strictly MOAs

Question 1

Sulfonamides, diaminopyrimidies (antimicrobials) MOA

Answer 1

inhibit folic acid synthesis (PABA metabolites)

Question 2

Beta Lactam (Penicillins, cephalosporins, beta-lactamase inhibitors, carbapenems, monobactams) MOA

Answer 2

cell wall inhibitors (-cidial)

Question 3

Aminoglycosides MOA

Answer 3

inhibit 30S ribosomal subunit protein

Question 4

Tetracyclines MOA

Answer 4

inhibit 30S ribosomal subunit protein

Question 5

Chloramphenicols MOA

Answer 5

inhibit 50S ribosomoal subunit protein *inhibits peptidyl transferase enzymes

Question 6

Macrolides MOA

Answer 6

inhibit 50S ribosomoal subunit protein *inhibits translocation process

Question 7

Lincomycin MOA

Answer 7

inhibit 50S ribosomoal subunit protein *inhibits translocation process

Question 8

Fluroquinolones MOA

Answer 8

inhibit DNA synthesis

Question 9

Metronidazole MOA

Answer 9

inhibit DNA synthesis

Question 10

Rifampin MOA

Answer 10

inhibit RNA synthesis (RNA polymerase enzyme)

Question 11

Methenamine

Answer 11

urinary antiseptic, requires acidic pH *NOT w sulfa drugs (increase crystalluria)

Question 12

Polymyxin MOA

Answer 12

cell membrane – narrow spec

Question 13

Cardiac glycosides (digitalis, digoxin) MOA

Answer 13

Na/K/ATP pump inhibitors

Question 14

Phosphodiesterase inhibitors MOA (Inamrinone, Milrinone, Pimobendan; Aminophylline)

Answer 14

Inodilators – produce positive inotropic action, peripheral vasodilation

Question 15

Beta 1 selective adrenergic agonist (Dobutamine) MOA

Answer 15

agonist of beta 1 receptors in heart, ↑ contraction of myocardium

Question 16

Sodium nitroprusside MOA

Answer 16

release NO, increase NO mediated vasodilation

Question 17

Hydralazine and Minoxidil MOA

Answer 17

influences K ion influx → arterial vasodilation

Question 18

Prazosin MOA

Answer 18

alpha 1 antagonist (inhibits vasoconstriction)

Question 19

Nitroglycerin MOA

Answer 19

release NO, increase NO mediated vasodilation

Question 20

Isoxsuprine MOA

Answer 20

beta 2 antagonist

Question 21

Ca channel blockers – amlodipine

Answer 21

Inhibits Ca channels – causes decrease in smooth muscle tone

Question 22

Phosphodiesterase V inhibitors - sildenafil (pulmonary hypertension)

Answer 22

Inhibit phosphodiesterase V

Question 23

Furosemide

Answer 23

loop diuretic = redistribution of blood, primary effect IV is increase circulation

Question 24

ACE INHIBITORS [Captopril; Prodrugs (Enalapril, Benazepril)]

Answer 24

?

Question 25

Class I Anti-arrhythmics– membrane stabilizers, local anx agents (Phenytoin, Quinidine, Lidocaine, Procainamide) MOA

Answer 25

reduce Na influx (phase 0 depolarization)

Question 26

Class II Anti-Arrhythmics – beta antag (Propranolol, Atenolol, Esmolol, Metoprolol) MOA

Answer 26

block Beta 1 receptors on heart

Question 27

Class III Anti-Arrhythmics– prolong AP duration (Bretylium, Amiodarone) MOA

Answer 27

significant prolongation of refractory period

Question 28

Class IV Anti-Arrhythmics– calcium channel blockers (Verapamil, Diltiazem) MOA

Answer 28

– block Ca channels, ↓ impulse conduction (SA, AV), ↓ inotropic action → antiarrhtymic actions

Question 29

Clenbuterol

Answer 29

(β2 agonist) = relax bladder

Question 30

Phenoxybenzamine

Answer 30

(α agonist) = contraction of urethra (for tx of dyssenergy)

Question 31

Prazosine

Answer 31

(α1 antagonist) = relax hypertonic urethra

Question 32

Diazepam

Answer 32

GABA agonist (central)

Question 33

Dantrolene

Answer 33

skeletal mm. relaxant

Question 34

Alpha 1 agonists

Answer 34

contract

Question 35

Alpha 1 antagonist

Answer 35

relax

Question 36

Beta 2 agonist

Answer 36

relax

Question 37

Beta 2 antagonist

Answer 37

contract

Question 38

Nicotinic agonist

Answer 38

contract

Question 39

Nicotinic antagonist

Answer 39

relax

Question 40

Muscarinic 3 agonist

Answer 40

contract

Question 41

Muscarinic 3 antagonist

Answer 41

relax

Question 42

Anoerctics - Dirlotapide MOA

Answer 42

selective inhib microsomal triglyceride transfer protein = ↓ fat absorp

Question 43

Cimitidine - Gastric Acid Antisecretory Agents (H2 antagonists)

Answer 43

acetaminophen toxicity antidote, inhibits CYP450, reduces hepatic blood flow

Question 44

Ranitidine - Gastric Acid Antisecretory Agents (H2 antagonists)

Answer 44

competitive inhibition of secretion in PCT → increased plasma levels

Question 45

Nitzadine - Gastric Acid Antisecretory Agents (H2 antagonists)

Answer 45

best/safest for hepatic disease (no metabolism, excreted unchanged in urine)

Question 46

PGE analog (misoprostal)

Answer 46

inhibits acids, increases mucous secretion, stabilizes mast cells

Question 47

Nucleoside REVERSE
Transcripase Inhibitors
(RETROVIRUS)

