27/28 Host-Parasite Interactions

Question 1

principal pathogen

Answer 1

regularly causes disease in a proportion of susceptible hosts who have normal specific and nonspecific defense mechanisms. Eg streptococcus pneumoniae, neisseria meningitidis, coccidioides immitis

Question 2

commensal organism

Answer 2

lives within or on the surface of the host, almost never perturbing homeostasis. Eg: diphtheroids, lactobacilli

Question 3

opportunistic pathogen

Answer 3

rarely causes disease except in hosts who have defects in specific or nonspecific defense mechanisms. Eg pseudomonas aeruginosa, staphylococcus epidermidis, aspergillis fumigatus

Question 4

what is virulence?

Answer 4

measure of the tendency of an organism to cause disease

Question 5

what is LD50? ID50?

Answer 5

dose of a microorganism that will kill/infect 50% of susceptible population

Question 6

koch’s postulates?

Answer 6

1. orgnaism must be found in all cases of disease but generally not in healthy animals
2. organism must be isolated from diseased animals and grown in pure culture
3. disease must be reproduced when the isolated organism is inoculated into susceptible animals
4. organism must be isolated in pure culture from the experimentally infected animals

*** beware that these are not universally applicable - most pathogenic microorganisms cause disease in only a subset of infected animals and therefore may be cultured from asymptomatic indivs, or some can’t be cultivated in vitro, or some are host-adapted and don’t cause a similar disease in animals

Question 7

molecular koch’s postulates are useful to determine what?

Answer 7

if a particular phenotype (trait) is required for disease)

Question 8

what are koch’s molecular postulates?

Answer 8

1. gene(s) encoding the phenotype should be associated with pathogenic strains
2. inactivation of the gene(s) results in reduction in virulence
3. restoration of the gene(s) into the avirulent mutant reestablishes virulence

Question 9

each organism has evolved its own unique survival strategy that enables it to fulfill its primary objective, which is what?

Answer 9

proliferation

Question 10

in the case of infectious agents, survival requires what?

Answer 10

both multiplication and transmission to new hosts

Question 11

for most primary pathogens, what is the most common outcome of infection?

Answer 11

asymptomatic (disease results more or less often depending on the details of the survival strategy)

Question 12

one important distinction between pathogens and non-pathogens may be the degree to which the microbe does what?

Answer 12

exposes the host to molecules recognized by pattern recognition receptors of the innate immune system (non-pathogens often occupy niches where such interactions are uncommon or unproductive)

Question 13

death is a _______ outcome of infection for the microorganism, as well as the host.

Answer 13

unfavorable

because it reduces opportunities for the organism to proliferate

Question 14

infections with high mortality rates often represent what?

Answer 14

unstable host-pathogen relationships (insufficient time for co-evolution of host and microbe, When an organism adapted for one host is introduced into a naive population, the result is often devastating)

Question 15

what are the damaging consequences of most pathogens encountering an intracellular niche?

Answer 15

host will detect the organism and innate immune response will be activated

Question 16

what are the microbial factors involved in the emergence of new infections?

Answer 16

1. short generation time (evolution in response to changing environmental factors)
2. mutations because of 1 and that bacteria/viruses are haploid
3. genetic exchange (bacteria evolved several mechs of genetic exchange including conjugatoin, transformation, and transduction…transposons can move genes from one DNA molecule to another)
4. environmental factors/changes in vector distribution

Question 17

conjugation

Answer 17

DNA transfer through direct contact

Question 18

transformation

Answer 18

DNA uptake from the environment

Question 19

transduction

Answer 19

DNA transfer through bacteriophage infection

Question 20

host factors involved in the emergence of new infections

Answer 20

1. changes in behavior (new niches for microorganisms, eg super-absorbent tampons leading to toxic-shock syndrome)
2. expanding populations (into new environments leads to increased contact with other species which have their own pathogens, eg lyme disease)
3. Increased travel (epidemics can quickly become pandemics like SARS)
4. opportunities for contamination and distribution of food and water are greater than ever (Listeria, E.coli)
5. advances in medicine and emergence of immunosuppressive infections has increased the population of susceptible individuals

Question 21

pathogenic microorganisms generally follow similar themes in their life cycle: what are they?

Answer 21

entry into new host, establishment and multiplication, avoidance of host defense mechanisms, tissue damage, and exit

Question 22

skin as an anatomic barrier?

Answer 22

extremely effective - thick, dru, acidic, and constantly being shed

Question 23

mucosa as an anatomic barrier?

Answer 23

mucin, motility, sIgA

Question 24

respiratory tract as an anatomic barrier?

Answer 24

nostril hair, mucociliary escalator, lysozyme, cough, sneeze, gag (may be compromised by cigarette smoke, air polution, endotracheal tubes, altered consciousness)

Question 25

alimentary tract as an anatomic barrier?

Answer 25

mouth defenses: saliva, swallowing, lysozyme, sIgA

GI defenses: pH, digestive enzymes, mucus, peristalsis, sIgA, shedding

Question 26

GU tract as an anatomic barrier?

