PHRD 521 Medicinal Chemistry Lecture 1 (Functional Groups and Stereochemistry) PDF

Summary

This document is a lecture for PHRD 521 Medicinal Chemistry covering functional groups, stereochemistry, and their importance in drug discovery. The lecture includes definitions and examples which aim to illustrate how these concepts are essential components of pharmacology.

Full Transcript

PHRD 521
Medicinal Chemistry
Fall 2024
Dr.Radhika V. Kumar
Office: PSC –612B
Email: [email protected]
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 Drug Discovery

Medicinal Chemistry

Stages in Drug Discovery Process
Reference : Lombardino, J., Lowe, J. The role of the medicinal chemist in drug discovery — then and now. Nat Rev Drug Discov 3, 853–862 (2004). 2
Importance of Medicinal Chemistry in PharmD Curriculum

Reference : Khan MO, Deimling MJ, Philip A. Medicinal chemistry and the pharmacy curriculum. Am J Pharm Educ. 2011;75, 8, 161 3
 Topics of Importance
Functional Groups (Lecture 1)
Stereochemistry (Lecture 1)
Structure Activity Relationships (Lecture 2)
Drug Targets (Lecture 3)
Drug Target Interactions (Lecture 3)

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 Functional Groups
Key Objectives
Identify the individual functional groups in the structure of a given drug
molecule.
Importance of functional group in a given drug molecule (electronic,
solubility, and steric effects)
Influence of functional groups in contributing to activity (Pharmacology
and Toxicological outcomes) on a given target
Identify the nature of the chemical properties of the functional groups
present in amino acids and proteins ( drug targets/receptors )

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 Functional Groups
Functional groups provide specific properties and behaviors that allow
drug molecules to exert their desired pharmacodynamic and
pharmacokinetic effects.
Functional groups on drug molecules play a significant role in:
Water/ Lipid solubility
Route of administration
Interaction with targets
Mechanism of action (Pharmacodynamics)
Fate of the drug : ADME (Pharmacokinetics)
Adverse effects / drug interactions (Toxicology) 6
 Review :
List of Common Functional Groups in
Drug Molecules
(Posted on Brightspace)
Note:
“The document is a general list, not a comprehensive or all inclusive one”
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Lets Practice !!

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Identify all possible functional groups in the structure
below !

4 2
1
Answers!!
3
1. Carboxylic Acid 5

2. Pyrrolidine
Ketorolac
3. Pyrrole Use : Non-Steroidal Anti-inflammatory Drug (NSAID)
4. Ketone
5. Aromatic Ring/
Benzene
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Identify all possible functional groups in the structure
below !
Answers !!
4 1. Phenol
2. Amine (primary)
5
3
1 3. Amide
4. Carboxylic Acid
6
5. 𝛽-lactam ring (cyclic amide)
2 6. Thioether
Amoxicillin
Use: Antibiotic

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Identify all possible functional groups in the structure/s
below !
4

2 3 2
1
1
Acetylcholine 1
4
Use : Neurotransmitter, parasympathomimetic Anastrozole (Arimidex)
Use : Anti-neoplastic, Breast Cancer, Aromatase Inhibitor
Answers!!
Answers!!
1. Ester 1. Nitrile/ Cyano
2. Quaternary Amine 2. Triazole
3. Phenyl
4. Isopropyl 11
 Effects of Functional Groups
Steric Effects
Functional group/s have a finite size or steric dimension.
Contributes to the conformation or three-dimensional shape of a given drug molecule.
May provide therapeutic benefits for a drug molecule :
Increased selectivity for its biological target
Enhanced binding interactions with its biological target
Alteration of pharmacokinetics Methyl group

Non-selective Cholinergic Agonist Selective Cholinergic Agonist
(binds and acts on both nicotinic and (binds and acts only on muscarinic
muscarinic receptors) receptors)

Relatively shorter duration of action Relatively longer duration of action 12
 Effects of Functional Groups
Electronic Effects
Electronegative atoms that tend to inductively attract electrons from usually adjacent
carbon atoms in drug molecule contributing to a dipole (partial charge separation
between the atoms in a functional group)
Ex: Halogens (-F,-Cl,-Br,-I), oxygen (-O-) , and nitrogen (-N=)
These dipoles play an important role in enhancing water solubility of a drug
molecule to interact with its biological target.

