Micro Lectures

Question 1

There are ___X more bacterial cells and ___X more microbial genes than human cells and genes

Answer 1

There are 10X more bacterial cells and 300X more microbial genes than human cells and genes

Question 2

Bacteria are most abundant in the _____ and _____. The area with the highest amount of bacteria is the _______.

Answer 2

Bacteria are most abundant in the oral cavity and GI tract. The area with the highest amount of bacteria is the lower GI tract.

Question 3

Are there more anaerobes or aerobes in our microbiome?

Answer 3

anaerobes

Question 4

Less than 30% of our gut microbes are ______

Answer 4

Less than 30% of our gut microbes are CULTIVABLE

Question 5

Most of our normal flora comes from the phylum of ______ and ______, NOT ______

Answer 5

Most of our normal flora comes from the class of FIRMICUTES and BACTEROIDETES, NOT PROTEOBACTERIA

Question 6

Where do our gut microbes come from?

Answer 6

Consider birth methods (some exposure to mom’s bacteria during development, a lot of exposure during vaginal birth and during breast feeding)

Question 7

Explain the relationship between normal flora and antibiotics:

Answer 7

Normal flora occupy gut niches, which makes it more difficult for pathogens to take hold. Antibiotics clear spaces for pathogens.

Question 8

C. difficile is a ____-forming bacterium. These are not metabolically active and are extremely stable

Answer 8

C. difficile is a SPORE-forming bacterium. These are not metabolically active and are extremely stable

Question 9

What do our gut microbes do for us?

Answer 9

• Help digest food,
• Produce vitamins B and K,
• Occupy niches and exclude pathogens,
• Train our immune systems

Question 10

Colonization of bacteria:

Answer 10

Can happen when organisms simply get a place to stay/get attachment to a host cell or epithelial surface. Doesn’t necessarily mean that something bad will happen, but is a state of being present in the host.

Question 11

Carrier state of bacteria:

Answer 11

A little further along in the pathogenesis process. This is when you have a pathogen that is present that may not be causing disease in that individual, but could cause disease in others.

Question 12

Location is key in bacterial presence:

Answer 12

What’s good in the gut (e.g. C-diff is normally there in healthy people, but if gut is nicked in surgery everything that’s in GI tract gets into peritoneal cavity and then causes problems). Immune status of the host is also an important consideration.

Question 13

Important normal flora on skin:

Answer 13

Staphylococcus epidermidis

Question 14

Important normal flora of the nose:

Answer 14

Staphylococcus aureus

Question 15

Important normal flora of the vagina:

Answer 15

Lactobacillus species

Question 16

Important normal flora of the GI tract:

Answer 16

Bacterioidetes and Firmicutes (gram +); E. coli and Clostridium species

Question 17

Sessile bacteria:

Answer 17

bacteria growing in a biofilm or attached to a surface (most real-life bacteria are sessile)

Question 18

Planktonic bacteria:

Answer 18

Free-floating or motile bacteria not attached to a surface (most bacteria we deal with in lab are planktonic)

Question 19

A polysaccharide capsule is a bacterial _____ factor

Answer 19

A polysaccharide capsule is a bacterial VIRULENCE factor

Question 20

Characteristics of polysaccharide capsules:

Answer 20

• Extracellular, but attached to gram-positive or gram-negative bacterial surface
• Organized,
• Covalently bound bacterial surface

Question 21

Lipopolysaccharide (LPS or LOS):

Answer 21

Lipid A + saccharide core +/- antigen side chains; integral part of gram-negative bacterial outer membrane

Question 22

Exopolysaccharides:

Answer 22

Secreted beyond the bacterial envelope into the environment. Do not remain attached to individual bacteria.

Question 23

Stages in biofilm formation:

Answer 23

1. Reversible attachment,
2. Irreversible attachment,
3. Polysaccharide production,
4. Growth and formation of 3D structure,
5. Dispersal (some bacteria become planktonic and are sent off to colonize another area)

Question 24

In nature, ___% of bacteria live in biofilms and >___% of bacterial infections are thought to be caused by organisms growing as biofilms

Answer 24

In nature, 99% of bacteria live in biofilms and >80% of bacterial infections are thought to be caused by organisms growing as biofilms.

Question 25

Exopolysaccharide casing of biofilm limits ______ of host defenses and antibiotics

Answer 25

Exopolysaccharide casing of biofilm limits PENETRATION of host defenses and antibiotics

Question 26

Bacterial biofilm on an implanted inert surface:

Answer 26

“Foreign body infection.”