Answer 47

Causes viral DNA chain terminiation

via phosphorylation (3P) of host enzyme, competition for proviral DNA synthesis

Question 48

Viral DNA Polymerase
Inhibitors
(DNA)

Answer 48

Inhibits viral DNA polymerase via viral thymidine kinase conversion of MP, 3P)
only in infected cells

Question 49

M2-ion Channel
inhibitors
(RNA)

Answer 49

Inhibits RNA/viral release

via H+ influx → acidification of endosome

Question 50

Neuramidase/Sialidase Inhibitors

RNA

Answer 50

Inhibit neuramidase/sialidase (affects shedding of virus)

Question 51

Ribavirin

DNA and RNA

Answer 51

Inhibits viral replication at multiple sites

(interfere w mRNA synthesis

Question 52

Interferons

DNA, RETROVIRUS

Answer 52

Antiviral {Via synthesis of enzymes interfering w viral replication (proteins, RNA degredation)}

Immune modulating
{Cell-cell interaction converts effects w/o additional interferon}

alpha or delta determines WBC targets

Question 53

Alkylating Agents MOA

nitrogen mustards, triazenes, nitrosoureas, platinum complexes

Answer 53

form covalent bonds w DNA → prevent replication and transcription

Question 54

Antimetabolites MOA

Anti-folate, Purine/Pyrimidine Analogs

Answer 54

block metabolic pathways of DNA synthesis

Question 55

Cytotoxic Antibiotics MOA

Doxorubicin, Dactinomycin, Bloemycin, Mitomycin

Answer 55

block mammalian cell division

Question 56

Doxorubicin MOA

Cytotox Ab

Answer 56

Inhibits DNA (topoisomerase II) and RNA synthesis

Question 57

Dactinomycin (Cytotox Ab)

Answer 57

intercalates in DNA → RNA polymerase, topoisomerase II

Question 58

Bleomycin (Cytotox Ab)

Answer 58

fragments DNA chains (NON-DIVIDING CELLS)

Question 59

Mitomycin (Cytotox Ab)

Answer 59

Activated to give an alkylating metabolite

Question 60

Plant Derivatives (Vinca Alkaloids and Taxanes/Taxois)

Answer 60

inhibit microtubules/mitosis

Question 61

Steroids

Prednisone, Prednisolone, Dexamethasone

Answer 61

tumor cell destruction (↓ size), 2° complications mngmnt

Question 62

Anti-Androgens

Delmadinone

Answer 62

inhibit androgens

Question 63

Anti-Prostagens

Answer 63

inhibit prostagens

Question 64

Monoclonal AntiBodies (specific types of cancer)
{cetuximab, trastuzumab, bevacizumab}

Answer 64

Antibodies against specific receptors

Question 65

Protein (Tyrosine) Kinase Inhibitors

{Imatinib, Toceranib, Mastinib}

Answer 65

Inhibit tyrosine kinase → prevent downstream signaling

Question 66

Vaccines MOA

ex. BCG

Answer 66

stim immune system to recognize tumor cells, enhance tumor cell destruction

Question 67

Enzymes MOA

ex. L-asperanginase

Answer 67

catalyzes hydrolysis (→ l-aspartic acid + ammonia) → ↓protein synthesis

Question 68

Benzimidazoles

anthelmintics

Answer 68

irreversibly binds to nematodal tubulin, specifically beta-tubulin

Question 69

Imidazothiazoles- Levamisole (anthelmintics)

Answer 69

ganglionic stimulant and a direct cholinergic drug, casues paralysis

Question 70

Pyrantel

Tetrahydropyrimidines- anthelmintics

Answer 70

depolarizing neuromuscular blocking agent

Question 71

Morantel (Tetrahydropyrimidines- anthelmintics)

Answer 71

depolarizing neuromuscular blocking agent

Question 72

Organophosphate compounds (anthelmintics)

Answer 72

Irreversible inhibition of acetylcholinesterase

Question 73

Macrocyclic Lactones 
(anthelmintics)

Answer 73

bind selectively with high affinity to glutamate-gated chloride channels

Question 74

Praziquantel

Answer 74

Ca2+ ion flux across the surface of membranes of exposed parasite, results in paralysis, release of Ca….(some more things happen)…surface swellings, blebs form, create lesions and lyse

Question 75

Epsiprantel

Answer 75

depolarizing neuromuscular blocking agent

same as pyrantel

Question 76

Closantel

fasciolicidal drug

Answer 76

proton ionophore transporting cations across cell membrane and ultimately uncoupling oxidative phosphorylation within mitochondria(parasite), ATP production inhibited
(same as Rafoxanide)

Question 77

Rafoxanide

fasciolicidal drug

Answer 77

proton ionophore transporting cations across cell membrane and ultimately uncoupling oxidative phosphorylation within mitochondria(parasite), ATP production inhibited

Question 78

Clorsulon

fasciolicidal drug

Answer 78

affects glycolytic enzymes and deprives the fluke of its main source of metabolic energy

Question 79

Polyether Ionophores

antiprotozoal

Answer 79

lipophilic complexes (alkali metal cations) → change membrane integreity/internal osmolality

Question 80

Nitroimidazoles/ Nitrofurans

antiprotozoal

Answer 80

nitro group cleaved off (reductive) – produces unstable intermediates that interact w DNA

Question 81

Sulfonamide

anitprotozoal

Answer 81

?

Question 82

Ectoparasiticides MOA

Answer 82

AChE-inhibitors,
Na channel blockers,
nAChR inhibitors,
GABA/Cl channel    inhibitors,
Ectoparasite repellents,
IGR/IDI