrease
Line of Defense: Intact Skin mechanical factors
-a mechanical form of defense -top layer of epidermal cells is dead,dryness of skin inhibits microbial growth -endothelial cells that line blood and lymphatic vessels are not closely packed as those of the epidermis allowing defensive cells and microbes to move into and out of the blood and lymph
macrophages
-a phagocytic cell -mature monocyte
dendritic cells
-a type of antigen-presenting cell characterized by long fingerlike extensions -found in lymphatic tissue and skin
Vaginal secretions
-acidic due to lactic acid by Lactobacillus -resultant acidic environment is antibacterial to other introduced bacteria into the vagina
2nd Line of Defense: Phagocytic WBCs
-beginning of an infection, both granulocytes (especially neutrophils) and monocytes migrate to the infected area -monocytes leave the blood and enter the infected tissue -monocytes enlarge and develop into actively phagocytic macrophages - number of granulocytes increases dramatically; -as the infection progresses, the macrophages dominate which is reflected by an increase in monocytes. -In viral and fungal infections, macrophages predominate in all phases of defense.
Adhesins/ligands
-bind to receptors on host cells -typically glycoproteins or lipoproteins; whereas, the receptors on the host cell are typically sugars
Lectin pathway
-liver produces lectin -lectin combines with sugar monnose on surface of bacteria -triggers complement protein and starts cascade -triggers C3
Chronic inflammation:
-longer lasting inflammatory response to a chronic infection such as tuberculosis caused by M. tuberculosis
2nd Line of Defense: Antimicrobial Substances;The Complement System
-defense system consisting of over 30 proteins in circulatory system -helps WBC -activate C3 protein -covers bacteria with proteins
2nd Line of Defense: Inflammation
-defensive response due to local damage to the body's tissues -Damage can be caused by microbial infections, physical agents, or chemical agents -activation and increased concentration of acute-phase proteins (complement, cytokine, fibrinogen for clotting, and kinins for vasodilation
Natural Killer Cells
-destroy a variety of infected body cells and certain tumor cells via cytolysis and apoptosis -released intact microbes are destroyed by phagocytes
Vasodilation
-dilation of blood vessels -increases blood flow to the damaged area -responsible for the redness and heat associated with inflammation.
C3 protein
-final activation protein -activated by stimulation -starts cascade of protein that activates cytolysis -initates opsonization (enhance phagocytosis) -inflamation
Pathogenic Properties of Viruses
-get into host cell and invade host's immune system -obligate intracellular parasites -Cytopathic Effects (CPE) of Viruses
Perspiration
-helps maintain body temperature, and flush microorganisms. contains lysozyme. -Lysozyme is also found in tears, saliva, nasal secretions, and tissue fluids
Line of Defense: Mucous membranes mechanical factors
-mechanical form of defense -epithelial layer and an underlying connective tissue layer -provides less protection than intact skin -epithelial layer secretes a glycoprotein fluid called mucus which maintains the membranes moist -Lines the gastrointestinal, respiratory, and genitourinary tracts -mucus traps many microorganisms
Line of Defense: Normal Microbiota
-microbial antagonism, competing with pathogens for nutrients -normal microbiota are considered commensalistic -may cause disease if their environmental conditions change (opportunistic pathogens)
Innate Immunity
-non specific -defenses that protect against any pathogen
Using the host's nutrients
-pathogenic bacteria require iron for growth -obtain iron from host by secreting siderophores
prevent phagosome-lysome fusion
-plasmodium -HIV -Mycobacterium -Chlamydia
Sebum
-produced by the skin's oil glands, forms a protective film over the skin -unsaturated fatty acid in the sebum inhibits the growth of certain pathogenic bacteria and fungi -Bacteria that metabolize sebum form free fatty acids that cause the inflammatory response associated with acne
Exotoxins
-produced inside the bacteria as part of their growth and metabolism -secreted into the surrounding medium or released following lysis -Produced by mostly gram positive bacteria and a few gram negative bacteria -Genes for most exotoxins are on bacterial plasmids or phages
capsule
-protective covering on bacterial cell -Gelatinous layer covering the entire bacterium; Composed of polysaccharide
2nd Line of Defense: Antimicrobial Substances;Iron-Binding Proteins
-proteins that provide an antimicrobial effect by inhibiting bacterial growth by reducing the amount of available iron.