1. Floating planktonic bacteria
2. Adherent bacterial cells form biofilm.
3. Frustrated phagocytosis, release of enzymes.
4. Enzymes damage tissue around biofilm, planktonic bacteria released, causing dissemination and acute infection in neighboring tissue.

Question 27

______ placement is a huge source of biofilm-mediated infection in hospitals

Answer 27

CATHETER placement is a huge source of biofilm-mediated infection in hospitals

Question 28

Penetration of antibiotics and host immune defenses into biofilms is ______

Answer 28

Penetration of antibiotics and host immune defenses into biofilms is LIMITED.

Question 29

Pathogen:

Answer 29

Organism that can cause disease

Question 30

Pathogenesis:

Answer 30

Process resulting in disease

Question 31

Pathogenicity:

Answer 31

Organism’s ability to cause disease

Question 32

Virulence:

Answer 32

Degree of damage or disease resulting from infection

Question 33

Infectivity:

Answer 33

Likelihood of causing infection and/or disease with exposure to a particular dose

Question 34

ID50:

Answer 34

Infectious Dose - dose that leads to infection in 50% of exposed individuals

Question 35

LD50:

Answer 35

Lethal Dose - dose that leads to death in 50% of exposed individuals

Question 36

Infectious disease outcomes are influenced by multiple factors:

Answer 36

Outcome is dependent on susceptibility of host, pathogen virulence, and environmental factors.

Question 37

Rhinovirus:

Answer 37

ss + RNA, naked virion. Causes common cold.

-High infectivity, low virulence

Question 38

Influenza:

Answer 38

ss - RNA, segmented, enveloped. Causes flu.

-Moderate infectivity, greater virulence, host-dependent

Question 39

Ebola:

Answer 39

ss - RNA, enveloped. Causes hemorrhagic fever.

-High infectivity, high virulence.

Question 40

Active infection/disease:

Answer 40

Can be asymptomatic or symptomatic. Can be acute or chronic.

Question 41

Asymptomatic vs. symptomatic active infection:

Answer 41

This describes the subjective experience of the patient - not a feature necessarily of the organism but depends on relationship with the patient. These are specific outcomes in a specific patient!!! Another patient with that same strain might be highly symptomatic.

Question 42

Acute vs. chronic active infection:

Answer 42

These can be related. Something may start out as acute and asymptomatic. It could eventually become chronic and then also symptomatic. This is dynamic.

Question 43

Latent infection/disease:

Answer 43

Have pathogen present but little or no replication. Nothing is happening right now, and infection is under control by some aspect of the immune system. Little or no replication. But NOT dead.

Question 44

Endogenous acquisition/transmission of microbial agents:

Answer 44

Organism escapes from location where it is part of the normal microbiome

Question 45

Exogenous acquisition/transmission of microbial agents:

Answer 45

• Person to person (could be horizontal or vertical),
• Animal to person (zoonoses),
• Insect to person (vector borne diseases),
• Environmental (nature, nosocomial, fomite)

Question 46

Routes of microbial transmission:

Answer 46

• Entry via epithelial surfaces,

- Deeper tissue penetration

Question 47

Infection from entry via epithelial surfaces (routes):

Answer 47

• Inhalation,
• Ingestion,
• Sexual contact,
• Exposure during vaginal birth

Question 48

Infection via deeper tissue penetration (routes):

Answer 48

• Spread from epithelia,
• Insect bites,
• Cuts and wounds,
• Organ transplants and blood transfusions

Question 49

Describe the step-by-step process of host infection:

Answer 49

1. Encounter: Infectious agent meets host,
2. Entry: agent enters host,
3. Spread: agent spreads from site of entry,
4. Multiplication: agent multiplies within host,
5. Damage: agent, host response, or both, cause tissue damage,
6. Outcome: agent or host wins, or they learn to coexist

Question 50

Microbial virulence factors:

Answer 50

Factors that promote virulence, generally not required for growth outside the infected host

Question 51

3 main categories of microbial virulence factors:

Answer 51

1. Structures involved in attachment, adherence, and invasion.
2. Toxin involved in cell or tissue damage.
3. Processes involved in immune avoidance.

Question 52

Bacterial pili/fimbriae:

Answer 52

Filamentous structures extending from the bacterial surface. Important role in initial adherence to host cells or extracellular matrix (interactions may be nonspecific or highly specific for individual host receptors)

Question 53

Polymers of bacterial proteins composing pili are called:

Answer 53

Pilins (may be homo- or hetero-polymers)

Question 54

Type IV pili:

Answer 54

• Extend, bind, and retract.