Answer 26

Urinary tract down to urethra is sterile due to flow, pH, distance of bladder from exterior (UTIs far more common in females than males), may be compromised by mechanical trauma (intercourse) or poor bladder emptying

female GU tract: normally sterile above cervix, vaginal defenses include pH (4.5)

Question 27

ecological barriers to infection?

Answer 27

normal flora composed of commensal organisms established within days of birth that is:

• dense (every surface is covered)
• dynamic (affected by extrinsic factors like diet, hormones, sanitary conditions, antibiotics)
• protective (can inhibit est of new microorgs - competition for nutrients, and adherence sites, and secretion of inhibitor substances like toxic metabs)

Question 28

normal flora of skin?

Answer 28

diphtheroids, staph epidermidis

Question 29

normal flora of mouth?

Answer 29

viridans, streprococci, anaerobes

Question 30

GI tract normal flora?

Answer 30

somach - only transient or unculturable bacteria

upper small bowel lots mixed

lower small bowel - even more (coliforms, anaerobes)

colon - even more: anaerobes more than aerobes, bacteroides, fusobacterium, bifidobacterium, peptococcus, peptostreptococcus, clostridium, eshcerichia coli, candida

Question 31

normal flora of female genital tract?

Answer 31

lactobacilus, gram positive anaerobes

Question 32

how does salmonella use tetrathionate respiration?

Answer 32

to outcompete the normal flora in the colon

lumen of colon is an anaerobic env’t where the normal flora produce H2S, which is detoxified by the mucosa to thiosulfate. Salmonella invade colonic cells, exposing MAMPs and inducing intense inflammation. ROS produced in response to the bacteria oxidise thiosulfate to tetrathionate, which the salmonella are uniquely able to reduce back to thiosulfate and outgrow the anaerobes in the colon

microbiota -> H2S -> S2O3(-2) -> inflammation and S2O3 (-2) -> S4O6(-2) -> S2O3(-2) to help the salmonella grow

Question 33

for most diseases, adherence to host tissues is requisite for pathogenesis. Specific molecular interactions between what mediate binding with high avidity?

Answer 33

adhesins and receptors

Question 34

adhesion is often mediated by structures that extend from the microbial surface - why?

Answer 34

negative charges on the surface of both host cells and many microbes

Question 35

what happens to a V.cholerae mutatnt that is unable to make fimbriae?

Answer 35

it is avirulent, even though it still makes toxin (mutant is unable to establish itself in the human intestine long enough to produce enough CT to cause illness)

Question 36

facts of bacterial pili (fimbriae)?

Answer 36

• different classes, many varieties within each class
• rod-like structures that protrude from the cell surface
• composed of repeating subunits in helical arrangement
• some have tip or local adhesins
• specific moleclar interaction
• expression regulated to allow bacteria to adjust to env’t
• binding to receptors may help to signal bacteria that they are in contact w/host cells

Question 37

receptors on the host surface is critical for adherence to the adhesion of various gram-positive bacteria. The receptors are often what?

Answer 37

glycoproteins or glycolipids (globotrioacyl ceramide, a P1 blood group antigen) and related molecules for P fimbriae, uroplakin (surface glycoprotien on bladder cells) for Type-1 Pilli

Question 38

fibronectin is a protein implicated in adhesion of many ____ bacteria.

Answer 38

gram positive

Question 39

surface carbs, including blood group antigens, can alter risk of infections, what are two examples?

Answer 39

UTI and norovirus

Question 40

pathogen adherence to foreign bodies and biofilms?

Answer 40

many org adhere to foreign bodies (catheters, CSF shunts, pacemaker wires). Biofilm composed of bacteria, bacterial polysaccharides, and proteins, and host ECM on a foreign body constitutes a site (*******protected from phagocytes and the action of antibiotics)

Question 41

how do pathogens use complement evasion to avoid host defenses?

Answer 41

N. meningitidis specifically binds to and sequesters factor H, resulting in complement avtivation and depletion. Indivs who produce more fH have an increased risk of N. Meningiditis disease. Other pathogens bind, block, or degrade other C’ components.

Question 42

how do pathogens use cellular invasion to avoid host defenses?

Answer 42

all viruses and other pathogenic microbes are capable of efficiently entering cells. This ability may allow them to avoid host antibody and complement with competition with extracellular micro-organisms. Comes at a price because the host is likely to detect and respond to invasion

Question 43

zipper method of cellular invasion?

Answer 43

tight binding of a microbial ligand to a receptor that is coupled to the cytoskeleton results in recruitment of more receptors that in turn bind to the ligand. Eventually organism is completely surrounded by host membrane

eg:
yersinia pseudotuberculosis and Y. enterocolitica produce an outer membrane potein known as invasin which mimics the binding site of the natural ligand (fibronectin) and binds to members of the B1 family of integrins with high affinity (which are linked to the cytoskeleton)

listeria monocytogens produces a surface protein known as internalin, which binds to E-cadherin. Cadherins are surface molecules that mediate calcium-dependent homophilic interactions important for cell-cell contact. Cadherins are also linked to the actin cytoskeleton.

Question 44

trigger method of cellular invasion?

