6. Antimicrobial Drugs and Resistance

Question 1

How do vaccines work?

Answer 1

they prime the immune system by stimulating primary immune responses (in the graph it’s the first hump)

Question 2

Vaccine goals

Answer 2

• It shouldn’t cause disease
• the goal is the production of memory cells that can be activated if ever the pathogenic material is encountered at a later time.

Question 3

How are vaccines beneficial

Answer 3

• protect against viral infections
• since viruses can’t be eliminated with chemotherapy, prevention makes the most sense

Question 4

Are vaccines equal in risk

Answer 4

no

Question 5

Categories of vaccines

Answer 5

1. live attenuated
2. whole agent inactivated
3. subunit vaccines
4. toxoid vaccines
5. conjugated vaccines

Question 6

Live attenauted vaccines - what, safeness, stimulates

Answer 6

• WHAT: live virus thats weak
• accomplished by key mutation
• still maintains many of the properties of the wild-type pathogen (virus can still ADSORB and penetrate but cannot replicate)
• STIMULATES: Stimulates both antibody and cell mediated immunity
• SAFENESS: can spontaneously mutate back to wild-type (potential to cause disease)

Question 7

Examples of live attenauted vaccines

Answer 7

Sabin vaccine against Poliovirus, Rotavirus vaccine,
MMRV vaccine (Measles, Mumps, Rubella, Varicella), some Rabies
vaccines, vaccine against Mycobacterium tuberculosis

Question 8

Whole agent inactivated vaccines - what, safeness, stimulates

Answer 8

• WHAT: not alive (inactivated virus)
• incapable of adsorption or penetration (can’t get in)
• SAFNESS: no risk of causing disease
• STIMULATES: only stimulates antibody mediated immunity - so you need boosters

Question 9

Example of whole agent inactivate vaccines

Answer 9

Hepatitis B vaccination, the flu
shot, Rabies vaccine used in humans, Salk vaccine
for Poliovirus

Question 10

Subunit vaccines - what, safeness, stimulates

Answer 10

• WHAT: include purified proteins (antigens) taken from pathogenic bacteria and virus
• SAFENESS: doesn’t contain ANY infectious material - very safe
• STIMULATES: only stimulates antibody mediated immunity

Question 11

Example of subunit vaccines

Answer 11

Hepatitis A vaccination, Human Papilloma Virus Vaccine,
pneumoshot (contains purified capsule from Streptococcus pneumoniae),
meningococcal vaccine (contains purified capsule from Neisseria
meningitidis)

Question 12

Toxoid vaccines - what, safeness, stimulates

Answer 12

• WHAT: inactivate toxin that consists of bacterial toxins that have been modifies
• maintain the same properties of the actual toxin
• SAFENESS: toxoid is incapable of causing the same effects as the toxin - very safe
• STIMULATES: only stimulate antibody mediated immunity, often provide short-lived protection so you need booster shots

Question 13

Example of toxoid vaccines

Answer 13

DTaP vaccine against diptheria toxin, tetanus toxin,
and pertussis toxin

Question 14

conjugates vaccines

Answer 14

• WHAT: antigens that have been conjugated together
• increases the overall size of the antigen
• addresses limitations of naive adaptive immune system in children
• increases immunogenicity = better protection

Question 15

Examples of conjugated vaccines

Answer 15

polysaccharide vaccine against
capsule of Haemophilus influenzae conjugated to
protein

Question 16

antimicrobial drugs - what is it and when do we use it

Answer 16

drugs that are effective against microorganisms
- used when immunization has not occurred and the immune system has difficulty to eliminate infection
- useful against bacterial infection , very few antivirals are available
- these are compounds that kill or control the growth of microorganisms in the host (these drugs must display selective toxicity or they will cause damage to the host)

Question 17

3 categories of antimicrobial drugs

Answer 17

1. synthetic or natural - large number of naturally occuring antibiotics with no clinical use - produced by bacteria and fungi
2. bacteriostatic or bactericidal
3. broad or narrow spectrum

Question 18

Example of antibiotic targets

Answer 18

cell wall synthesis, DNA gyrase, RNA elongation, DNA-directed RNA polymeras, protein synthesis (50S or 30S inhibitors, RNA), lipid biosynthesis, cytoplasmic membrane structure and function, folic acid metabolism

Question 19

Cell wall antimicrobial drugs

Answer 19

• cell wall active agents offer excellent selective toxicity
• most widely used class of antibiotics
• targets peptidoglycan

Question 20

Largest class of cell wall active drugs

Answer 20

• beta lactam antibiotics

Question 21

beta lactam antibiotics - where, what, cons

Answer 21

WHERE: naturally occurring produced by penicillium and cephalosporium fungi
WHAT: can be modified in the lab to produce semi-synthetic drugs that have a modified spectrum of activity
CONS: susceptible to beta-lactamases (enzyme produced by some bugs to cut and inactivate beta-lactams