- Promote surface motility, microcolony and biofilm formation, and adherence to host cells and immune system

Question 55

Type IV pili are expressed by:

Answer 55

• Neisseria meningitidis and N. gonorrhoeae,
• Pseudomonas aeruginosa (esp. problem in CF pts.)
• Haemophilus influenzae,
• Vibrio cholerae

Question 56

Pili vs. Flagella:

Answer 56

• Both are filamentous appendages,

- Pili are shorter, thinner, and usually more numerous. Flagella are longer, thicker, and usually fewer.

Question 57

Flagella are usually ______. Their primary function is _____.

Answer 57

Flagella are usually POLAR. Their primary function is LOCOMOTION.

Question 58

What is flagella composed of?

Answer 58

Flagellin, aka H-antigen, e.g. E. coli O157:H7

Question 59

Gram negative bacteria can use type III, IV, and V systems to:

Answer 59

inject substrates into other cells (bugs or host). Type III are “bacterial nanomachines”

Question 60

Translocated substrates are called WHAT. Give 2 examples/categories.

Answer 60

Translocated substrates are VIRULENCE FACTORS. e.g. toxins and receptors.

Question 61

What is viral attachment mediated by?

Answer 61

Proteins on the surface of the virion.

Question 62

How do naked viruses attach to host cell?

Answer 62

Capsid proteins on naked viruses engage receptor on host cell. Virus enters by endocytosis.

Question 63

How do enveloped viruses attach to host cell?

Answer 63

Glycoprotein spikes on enveloped viruses engage receptor on host cell. Virus enters via membrane fusion or endocytosis.

Question 64

Describe HIV attachment to host cells:

Answer 64

• two-part glycoprotein (GP) spike in viral envelope (GP120 and GP41).
• GP120 binds first to CD4 on human T-cell.
• Conformational change allows contact with co-receptor.
• GP41 binding initiates viral envelope fusion with T-cell membrane.

Question 65

LPS toxicity:

Answer 65

• LPS is an endotoxin, because it is an integral part of gram-negative outer membrane.
• O-antigens can define serotypes (e.g. E. coli O157:H7)
• Lipid A is toxic moiety (saccharide portion is helpful to identify strain, but isn’t the toxic part).
• Potent stimulator of innate immune responses.
• Important cause of septic shock.

Question 66

Pathogen-Associated Molecular Patterns (PAMPs):

Answer 66

Molecules on the surface of the pathogen that are recognized by the innate immune system. Part of the pathogen.
Recognized by the TLRs.

Question 67

Exotoxins:

Answer 67

-Secreted toxins by Gram positive and gram negative. Toxin genes are frequently encoded on plasmids or bacteriophage (rarely on chromosomes)

Question 68

Exotoxin classification is based on:

Answer 68

-Structure/function (e.g A+B toxins, pore-forming, superantigen)
-Site of action (e.g. neurotoxin)
[The same toxin can be named based on either]

Question 69

A+B Toxins:

Answer 69

Exotoxin. A = active. B = binding.

Question 70

Cholera toxin A+5B:

Answer 70

A subunit activates adenylate cyclase; increases cAMP; promotes secretion of electrolytes and fluid by intestinal epithelial cells = profuse watery diarrhea.

Question 71

Anthrax toxin 2A+B

Answer 71

A subunits Edema Factor (EF) and Lethal Factor (LF)
EF activates adenylate cyclase
LF cleaves cellular kinases and leads to altered signaling and cell death.

Question 72

A+B Toxin-mediated diseases

Answer 72

1. Diptheria caused by Corynebacterium diptheriae
2. Tetanus caused by Clostridium tetani
3. Pertussis caused by Bordatella pertussis

Question 73

Toxoid:

Answer 73

Inactivated toxins - still immunogenic but no longer toxic (important for vaccination)

Question 74

Pore-forming toxins:

Answer 74

Generate structures that create pores in the host cell surface

Question 75

Superantigens:

Answer 75

e.g. Staphylococcal and Streptococcal Toxic Shock toxins.
Unlike normal antigen presentation, which stimulates a small number of T-cells, Superantigens stimulate massive polyclonal expansion of many T-cells (cytokine storm). Bypasses antigen specificity.

