Drug Classes According To Pharmacophore

Question 1

mechanisms of antibacterial agents

Answer 1

• inhibiting cell metabolism
• inhibiting cell wall synthesis
• interacting with plasma membrane
• disrupting protein synthesis
• inhibition of nucleic acid transport and replication

Question 2

drug class that inhibits cell metabolism

Answer 2

sulfanilamide

Question 3

sulfanilamide SAR (structure, activity relation)

Answer 3

• para amino group essential
• aromatic and sulfonamide essential
• aromatic ring must have para substitutions
• sulfonamide nitrogen must be primary or secondary

Question 4

fanisdar

Answer 4

combination of sulfadoxine and pyrimethamine

Question 5

fanisdar MOA

Answer 5

• blocks synthesis of tetrahydrofolate
• which is an enzyme cofactor that provides one carbon units for synthesis of pyrimidine nucleic acid bases

Question 6

fanisdar conditions to treat

Answer 6

• malaria
• uti’s
• gut infections

Question 7

drug class that inhibits cell wall synthesis

Answer 7

penicillins

Question 8

penicillin SAR

Answer 8

• beta-lactam essential
• free COOH essential
• bicyclic system important
• acylamino side chain essential
• sulfur usual but not essential
• cis stereochemistry important with respect to acylamino side chain (bold wedge)

Question 9

drug class that interacts with plasma membrane

Answer 9

ion-conducting antibiotics

Question 10

examples of ion-conducting antibiotics

Answer 10

vancomycin, gramicidin A and polymyxin B

Question 11

SAR of ion-conducting antibiotics

Answer 11

• they are massive structures
• active for G- bacteria

Question 12

drug class that disrupts protein synthesis

Answer 12

• aminoglycosides
• tetracyclines
• macrolides

Question 13

drug class that inhibits nucleic acid transportation and replication

Answer 13

• quinolones
• fluoroquinolones
• work by stabilising complex formed between DNA and topoisomerases

Question 14

SAR of quinolones

Answer 14

• bicyclic ring
• pyridine
• piperazinyl ring at position 7 beneficial
• cyclopropyl substituent at position 1 increased broad spectrum activity
• replacement of nitrogen at position 8 reduced adverse reactions

Question 15

drugs that inhibit transcription phase (antiviral agents)

Answer 15

• Efavirenz
• Didanosine

Question 16

drug that inhibits post transcription phase (antiviral agents)

Answer 16

idinavir

Question 17

idinavir

Answer 17

• relatively larger molecule
• no weird representations
• not as massive as vancomycin

Question 18

drugs that are ion channel disruptors (antiviral agent)

Answer 18

• adamantanes
• look like a little hat
• contain NH3+ Cl-

Question 19

inhibitors of neuraminidase (antiviral agent)

Answer 19

• zanamivir
• tamiflu
• both transition state inhibitors

Question 20

antidiabetic agents

Answer 20

• insulinotropic agents
• insulin-sensitising agents

Question 21

insulinotropic agents

Answer 21

• sulfonylureas
• act by closing membrane bound ATP sensitive potassium channels

Question 22

SAR of sulfonylureas

Answer 22

• Sulfur atom double bonded to two oxygens

Question 23

insulin-sensitising agents

Answer 23

• biguanides
• thiazolidinediones

Question 24

SAR of biguanides

Answer 24

• has a double bonded NH side chain

Question 25

common features in thiazolidinedione agonists

Answer 25

• pentagon structure with NH and S and two double bonded oxygens
• PPARy agonists
• treat diabetes by lowering serum glucose without increasing insulin secretion

Question 26

PPARy

Answer 26

• nuclear receptor
• regulates fatty acid storage and glucose metabolism

Question 27

alpha-glucosidase inhibitors

Answer 27

• numerous benzene rings attached to each other with lots of phenol groups
• delays digestion of dietary carbohydrate in the form of starch and sucrose into monosaccharides
• delaying absorption lowers blood glucose

Question 28

classes of antineoplastics (anti-tumor)

Answer 28

• alkylating agents
• antimetabolites (acting on enzymes
• inhibitors of signaling pathways
• antimitotics
• topoisomerase II inhibitors

Question 29

central nervous system agents

Answer 29

opioids

Question 30

SAR of opioids

Answer 30

• 3 benzene rings
• alkene or 6-hydroy groups not essential
• phenol group is important
• tertiary amine is important

Question 31

point to consider with opioids

Answer 31

analgesic activity not only related to presence of important function groups, but to their relative position with respect to each other

Question 32

psychoactive drugs (hypnotics)

Answer 32

• benzodiazepines
• enhance effect of GABA at GABAa receptor, resulting in sedative, hypnotic, anxilytic, anticonvulsant and muscle relaxant properties

Question 33

SAR of benzodiazepines

Answer 33

• benzene ring and 7-member diazepine ring
• activity decreased with substitutions on nitrogen larger than methyl
• activity decreased by substituents at benzene ring positions other that C7
• activity increased by electron withdrawing groups on C7

Question 34

another psychoactive drug (hypnotics)

Answer 34

• barbiturates

Question 35

SAR of barbiturates

Answer 35

• benzene ring with nitrogen substitutions in meta-substitution
• double bonded oxygens in ortho position
• hypnotic activity increases with lipid solubility until number of C atoms at both C-5 substituents is between 6 and 10
• unsaturated alkyl, alkenyl and alkynyl derivatives more hypnotic than saturated analogues
• polar substituents at position 5 decreases lipid solubility and potency
• replacement of oxygen at C-2 by sulfur results in faster onset but shorter duration of activity

Question 36

drugs of alzheimers

Answer 36

• neostigmine
• donepezil
• rivastigmine
• galantamine

Question 37

SAR of alzheimer’s drugs

Answer 37

• benzene ring attached to ester group
• ester attached to Me2N

Question 38

SAR of drugs for parkinson’s disease

Answer 38

• based on L-DOPA, the precursor to dopamine, NA and A
• single benzene ring with two phenol groups at the meta and para positions
• R in dopamine = Me2NH2
• R in NA = CH(OH)CH2NH2
• R in A = CH(OH)CH2NHCH3

Question 39

respiratory agents

Answer 39

• based on ephedrine
• salbutamol and salmeterol

Question 40

SAR of respiratory agents

Answer 40

• N-alkyl substitution increases potency for beta-adrenergic receptor
• phenol group important
• alpha-methyl substitution increases potency for alpha-adrenergic receptor
• salbutamol has a hydroxymethylene group on meta position
• salmeterol is simply a longer molecule

Question 41

why does salmeterol have a long duration of action compared to salbutamol?

Answer 41

because it is more lipophilic, so it can cross the BBB more easily