Question 22

Penicillins - call wall antimicrobial drugs - spectrum, structure, defining ft

Answer 22

• narrow spectrum
• five membered ring attached to the beta-lactam component
• target transpeptidation in gram positive bacteria
• cannot penetrate outer membrane of gram negative bacteria (semi-synthetic penicillin are modified to provide some activity against gram negative bugs - ampicillin)

Question 23

Cephalosporins - cell wall antimicrobial drugs - spectrum, structure, defining ft

Answer 23

• broader spectrum
• six membered ring attached to beta-lactam component
• target transpeptidation in peptidogylcan
• semi-synthetic
• better resistance against beta lactamases
• grouped into generations (1st gen, 2nd gen)

Question 24

differences between cephalosporin and penicillin

Answer 24

penicillin:
- narrow spectrum
- five membered ring attached to the beta-lactam component
cephalosporin:
- broader spectrum
- six membered ring attached to beta-lactam component

Question 25

growth factor analogs

Answer 25

• structurally similar to growth factors but do not function in the cell - analogs similar to vitamins, amino acids)

Question 26

2 examples of growth factor analogs

Answer 26

sulfa drugs, isoniazid

Question 27

sulfa drugs

Answer 27

• ex) sulfanilamide
• inhibit growth of bacteria by inhibiting folic acid synthesis and nucleic acid synthesis
• often used in combination with another analog - trimethoprim (combination therapy minimizes the likelihood of resistance)

Question 28

isoniazid

Answer 28

• extremely narrow spectrum cell wall active agent
• analog of mycolic acid component needed by mycobacterium spp.

Question 29

nucleic acid synthesis inhibitors types

Answer 29

1. quinolones
2. rifampin
3. actinomycin

Question 30

quinolones - synthetic or natural, what

Answer 30

• synthetic antimicrobials
• inhibit DNA gyrase - prevents supercoiling of DNA
• active against gram-neg and gram-pos

Question 31

example of a quinolone

Answer 31

ciprofloxacin a fluorinated quinolone (fluoroquinoone)
- useful against life-threatening infections

Question 32

rifampin

Answer 32

binds to RNA polymerase preventing transcription

Question 33

actinomycin

Answer 33

binds to DNA template blocking elongation in transcription

Question 34

protein synthesis inhibitors

Answer 34

• targets 70s ribosome
• good selective toxicity

Question 35

issues of protein synthesis inhibitors

Answer 35

human cells have 70S ribosomes in the mitochondrial matrix

Question 36

types of protein synthesis inhibitors

Answer 36

aminoglycosides, tetracyline, macrolides

Question 37

aminoglycosides - spectrum, bind, defining features

Answer 37

• BIND: 30s subunit of 70 ribosomes
• SPECTRUM: narrow - useful against gram negativebugs
• WHAT: block translation
• often used as a last resort
• damaging to kidneys and ears

Question 38

example of aminoglycosides

Answer 38

• streptomycin, gentamycin and neomycin

Question 39

tetracycline - spectrum, bind, defining ft

Answer 39

SPECTRUM: broad
BIND: 30s subunit
WHAT: consist of both natural and modified semisynthetic drugs
- binds to calcium damaging teeth and bone - shouldn’t be used by children and pregnant women
- used in vet med to promote animal growth

Question 40

what species produces tetracycline

Answer 40

strepytomyces

Question 41

macrolides - binding, spectrum, defining ft

Answer 41

SPECTRUM: broad
BIND: 50s ribosomal subinit
WHAT:
- only inhibits translation of some proteins
- some proteins are preferential translated and others are not
- creates a detrimental protein imbalance inside of the cell
- useful to treat infection in patients with allergies to beta lactam antibiotics

Question 42

examples of macrolides

Answer 42

erythromycin and azithromycin (produced by streptomyces)

Question 43

antibiotic resistance - when does it occur

Answer 43

when an organism develops a mechanism to escape the activity of an antimicrobial drug that it should be affected by
- genes for antibiotic resistance can either be encoded on a plasmid or directly within the genome

Question 44

why is resistance prevalent

Answer 44

widespread and sometimes incorrect use of antibiotics (med, vet med, agri)

Question 45

ways of antibiotic resistance

Answer 45

Question 46

patterns of antibiotic/antimicrobial resistance

Answer 46

:)

Question 47

preventing antibiotic resistance

Answer 47

• infection prevention
• rapid and conclusive diagnosis
• appropriate/prudent use of antibiotics
• prevention of transmission