Question 76

Structures that allow for immune avoidance by microbial pathogens:

Answer 76

• Bacterial and fungal polysaccharide capsules,
• Antigens that induce blocking antibodies,
• Molecules that inactivate antibodies,
• Molecules that mimic host structures and are not recognized as foreign.

Question 77

Processes that allow for immune avoidance by microbial pathogens:

Answer 77

• Antigenic variation,
• Avoiding immune surveillance,
• Suppressing immune responses.

Question 78

Polysaccharide capsules:

Answer 78

-Avoid phagocytosis, immune recognition (complement and antibody), and are a common feature of pathogens that can disseminate via bloodstream to CNS.

Question 79

Neisseria meningitidis:

Answer 79

• Rmp protein is highly immunogenic, but antibodies don’t protect and block binding to other targets.
• Serogroup B polysaccharide capsule is polysialic acid – mimics human antigens and is poorly immunogenic.
• Produces IgA protease that can cleave human IgA antibodies.

Question 80

Antigenic variation:

Answer 80

During infection, pathogens express different versions of key antigens. Antibodies made against one version do not recognize later versions.

Question 81

Examples of antigenic variation:

Answer 81

• Trypanosoma brucei protozoan cause of sleeping sickness.
• Neisseria meningitidis and N. gonorrhoeae bacterial pathogens.
• RNA viruses e.g. HIV, HCV, influenza virus.

Question 82

Mycobacterium tuberculosis induces formation of _____. (explain)

Answer 82

Mycobacterium tuberculosis induces formation of GRANULOMAS. Aggregates of dead cells and extracellular material that ‘wall off’ slowly replicating bacteria allowing persistence of Tb.

Question 83

Herpes virus avoids immune surveillance by:

Answer 83

Traveling from periphery to dorsal root ganglia and are latent in sensory neurons.

Question 84

Treponema pallidum expresses very few _______ – teflon pathogen of syphilis

Answer 84

Treponema pallidum expresses very few SURFACE PROTEINS – teflon pathogen of syphilis.

Question 85

HIV destroys CD4+ cells resulting in profound ________.

Answer 85

HIV destroys CD4+ cells resulting in profound immunodeficiency.

Question 86

M. tuberculosis prevents fusion of _____ and ______ in macrophages.

Answer 86

M. tuberculosis prevents fusion of phagosomes and lysosomes in macrophages.

Question 87

Classes of protein synthesis inhibitors that target the 30S ribosome:

Answer 87

Aminoglycosides and Tetracyclines

Question 88

Classes of protein synthesis inhibitors that target 50S ribosome:

Answer 88

Chloramphenicol, Macrolides, Lincosamides, Streptogramins, Oxazolidinones

Question 89

Aminoglycosides bind the ____ subunit

Answer 89

30S

Question 90

Describe the targets/effects of aminoglycosides:

Answer 90

Bactericidal, used mainly against gram - rods.

Initially penetrate bacterial envelope by disrupting LPS in outer membrane. Anaerobes are intrinsically resistant.

Question 91

Aminoglycosides are primarily used against gram negative rods, but also work against ______

Answer 91

Mycobacterium

Question 92

What bacteria produces aminoglycosides?

Answer 92

Streptomyces spp.

Question 93

Key examples of aminoglycosides:

Answer 93

Streptomycin and gentamicin

Question 94

Aminoglycosides have reduced activity at low/high pH

Answer 94

low

Question 95

What is intrinsically resistant to aminoglycosides?

Answer 95

Anaerobes

Question 96

Resistance to aminoglycosides:

Answer 96

• Enzymatically Inactivate Drug (modification by phosphorylation, adenylation or acetylation. Enzymes encoded on mobile genetic elements).
• Alter Drug Target (Methylation of rRNA; Mutation of ribosomal protein)
• Alter Drug Exposure [Decreased uptake - non-specific; Increased efflux (esp. Pseudomonas aeruginosa)]

Question 97

Aminoglycosides can work synergistically with _____ (explain):

Answer 97

Can co-treat with antibacterials that target the cell envelope and PG synthesis, esp. B-lactams. This pre-weakens the structure of the envelope, allowing the aminoglycoside to get in.

Question 98

Tetracyclines bind the ___ subunit

Answer 98

30S

Question 99

Describe the general targets/effects of Tetracyclines:

Answer 99

Bacteriostatic; active against G-, G+, mycoplasma, and intracellular bacteria.

Question 100

Key examples of tetracyclines:

Answer 100

Tetracycline and doxycycline

Question 101

Absorption of tetracycline is inhibited by WHAT

Answer 101

Divalent cations (calcium and magnesium) inhibit absorption in GI tract (so avoid antacids and milk)

Question 102

Tetracycline is contraindicated in what patient populations?

