Exam 3 - Medical Chemistry Opioids

Question 1

Levo (-)

Answer 1

active for pain properties

Question 2

Dextro (+)

Answer 2

inactive for pain properties

Question 3

Number of Chiral centers morphine

Answer 3

5

Question 4

How to tell Chiral center?

Answer 4

Substituted by 4 different groups

Question 5

Rings of Morphine structure

Answer 5

4 six member rings, 1 aromatic ring

1 five member ring

Question 6

Important groups for pharmacological activities

Answer 6

2 OH at 3,6 carbon

1 N + CH3

14 position carbon

Question 7

Codeine into morphine

Answer 7

converted by CYP2D6 enzyme

12% of US pop has version that doesn’t allow this conversion to occur

Question 8

Which form is Morphine usually in?

Answer 8

95% found in body is in protonated form

Question 9

Ring “A” modification

Answer 9

Removing 3rd position OH will cause decrease in analgesic potency

Turning into CH3-O- will reduce analgesic potency but not as much as removing OH

Question 10

Esterification and Etherification of OH (3 position)

Answer 10

Analgesic activity decreases

6-Acetylmorphine will be active but 3-Acetylmorphine will not (shows importance of 3-OH group)

Question 11

Ring “C” modification

Answer 11

removal, etherification and esterification of 6-OH will give consistent increase in analgesic potency compared to morphine

6-OH group not essential for analgesic effects

Question 12

Ring “D” modification, tertiary to quaternary

Answer 12

turning Tertiary amine into quaternary salt

inactive when admin peripherally but equi-active to morphine when admin directly into CNS

Question 13

Morphinans structure

Answer 13

A,B,C,D ring plus N-CH3….Missing E (5 member w/ O)

Question 14

Benzomorphans structure

Answer 14

A,B,D ring plus N-CH3

Question 15

Piperidine structure

Answer 15

A and D ring plus N-CH3

Question 16

Phenylpropyamines

Answer 16

Just A ring plus long chain and NH-CH3

Question 17

Phenylpropyamines

Answer 17

Just A ring plus long chain and NH-CH3

Question 18

Oripavin derivatives

Answer 18

More potent than thebaine due to OH at 3, instead of CH3-O

Etorphine and buprenorphine

Question 19

Etorphine

Answer 19

Used for big animals, not humans

added bulk group with OH to 7 carbon

Question 20

Buprenorphine

Answer 20

Partial agonist at mu receptor

more potent than morphine

Also has an added bulky group with OH to 7 carbon,
has tert-butyl

Question 21

Morphine and codeine metabolism

Answer 21

Morphine-6-glucuronidide (M6G) is 2-4 times more potent than morphine

Morphine-3-glucuronidide (M3G) is not active

codeine can be turned into morphine and then M3G, or M6G

Morphine can also do OND to Normorphine which has decreased analgesic activity (Take CH3 off NH, turn into NH2+)

Question 22

Morphinans

Answer 22

removing E ring, along with 6-OH and double bond will give you Levorphanol (L) or Dextromethorphan (D)

Question 23

4-Anilidopiperidines

Answer 23

Amide bond is what gives it the “Anili” name.

Question 24

Levorphanol

Answer 24

L form

8 times more potent than morphine as analgesic

Lipophilic and better oral/parenteral potency ration 2:1

Question 25

4-Phenylpiperidines

Answer 25

only one marketed in USA is Meperidine

Its short acting analgesic, agonist at mu receptor

Undergoes N-demethylation to give Normeperidine which has little analgesic activity but significant toxicity

Question 26

Meperidine Analogs

Answer 26

Diphenoxylate

Difenoxin

Loperamide

Question 27

Dextromethorphan

Answer 27

D form

Inactive as analgesic but has antitussive potency

Question 28

Diphenoxylate

Answer 28

low mu opioid agonist activity

high doses (40-60mg) cause euphoria and addiction

Used in combo with atropine to make diarrhea treatment

Question 29

Difenoxin

Answer 29

used as antidiarrheal agent

made from Diphenoxylate via Easter hydrolysis.

5 times more potent after oral dosing, low CNS action and low abuse potential

Stays in CNS due to being Zwitterion

Question 30

Loperamide

Answer 30

highly lipophilic and undergoes slow dissolution limiting its bioavailability to 40% of the dose