siderophores
-proteins that take iron from the host's iron-transport molecules by binding the iron more tightly -taken up by bacterium
Adaptive Immunity
-resistance against a specific pathogen -humoral and cellular immunity
M protein
-resists phagocytosis -occurs on some strains of Streptococcus pyogenes
Plasmids
-segment of dna all by itself in bacteria -provides virulence factor -can produce toxins -antibiotic resistance (shares info w/ normal microbiota)
Acute inflammation
-short lasting inflammatory response -example boil caused by S. aureus.
cytokines
-small protein hormones that stimulate or inhibit normal cell functions -chemical message your body makes
what causes disease in a exotoxin producing bacteria
-the toxin and not by the bacteria -exotoxins produce specific signs and symptoms of the disease.
Limulus amoebocyte lysate (LAL) assay
-use of blood of the Atlantic horseshoe crab which contains WBCs called amoebocytes -amoebocytes contain large amounts of a protein (lysate) that causes clotting -In the presence of an endotoxin, amoebocytes lyse and release their clotting protein -resulting gel-clot (ppt) is a (+) test for the presence of endotoxin.
Gastric juice
-very high acidity destroy bacteria and most bacterial toxins -Many enteric pathogens are protected by food particles and can enter the intestines via the gastrointestinal tract -Helicobacter pylori neutralizes stomach acid, which allows it to grow resulting in ulcers and gastritis (inflammation of the lining of the stomach).
Endotoxins and the Pyrogenic Response
1. macrophage(WBC) digest G- bacterium 2.bacterium disassembled/degraded in vacuole 3.bacterium releases endotoxins(lipid A) in macrophage 4. in response to exposure to lipid A macrophage produces cytokines 5.cytokines released into blood stream by macrophage 6. cytokine travels to hypothalmus(temp. control center of brain) 7.cytokine induce hypothalmus to produce prostaglandins which reset the body's temperature causing a fever
Blood
Biting arthropods, needles/syringes
Classical pathway
Activated by contact between Ag-Ab complex that triggers the complement system
Alternative pathway
Activated by contact between certain complement proteins and a pathogen that triggers the complement system
when does a microorganism initially encounter phagocytes of the host
After a microorganism invades a body tissue
What organisms survive acid from gastric juices
Clostridium botulinum Staphylococcus aureus
examples of pathogenic bacterias that produce exotoxins
Clostridium botulinum - botulsim Staphylococcus aureus - food poisoning and TSS
Respiratory Tract
Coughing, sneezing
survive in phaolysosome
Coxiella burnetti
Adhesin on Streptococcus pyogenes
M protein
what cause the release of cytokines
Endotoxins
Adhesin on Escherichia coli
Fimbriae
Adhesin on Streptococcus mutans
Glycocalyx
Neutrophils
Highly phagocytic and motile; active in initial stages of infection
Toxoid
Inactivated toxin used in a vaccine
Lymphocytes
Involved in specific immunity; antibody production
lyse phagoctye membrane attack complex
Listeria monocytogenes
Examples of Portals of Entry
Mucous membranes Skin Parenteral Route
Inhibit adherence with M protein or capsule
P. pyogenes S. pneumoniae
Examples of mechanisms that expel microbes from the body
Peristalsis, defecation, vomiting, and diarrhea
Toxin
Poisonous substances produced by certain microorganisms that contribute to their pathogenicity
B Cells
Produce antibodies
Eosinphils
Produce toxic proteins against certain parasites (helminths), some phagocytosis
examples of Portal of Exits
Respiratory Tract Gastrointestinal Tract Genitourinary Tract Skin Blood
biofilms invade phagocytosis
S. aeruginosa
kill phagoctyes leukocidins
S. aureus
Line of Defense: Secretions chemical factors
Sebum Perspiration Urine flow Vaginal secretions
escape phagosome
Shigella Rickettsia
What is one factor responsible for swelling of lymph nodes during infection
The maturation and proliferation of macrophages along with lymphocytes
Virulence
The quantitative ability of an agent to cause disease
exoenzymes
The virulence of some bacteria aided by production of extracellular enzymes
Skin
Wound infections, pus
endotoxic shock
a result of Endotoxins
Pathogenicity
ability of an infectious agent to cause disease
Immunity (Resistance)
ability to ward-off disease via defense mechanisms
Opa protein
allows attachment to host cells and internalization within the host cell Neisseria gonorrhoeae
what happens when bacterium is not destroyed by phagocyte
bacterium overcomes the host's defense by damaging the host cells
pathways of complement activation
classical pathway alternative pathway lectin pathway
Mucous membranes
conjunctiva, respiratory, gastrointestinal and genitourinary tracts
Dendritic cells
destroy microbes by phagocytosis initiate adaptive immunity responses.
