Pharmacology 5: Antiviral and antimicrobial agents

Question 1

describe the main steps in how a virus gains entry into a cell and undergoes uncoating

Answer 1

• invading virion (outer protein capsid and nucleosome core- DNA/RNA, ss/ds) attaches to neuraminic acid or sialic acid residue on membrane glycoprotein
• complex allows viral entry by endocytosis
• ATP driven H+ entry into endosome, lowers pH, allows fusion of viral membrane with endosomal membrane following conformational change in haemagglutinin on virus
• H+ enter virus itself via M2= viral ion channel in its envelope, and nucelocapsid of virus subsequently breaks down
• RNA then escapes into host cell cytoplasm

Question 2

why might widespread use of M2 ion channel blockers for influenza type A be limited?

Answer 2

M2 mutations in H5N1 viruses

Question 3

examples of M2 ion channel blockers?

Answer 3

rimantadine, amantadine

Question 4

ADRs of M2 ion channel blockers?

Answer 4

dizziness
GI disturbances
hypotension
confusion
insomnia
hallucinations- problematic in elderly as amy already be present, further exacerbated.

Question 5

how do oseltamivir and zanamivir target influenza?

Answer 5

block virion release from host cell membrane by binding to neuraminidase which is required to break the bond between the newly formed virus and the sialic acid residues on the PM to allow virion release

Question 6

why can oseltamivir be given orally for both tment and prophylaxis?

Answer 6

prodrug which is well absorbed, with 80 % bioavailability- so most of the drug reaches the systemic circulation in an unchanged form where it can then exert its desired therapeutic effect..
BUT zanamivir= given as aerosol, low bioavailability, can only be used for tment.

Question 7

ADRs of neuraminidase inhibitors?

Answer 7

GI disturbances
headache
nose bleed (epistaxis)
rarely resp depression, bronchospasm.

Question 8

viral group to which influenza belongs?

Answer 8

orthomyxovirus in the family of RNA enveloped viruses

Question 9

indication other than influenza for amantadine?

Answer 9

Parkinson’s disease: bradykinesia
rigidity
resting tremor

Question 10

antibiotics which affect DNA synthesis?

Answer 10

quinolones e.g. ciprofloxacin- can be used in pyelonephritis, RTIs- but not pneumococcal pneumonia
folic acid antagonsits e.g. trimethoprim- used in UTIs, sulphonamides- CYP 450 inhibitors, e.g. sulfamethoxazole

Question 11

antibiotics which inhibit protein synthesis?

Answer 11

aminoglycosides e.g. gentamicin
macrolides e..g. erythromicin, azithromicin
tetracyclines

Question 12

antibiotics which inhibit bacterial cell wall synthesis?

Answer 12

beta-lactams e.g. penicillins, cephalosporins e.g. ceftriaxone and carbapenems
glycopeptides e.g. vancomycin- S.aureus

Question 13

give an overview of the general process involved in viral replication

Answer 13

• virus ATTACHES to host cell membrane via proteins on viral surface which bind specifically to host cell membrane components.
• ENTRY e.g. endocytosis
• entry into endosome where UNCOATING takes place with loss of capsid proteins following H+ entry, so viral membrane can fuse with endosomal membrane to allow nucleic acid release into host cell cytoplasm.
• REPLICATION of genome to produce new RNA
• TRANSCRIPTION-RNA polymerase
• TRANSLATION, to produce viral protein
• ASSEMBLY- viral proteins assemble with viral genomes within host cell
• EGRESS- virus leaves host cell**Influenza viruses- virions require additional step of release from EC surface of host cell membrane.

Question 14

how does viral life cycle different between retroviruses e.g. HIV and most other viruses

Answer 14

viral genome actually incorporated into host cell genome

virus has reverse transcriptase enzyme- converts viral RNA into cDNA.

Question 15

what are haemagglutinin, neuraminic acid and sialic acid??

Answer 15

Haemagglutinin- glycoprotien on surface of influenza viruses which allows attachment to host cells in order to enter via RME by binding to cells with sialic acid on their membranes e.g. cells of URTI.
sialic acid= derviative of neuraminic acid, which is found on the plasma membrane of cells.

Question 16

what limits the use of M2 channel blockers to treat influenza A?