Answer 102

Contraindicated in pregnancy and young children due to inhibition of bone growth and discoloration of teeth

Question 103

Why aren’t penicillins and tetracyclines given together?

Answer 103

In general, don’t combine bacteriostatic (tetracycline) and bacteriocidal (penicillin) because bacteriocidal agents require bacteria to be growing to work, and bacteriostatic inhibits the growth. (there are exceptions to this rule)

Question 104

Resistance to tetracyclines:

Answer 104

• Alter Drug Exposure (>28 classes of efflux pumps. Most are effective against tetracycline itself, but less so against newer generations).
• Alter Drug Target (Ribosome protection proteins. Bind to ribosome and displace drug from binding site)

Question 105

Chloramphenicol binds the ____ subunit

Answer 105

50S

Question 106

Is chloramphenicol bacteriostatic or cidal?

Answer 106

Bacteriostatic (but cidal aginst important encapsulated organisms - really depends on the combo of bugs and drugs)

Question 107

What type of bacteria does chloramphenicol work against?

Answer 107

Broad-spectrum.

Question 108

Resistance to chloramphenicol:

Answer 108

Enzymatically inactivate drug (modified by acetyl transferases; drug can’t function when acetylated)

Question 109

Why are macrolides generally only used to treat G+ and not G-?

Answer 109

Macrolides are large hydrophobic molecules and don’t easily penetrate the inner and outer membranes of Gram-negative bacteria.
[key exception is Chlamydia]

Question 110

Macrolides bind to the ___ subunit.

Answer 110

50S

Question 111

What bacteria produce macrolides?

Answer 111

Streptomyces spp.

Question 112

Key examples of macrolides:

Answer 112

Erythromycin and azithromycin

Question 113

What bacteria produce chloramphenicol?

Answer 113

None. This is synthetic.

Question 114

Lincosamides bind the ___ subunit

Answer 114

50S

Question 115

Are lincosamides bacteriostatic or cidal?

Answer 115

Bacteriostatic

Question 116

Lincosamides are used to treat which types of bacteria?

Answer 116

G+ and G- ANAEROBES

Question 117

What bacteria produce lincosamides?

Answer 117

Streptomyces lincolnensis

Question 118

Key example of lincosamide:

Answer 118

clindamycin

Question 119

Lincosamides are associated with what disease?

Answer 119

Highly associated with C. difficile-associated pseudomembranous colitis.

Question 120

Streptogramins A & B:

Answer 120

Individually bacteriostatic, bactericidal together. Each part works in a different area of elongation (initial bond formation and then addition of the next amino acid).

Question 121

Streptogramins are produced by what bacteria?

Answer 121

Streptomyces spp.

Question 122

Examples of Streptogramins:

Answer 122

• Many individual drugs
• Older names end in -mycin
• Newer end in -pristins

Question 123

MLS-B resistance:

Answer 123

Resistance to Macrolides, Lincosamids, and Streptogramins B.
-Ribosome methylation by over 40 different erm (erythromycin ribosome methylation) genes.
-Some (but not all) erm genes confer cross-resistance
erm expression can be constitutive or inducible in staphylococci.
-Inducible clindamycin resistance (clinically relevant) is detected using the D-test.

Question 124

Oxaloidinones bind ___ subunit

Answer 124

50S (Relatively new class of synthetic antimicrobials, bind to 23S RNA in 50S subunit, no cross-resistance with other protein-synthesis inhibitors)

Question 125

Are Oxaloidinones bacteriocidal or static? What kind of bacteria are they used against?

Answer 125

Bacteriostatic; works against many G+ that are resistant to other antibiotics

Question 126

Example of Oxalidinone:

Answer 126

Linezolid

Question 127

Resistance to Oxalidinones

Answer 127

Alter drug target - mutations in 23S rRNA gene

Question 128

Two mechanisms of vancomycin resistance have been described in enterococci and/or staphylococci:

Answer 128

Van A locus & Van B locus

Question 129

Van A locus:

Answer 129

constitutive resistance to vancomycin resulting constant expression of D-Ala, D-Lac in the peptide side chain of PG [higher fitness cost than inducible]

Question 130

Van B locus:

Answer 130

inducible resistance resulting from temporary expression of D-Ala, D-Lac in the peptide side chain of PG [lower fitness cost than constitutive]