Kinases
digests fibrin clots
Toxins produced by Bacteriophage
diphtheria toxin erythrogenic toxin Staphylococcal enterotoxin pyrogenic toxin botulinum neurotoxin Streptococcus pneumoniae capsule choleratoxin
membrane ruffling
disruption of the cytoskeleton of the host cell by bacterial invasins
lipid A
endotoxin in G- bacteria
Symptoms due to cytokines
fever, nausea, vomiting, diarrhea, sometimes shock or death
Skin
hair follicles and sweat ducts
Agranulocytes
have granules in their cytoplasm granules are not visible under the light microscope.
aspirin and acetaminophen reduce fever by
inhibiting the synthesis of prostaglandins
T Cells
initiate cell-mediated immunity
First Line of Defense
intact skin mucous membranes and their secretions normal microbiota
why is it important to determine the presence of endotoxins in drugs, medical devices and body fluids that have been sterilized?
it is possible that endotoxins are present but no bacteria can be cultured from the items
Granulocytes
large granules in the cytoplasm. differentiated based on the staining of the granules
Plasma
liquid remaining after the formed elements are removed from the unclotted blood
What infections increase WBC count
meningitis infectious mononucleosis appendicitis pneumococcal pneumonia gonorrhea
Line of Defense: Mucous membranes cont. Ciliary escalator mechanical factors
microbes trapped in mucus are transported away from the lungs toward the throat cilia Coughing and sneezing speeds up the process. Cigarette smoke impairs cilia function.
Lysogenic conversion
phage incorporates its DNA w/ bacterial DNA creating prophage and picking up new characheristics, produce toxins
endotoxins
part of the outer portion of the cell wall of gram negative bacteria -released when the bacterium die and the cell walls undergo lysis
Causing direct damage in the immediate vicinity of the invasion
pathogen enters the host cell and multiply or pass through the host cell causing rupture or disruption of the host cell
antigenic variation
pathogens alter their surface antigens
Monocytes
phagocytic as mature macrophages after entering tissues
what do capsules do
prevent phagocytosis by host cells; however -if host makes antibodies against capsule, it is destroyed by phagocytosis
How is innate system activated
protein receptors in the plasma membranes of macrophages bind to the invading microbes and activate an immune responses directed against the invading microbes. -After binding with defensive cells, TLRs induce the cells to release cytokines
antibodies
proteins that bind to antigens and inactivate or destroy them
Earwax
provides a physical barrier and a chemical protectant
cytolysis
punches whole in plasma membrane of bacterial cell
Portals of Entry
specific routes by which a particular pathogen gains access to the body
Basophils
release histamine that cause inflammation in allergic response
What infections decrease WBC count known as leukopenia
salmonellosis brucellosis some viral rickettsial infections
Third Line of Defense
specialized lymphocytes and antibody productions
what happens when Antibiotics used to treat diseases caused by G- bacteria lyse the bacterial cells
the reaction releases the endotoxin and the human body reacts to endotoxin which may lead to an immediate worsening of symptoms
protein receptors
toll-like receptors - TLR
hemolysins
toxins that destroy RBCs by forming protein channels
Susceptibility
vulnerability or a lack of resistance to a disease
Lacrimal apparatus
washes eye and drains tears
disseminated intravascular clotting (DIC).
when Endotoxins activate blood-clotting proteins resulting in small blood clots
Parenteral Route
wounds, bites, cuts, surgery, and injections of pathogens by deposition directly into tissues beneath the skin and mucous membranes.