Answer 16

rapid development of resistance- channel within virus changes shape so when drug binds, rather than sitting inside the channel and blocking it, it now lies outside of the channel.

Question 17

why is rimantadine preferred to amantadine?

Answer 17

less ADRs e.g. neurological effects that are especially problematic in elderly. Neur effects due to action on host ion channels likely account for ability of amantadine to be used to treat Parkinson’s disease- rigidity, resting tremor, bradykinesia. related to ability of amantadine to cross BB barrier?

Question 18

describe the differences between the 3 types of Influenza virus

Answer 18

A= most severe, exhibits antigenic shift and drift, bird(avian) flu. SHift exhibited as doesn't just infect humans.
B= only in humans, more antigenic drift.
C= least severe, common cold. Can be antigenic drift.

Question 19

how do vaccines target influenza virus (flu vaccination)?

Answer 19

cause antibody production in host against haemagglutinin on surface on influenza virus, preventing viral attachment to host cells, so unable to enter.

Question 20

subtype of influenza A virus known as bird flu/avian flu?

Answer 20

H5N1
can be transmitted from birds to humans
(swine flu-pigs-H1N1)

Question 21

describe the differences between antigenic drift and shift

Answer 21

drift= exhibited by both A, B and C influenza viruses. Mutations in genes encoding antibody binding sites on virus accumulate over time in a known strain of influenza.
shift= 2 or more different strains of a virus, or strains of 2 or more different viruses combine to form a new viral subtype with a mixture of antigens on its surface from the 2 strains.

Question 22

types of hepatitis virus- what group are they in, drug tments?

Answer 22

A- RNA non-enveloped- faecal-oral transmission
B- DNA enveloped- direct contact- blood or body fluids
C- RNA non-enveloped- direct contact- blood, no vaccine available.

B= tenofovir

signs and symptoms hep a and b= abdom pain, jaundice, fever, vomiting, nausea, diarrhoea.
all causes of liver cirrhosis.

Question 23

people at high risk of complications from influenza virus?

Answer 23

COPD patients
asthma patients
renal failure patients
diabetes patients
CVD patients

Question 24

complications of influenza virus?

Answer 24

bronchitis
pneumonia
sinusitis
exacerbation of underlying disease

Question 25

symptoms of influenza?

Answer 25

sudden high temperature
headache
general aches and pains
tiredness
nausea
appetite loss
sore throat

Question 26

how can influenza be transmitted?

Answer 26

inhalation- droplets
direct contact
indirect contact

Question 27

what type of influenza are M2 ion channel blockers active against?

Answer 27

only influenza A

Question 28

example of mutation conferring resistance of influenza A virus to M2 ion channel inhibitors?

Answer 28

S31N= single point mutation

responsible for resistant H5N1 isolates (avian flu)

Question 29

why can neuraminidase inhibitors be used against more subtypes than just influenza A?

Answer 29

active site of enzyme is conserved across virus subtypes

Question 30

overall mechanism of action of neuraminidsase inhibitors?

Answer 30

block viral release from host cell by binding to active site of enzyme responsible for allowing separation of haemagglutinin protein on virus surface from sialic acid residue on host cell to enable virus to be released.
enzyme cleaves sialic acid from membrane glycoproteins.

Question 31

what is zanamivir?

Answer 31

a sialic acid analogue capacle of binding to the neuraminidase enzyme to inhibit it from allowing influenza viral release from host cell.
active against influenza A and B
but poor oral bioavailability as would be destoryed in stomach, so must be administered by inhaler (aerosol).

Question 32

how has it been shown that oseltamivir reduces mortality?

Answer 32

Canadian study showed drug could offer approx. 70% mortality reduction. This was achieved even when dosing as delayed as 64hrs after symptom onset.

Question 33

difference in structure of bacteria which are gram +ve and gram -ve?

Answer 33

gram +ve= cell wall is 2 layers- 1 being thick peptidoglycan layer which doesn’t allow extraction of complex extraction in gram staining so is stained purple.
gram -ve= 3 layered cell wall, peptidoglycan layer thin so allows complex extraction, so now unstained in gram staining and red dye allows added which stains the bacteria, so appear red.

Question 34

describe how O2 therapy is given to a COPD patient in the acute setting?