Answer 44

microbe engages host signaling proteins that regulate actin and cause the cell to form ruffles that engulf the organism

eg
salmonella and shigella species each have a type III secretion system that can deliver bacterial proteins into the cytoplasm of host cells. Delivery of these proteins results in activation of Rac and Cdc42, small GTPases that are members of the Rho subfamily of Ras homologues and regulate the actin cytoskeleton. Activaiton of CDC42 results in rapid changes in cell shape and the formation of filopodia. Mutations in the genes that encode the type III secretion system or in the genes that encode teh secreted protein markedly reduce invasion. Salmonella delivers an additional protein that acts as a guanosine exchange facotr, deactivating Rac and cdc42, restoring shape to normal

Question 45

how do pathogens use type III secretion systems to avoid host defenses?

Answer 45

1. one of several systems for exporting proteins to external env’t and into host cells
2. present in gam-positive pathoges like salmonella, shigella, yersinia, pseudomonas, and some strains of E. coli
3. allow delivery of viruence factors directly into cytoplasm of host cells
4. secretion of these factors is triggered by contact w/ host cells
5. factors mediate diverse functions including invasion, avoidance of phagocytosis, cytotoxicity, innate immune response inhibition, apoptosis)

Question 46

how do pathogens use avoidance of phagocytosis to avoid host defenses?

Answer 46

1. ENCAPSULATION. the most important causative agents of meningitis and pneumonia are all encapsulated. Capsule consists of demarcated external layer (usu polysaccharide)…resistant to phagocytosis by masking internal structures that activate the alternative pathway of C’, by mechanical, by electrostatic interference
2. OTHER: M protein of strep. pyogenes is a surface protein that prevents interaction b/w streptococcal cell wall and complement components; salmonella dn shigella deliver proteins to host cytoplasm that bind pro-caspase-1, which then cleaves and releases IL-1 and induces an inflammatory form of programmed cell death termed pyroptosis. Yersinia induces apoptosis by blocking antiapoptotic pathways

Question 47

how do pathogens use survival in the phagocyte to avoid host defenses?

Answer 47

1. escape from endocytic vacuole (trypanosoma cruzi, some rickettsiae, shigella, and listeria monocytogenes escape before they can be destroyed.
2. inhibition of phagolysosomal fusion (toxoplasma gondii and legionella pneumophila are taken into vacuoles that do not acidify and do not fuse with lysosomes. Legionella uses a type IV secretion system to create a unique compartment that does not fuse with lysosome and recruits cellular organelles)
3. survival in a hostile env’t (leishmania and coxiella burnetii remain within the phagolysosome but resist phagocytic killing by mechanisms under investigation)

Question 48

how do pathogens use antigenic variation to avoid host defenses?

Answer 48

means of avoiding immune system by changing surface components recognized by the host. Many mechanisms employed:

• rapid mutation (HIV)
• recombination of silent loci into expression loci (gonococcal pili)
• slip-strand mispairing leading to frameshift silencing and unsilencing of alternative gonococcal opa proteins)
• invertible elements: promoter for type I pili is within an invertable element. pili are made only when the promoter is facing the rest of the operon.

Question 49

how do pathogens use antibody inactivation to avoid host defenses?

Answer 49

bacteria may inactivate antibody, either by binding or degrading

• staph. aureus makes protein A which binds immunoglobulins, inhibits phagocytosis, causes B cell apoptosis, and inhibits the immune response
• many mucosal pathogens make IgA proteases, which specifically degrade IgA

Question 50

how do pathogens use iron scavenging to avoid host defenses?

Answer 50

Fe is required for pathogen sruvival

host sequesters Fe

bacteria have mechanisms for Fe acquisition:

• siderophores which compete with host iron-binding proteins for iron, and bind to receptors ton the bacterial membrane, which in turn transport iron across the memrbane
• some bacteria like N. gonorrhoeae have receptors that bind human transferrin. A mutant that lacks the transferrin receptor is unable to cause urethritis in volunteers.

Question 51

direct host damage

Answer 51

exotoxins

can be classified by structure, by activity, or by target

Question 52

diptheria and shiga toxins do what to the host?

Answer 52

inhibit protein synthesis

certain endothelial cells, like those of the glomerulus, are especially sensitive to toxin

death of endothelial cells leads to microinfarcts, thrombocytopenia, microangiopathic hemolytic anemia, and HUS

Question 53

membrane damaging toxins?

Answer 53

often identified as hemolysins - many have lipid or protein targets

• phospholipases like Clostridium and Bacillus produce enzymes that hydrolyze phospholipids
• pore-formers like staph alpha toxin inserts into the membrane and causes leakage

Question 54

are superantigens involved in direct or indirect host damage?

Answer 54

indirect

Question 55

endotoxin?

Answer 55

lipid A component of LPS associated with outer membrane of Gram (-) bacteria released during growth, by dead bacteria, and by antibiotics

causes fever in nanogram quantities

mammals are programmed to recognize and respond to endotoxin

binds to LPS-binding protein, complex binds to CD14 receptor and TLR4 - leads to IL-1 and TNF txn through NF-kB and thus activation of C’ cascade and release of inflammatory mediators. Can lead to DIC and shock