Penicillin V- Stable in Acidic Stomach Environment –
Penicillin G- Inactivated in Acidic Stomach
due to the ether oxygen taking the electrons away from
Environment – due to the electron shift from
carbonyl oxygen preventing the attack on the beta-
carbonyl oxygen attacking the beta- lactam ring
lactam ring
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 Effects of Functional Groups
Solubility Effects
Refers to both water and/or lipid solubility of a drug molecule
It is the sum of contributions of each functional group present within the drug structure.
Overall solubility contribution of a specific functional group varies depending on adjacent groups (
needs to be a balance )
Lipid-Soluble Functional Groups
Often referred to as Hydrophobic or Lipophilic functional groups
Enhance lipid solubility of a drug molecule
Does not tend to ionize or form hydrogen bonds.
Water-Soluble Functional Groups
Often referred to as hydrophilic functional groups.
Enhance the water solubility of a drug molecule through ionization and/or its ability to form
hydrogen bonds
Acidic and basic functional groups are capable of ionization (negatively or positively charged)
enhancing the water solubility of a drug molecule.
Ex: Acidic Functional Groups and Basic Functional Groups
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 Water Solubility Effect
Role of Hydrogen bonding (H-bonds) in Functional Groups
A hydrogen bond is a specialized type of interaction.
H-atom serves as a bridge between two electronegative atoms.
Functional groups fall into 2 categories for H- bonding
Hydrogen Bond Donor (HBD) wherein the hydrogen atom is covalently bound to one atom.
Hydrogen Bond Acceptor (HBA) wherein the hydrogen atom is non-covalently bound to one
atom.
“Lipinski rule” states that biologically active drug molecules generally tend to adhere to:
No more than 5 hydrogen bond donors (HBD)
No more than 10 hydrogen bond acceptors (HBA)
Oxygen and Nitrogen are the most common hydrogen bond donors and acceptors.
Water molecule can act as both a hydrogen bond donor and an acceptor
Functional groups that can form H-bonds with water, contribute to increased solubility.
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 Example
Identify potential # of HBA and HBD interactions of
Benazepril (Lotensin) with water

HBD (unionized)
HBA
HBA (unionized)

HBA
HBA
HBA H-Bonding

Notes : Amines
Could be both HBD and HBA depending on the pH
Tertiary amines are mainly HBA’s (lack of H)
Count the # of O’s and N’s for Hydrogen bonding ( Lipinski Rule ) 16
 Acidic and Basic Functional Groups

Sulfonamide

Celecoxib (Celebrex)
(pKa-10.7) Levothyroxine
(pKa-6.7)

Tetrazole

Ibuprofen
(Motrin) Imide
(pKa- 5.2)
Valsartan (Diovan) Phenytoin (Dilantin)
(pKa-4.9) (pKa-8.33)
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NOTE: Adjacent functional groups may have an influence on the acidity or basicity of the drug molecule
 Acidic and Basic Functional Groups

Gabapentin (Neurontin)
pKa’s 3.8 and 10.7

Imine

Guanidine/ Diazepam (Valium)
pKa 3.4
Guanidino Phenazopyridine (Pyridium)
pKa 5.2

Imidazole

Cimetidine (Tagamet)
pKa 6.8 Atenolol (Tenormin)
pKa 9.6

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NOTE: Adjacent functional groups may have an influence on the acidity or basicity of the drug molecule
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Lets Practice !!