Answer 34

aiming for O2 saturation of 88-92%, in contrast to 94-98% in patients without COPD.
O2 given at no more than 28% via venturi mask- high flow O2 therapy, known conc of O2 given, prevents CO2 retention.
ABGs must be checked within 1 hr of starting supplemental O2 or changing its conc.

Question 35

antibiotics used to treat pneumonia in a penicillin allergic patient?

Answer 35

so can’t use amoxicillin or co-amoxiclav, latter used in more severe cases- as determined by CURB-65 score: age 65 or more, confusion-GCS, urea >7mmmol/l, resp rate>/= to 30 breaths per min, BP <60mmHg diastolic.

can give macrolide e.g. erythromycin, or tetracycline e.g. doxycycline.

Question 36

TB drugs and how long?

Answer 36

rifampicin- 6 months
isoniazid- 6 months
pyrazinamide- first 2 months
ethambutol- first 2 months

Question 37

tests to be done before starting TB drug therapy?

Answer 37

liver function tests- as rifampicin, isoniazid and pyrazinamide assoc with liver toxicity
renal function tests- Us and Es, ethambutol should be pref avoided in patients with renal impairment
FBC
test for visual acuity-Snellen chart, as ethambutol can cause visual acuity loss, colour blindness and restriction in visual fields.
HIV baseline test

Question 38

tment for patient if screen +ve for TB but is asymptomatic?

Answer 38

6 months isoniazid

Question 39

drug tment for bacterial endocarditis caused by streptococcus viridans?

Answer 39

benzylpenicillin- common ADR=hypersensitivity reactions in allergic patients.
gentamicin
given for 4-6 wks, gentamicin stopped after 2
vancomycin if penicllin allergic

Question 40

monitoring of patients required if taking gentamicin?

Answer 40

Renal function should be assessed before starting an aminoglycoside and during treatment. Auditory and vestibular function should also be monitored during treatment. In order to optimise the dose and avoid toxicity, serum-aminoglycoside concentrations should be monitored in patients receiving parenteral aminoglycosides.
Ototoxicity and nephrotoxicity occur most commonly in the elderly; therefore, monitoring is particularly important in these patients, who may require reduced doses.

Question 41

drug other than gentamicin that can cause ototoxicity?

Answer 41

furosemide= loop diuretic

Question 42

enzyme which quinolones targeting DNA synthesis in bacteria interfere with?

Answer 42

DNA gyrase

Question 43

type of ribosomal RNA interfered with by antibiotics targeting protein synthesis?

Answer 43

16S ribosomal RNA (part of 30S ribosomal subunit)= tetracyclines
23S rRNA= bound to by those targeting 50S ribosomal subunit e.g. macrolides and chloramphenicol
* contrast to 18S ribosomal RNA found in eucaryotes as part of 40S ribosomal subunit

Question 44

macrolide used in H pylori eradication?

Answer 44

clarithromycin

Question 45

why is selective toxicity of beta-lactams and glycopeptides more so than that of other antibiotics?

Answer 45

targeting cell wall synthesis, only present in bacteria, not in eukaryotes

Question 46

antibiotics classed as beta-lactams?

Answer 46

penicillins
cephalosporins
carbapenems

Question 47

how is resistance to macrolides usually manifested?

Answer 47

it is plasmid-encoded, and may involve the production of esterases that hydrolyse macrolides.
ribosomal binding site may also be modified.

Question 48

how do aminoglycosides work?

Answer 48

interfere with protein synthesis by binding to 16S rRNA of 30S subunit (tetracyclines also do this)

Question 49

hoe does rifampicin, used in TB tment, work?

Answer 49

inhibits bacterial RNA polymerase, so inhibits transcription

Question 50

how do quinolones e.g. ciprofloxacin act?

Answer 50

inhibit DNA gyrase and topoisomerase IV

Question 51

how do glycopeptides interfere with cell wall synthesis?

Answer 51

inhibit peptidoglycan polymerisation

Question 52

how is antibiotic activity measured?

Answer 52

disc sensitivity testing= antibiotic disc placed on agar plates of of bacteria. antibiotic diffuses in agar, further away from disc= lower conc of antibiotic. Larger zone around disc absent of bacteria= most sensitive to that antibiotic. > than a set diameter= sensitive.