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 Diphenhydramine

1. Identify the hydrophilic functional group indicated in the drug molecule.
Amine (tertiary)
2. What is the nature ( acidic/ basic / neutral ) of the functional group indicated in the structure of
diphenhydramine ? Basic
3. Identify the potential hydrophobic functional group in the drug molecule.
Aromatic ring/Benzene/Phenyl
4. Identify functional group/s that are capable of H-bonding with water/ drug target ?
Amine, Ether
5. Which of the functional groups identified in 4 is HBA or HBA ?
Both are HBA’s

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 The functional group indicated in the structure
of Acetylcholine is
a) Hydrophilic
Acetylcholine b) Hydrophobic

v
The functional group indicated in the structure of
Ciprofloxacin is
a) Hydrophilic
Ciprofloxacin b) Hydrophobic

The nitrogen in the piperazine ring in the structure
v
of Ciprofloxacin is
a) HBA only
b) HBD only
Ciprofloxacin c) Both HBA and HBD Lipinski Rule
d) Neither HBA or HBD 22
 The nature of the functional group indicated in the structure of
Estrone is
Estrone a) Acidic
b) Basic
c) Neutral
d) Both Acidic and Basic

The nature of the functional group indicated in the structure of
Amitriptyline is
a) Basic
b) Acidic
Atenolol c) Neutral
d) Both Acidic and Basic

The nature of the functional group indicated in the structure of
Loperamide is
a) Acidic (None)
b) Basic ( Piperidine )
Loperamide c) Neutral ( tertiary alcohol and tertiary amide )
d) Both Acidic and Basic
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Stereochemistry
Refers to spatial (3D) arrangement of atoms
Also referred to as Stereoisomers
Asymmetric center or chiral center *
Could be none, 1 or more in drug molecules Example
Configurational isomers
Enantiomers : 1 or more chiral center, non- *
superimposable mirror images 2 isomers
Similar physical and chemical properties (enantiomers)
Diastereoisomers : More than 1 chiral center, non- Ibuprofen 3 4
superimposable non-mirror images
Different physical and chemical properties 1
2
Designations for Enantiomers and Chiral Centers Clockwise - R
4 stereochemical designations that can be used to describe
enantiomers: (+)/(−), d/l, D/L, and R/S. R-(-)-ibuprofen
The (+)/(−) same as d/l - identifies the direction in which 3 4
Hydrogen –forward
the enantiomer rotates plane polarized light. (+ = d, -=l ).
A 50: 50 mixture of both enantiomers is called a racemic 1
v
mixture 2 Counterclockwise - S
d/l (drugs) should not be confused with D/L (sugars and
amino acids) S-(+)-ibuprofen 24
Assignment of R and S
 Diastereomers
2
* * *
1 *

* * *
*

Geometric Isomers
Also Called Cis/Trans or E/Z isomers

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Conformational Isomers
Non-superimposable orientations
Result of free rotation around single
bonds
Not distinct molecules, but different
orientations of the same molecule.
Drug conformations have a
significant role to play in the energy
(enthalpy and entropy) changes
involved in the binding of a drug
molecule to its biological target. Fentanyl
Opioid Analgesic
Conformational flexibility/restriction
can provide beneficial
pharmacological/therapeutic benefits Identify the conformers/rotatable bonds ?
depending on the specific drug or
drug class.
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 Importance of Stereochemistry
Helps to understand the orientation, steric influence of the drug structure in
establishing/optimizing binding at the target site.
Pharmacological /Toxicological activity of the drug
Pharmacokinetics of the drug ( Metabolism )

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Lets Practice !!

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Identify the # of chiral centers and assign stereochemistry
(R/S) as indicated in the drug molecule/s below

1 chiral center
S
*

0 or no chiral
centers
Gabapentin Levothyroxine

Tramadol
2 chiral centers

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 References
1. Lombardino, J., Lowe, J. The role of the medicinal chemist in drug discovery — then
and now. Nat Rev Drug Discov 2004, 3, 853–862.
2. Khan MO, Deimling MJ, Philip A. Medicinal chemistry and the pharmacy curriculum.
Am J Pharm Educ. 2011, 75, 8, 161
3. Harrold, M. & Zavod, R. (2018). Basic Concepts in Medicinal Chemistry (2nd ed.).
American Society of Health-System Pharmacists.
4. https://go.drugbank.com
5. https://pubchem.ncbi.nlm.nih.gov
6. Hancu, G.; Modroiu, A. Chiral Switch: Between Therapeutical Benefit and Marketing
Strategy. Pharmaceuticals 2022, 15, 240.

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