Question 53

who is given prophylaxis for bacterial infections?

Answer 53

peri-operative= prevent surgical site infections e.g. use of metronidazole or amoxicillin before gut surgery
ST= meningitis contacts
LT= asplenia= also given vaccination against encapsulated bacteria= N.meningitidis, H.influenzae and S.pneumoniae, AND medical alert bracelet
immunodeficiency

Question 54

why might antibiotic thought to work from susceptibility data not work in a patient?

Answer 54

organism tested on agar plate isn’t causing the infection
dose of antibiotic is inappropriate
antibiotic isn’t getting to site of infection

Question 55

what is the minimum inhibitory concentration?

Answer 55

Minimum concentration of antibiotic required
to inhibit growth of a bacterium in vitro
Units are mg/l (or equivalently μg/ml)
Antibiotic and isolate specific

higher value= bacterium is less sensitive to that antibiotic.
=E tests, may be used e.g. for vancomycin as on disc testing, diameter for bacteria which are sensitive and not sensitive isn’t much different.

Question 56

gentamicin is effective against N.meningitidis in vitro, why can it then not be used to treat meningitis?

Answer 56

unable to cross BB barrier

Question 57

main routes of antibiotic administration?

Answer 57

oral

IV

Question 58

why are antibiotics not given intrathecally e.g. for meningitis?

Answer 58

can cause seizures and encephalopathy as reach concns toxic to CNS

Question 59

2 types of pharmacodynamic classes of antibiotics?

Answer 59

concentration dependent killing

time dependent killing

Question 60

characteristics of antibiotics which work by time dependent killing?

Answer 60

Successful treatment requires prolonged
antibiotic presence at site of infection

don’t need a high concentration, just a concentration which is higher than the MIC= minimum conc of drug required to inhibit growth of bacterium in vitro.

e.g. penicillins, cephalosporins e.g. ceftriaxone, and glycopeptides e.g. vancomycin= cell-wall dependent

so need to give frequent doses to ensure antibiotic always present at site of infection e.g. continuous infusion.

Question 61

what is concentration dependent killing?

Answer 61

type of pharmacodynamic class of antibiotics
antibiotic needs high Cmax/MIC ratio
Successful treatment requires high antibiotic
concentration at site of infection= achieved by giving a high dose- only need high dose once daily= this reduces risk of ADRs.
But don’t want antibiotic there for long
e.g. aminoglycosides e.g. gentamicin, and quinolones

Question 62

genetic mechanisms underlying antimicrobial resistance?

Answer 62

chromosomal mutation

horizontal gene transfer

Question 63

ADRs of penicillins?

Answer 63

hypersensitivity reactions
encephalopathy
electrolyte disturbances
diarrhoea, C-difficile infection

Question 64

ADRs of cephalosporins?

Answer 64

C difficile infection, diarrhoea
hypersensitivity reactions
disturbances in liver enzymes
nausea, vomiting, abdom discomfort

Question 65

ADRs of carbapanems?

Answer 65

hypersensitivity
neurotoxicity
C difficile infection

Question 66

ADRs of tetracyclines?

Answer 66

renal and liver toxicity
C difficile infection
nausea and vomiting and diarrhoea

Question 67

ADRs of macrolides?

Answer 67

nausea, vomiting, diarrhoea

Question 68

ADRs of chloramphenicol- inhibits bacterial 50S ribosomal sub-unit?

Answer 68

adverse effect on BM- suppressed

Question 69

ADRs of glycopeptides?

Answer 69

hypersensitivity
renal toxicity
ototoxicity
effect on BM

Question 70

antibiotics requring therapeutic drug monitoring?

Answer 70

aminoglycosides

vancomycin= glycopeptide

Question 71

what markers can be monitored to assess for toxicity with antibiotics?

Answer 71

creatine kinase- daptomycin
eosinophils- daptomycin
FBC- chloramphenicol
renal function -aminoglycosides
auditory function- aminoglycosides
stool chart- most antibacterials in hospital to check for C difficile infection.

Question 72

which antibiotics may interact with anticoagulants, increasing risk of bleeding?

Answer 72

penicillins
cephalosporins
tettracyclines
chloramphenicol