Lecture 1 Anti-infective Agents PDF

Summary

This document is a lecture on anti-infective agents, part of a medicinal chemistry course at ECU (Egyptian Chinese University). Key topics are presented, with a strong emphasis on understanding the various types of anti-infective agents.

Full Transcript

Medicinal Chemistry I (PC 508)
Lecture 1
Anti-infective Drugs
by:
Prof. Hanan Hanna Georgey Dr. Mai Hatem

Office Hours: Monday: 10:30-12:30
Thursday: 10:30-12:30

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Course Calendar
Week no. Content
1 Introduction to medicinal chemistry + Anti-infective agents and fluoroquinolones
2 Sulphonamides and Anticancer drugs
3 Anticancer drugs (Continue) and Group discussion activity
4 Antifungal drugs
5 Antiviral drugs
6 Hormones (Estrogen and Progestins)
7 Hormones (Androgens and Corticosteroids) and Open Discussion activity
8 B-lactams (Penicillins)
B-lactams (cephalosporins) ,Antibiotics affecting protein synthesis (Tetracyclines +
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Aminoglycosides) and Think-Pair Share activity
Antibiotics affecting protein synthesis (Macrolides + Chloramphenicol+ fusidic acid)
10
Educational cooperation and Open Discussion activity
11 Autonomic nervous system
12 Revision

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Chemotherapy

Chemicals used for the treatment or the control of
diseases caused by pathogenic invading organisms or
cells.
Antimicrobial Agents
◦Antibiotics: Chemical compounds produced by a living m.o. to
defend itself against other m.o. by inhibiting their life process.
◦ Synthetic Antibacterial agents: Fully synthetic compounds that act
against bacteria but they are not antibiotics.
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 What is the difference between antiseptic, disinfectants and
preservatives?

For living tissues. For non living They are agents
- They are not bodies used to hinder
devoid of toxic -They destroy the microbial spoilage
effect; their m.o. but they don't of food,
absorption may necessary kill all of pharmaceutical
produce systemic them. preparations and
toxicity. [Food and [Environmental cosmetics in very
Drug Administration Protection Agency) low concentration
(FDA)] (EPA)]

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 Biochemical target for anti-infective
agents:
Inhibition of nucleic acid synthesis.
Inhibition of bacterial cell wall synthesis.
Alteration of cell membrane permeability or
inhibition of active transport across cell
membranes.
Inhibition of protein synthesis
All the antibacterial targets are applied.
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Classification:
1)Alcohols (70% ethyl alcohol) 2) Phenols Chloroxylenol (dettol)
3)Aldehydes 4)Acids 5)Halogen containing compounds (I, Cl)
6)Oxidizing agents 7)Mercury compounds (Merbromine)
8)Silver salts
9)Medicinal dyes (crystal violet should be dissolved in alcohol)
10)Cationic surfactants
11)Nitrofuran derivatives
12)Esters of p-hydroxybenzoic acid (Parabens)
13)Oxazolidinones (linzolid)
14)Nalidixic acid and Quinolones

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Formaldehyde solution Methenamine or Hexamine
HCHO (CH2)6N4

They cause direct non specific Alkylation of nucleophilic functional groups
such as NH2, OH or SH of proteins and nucleic acids.
RXH + HCHO → RXCH2OH (X = N, O and S).

It is a Prodrug releasing HCHO in acid
medium So it is given with urinary
acidifier like NH4Cl

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 Uses Methanamine
Formaldehyde It is used internally as urinary tract
Germicidal. antiseptic. The use of urotropine
The gas used to mandalate because it has its own acidity.
disinfect rooms,
instruments and Resistance:
clothes. urease enzyme
From bacteria
Urea ammonia
Thus, pH increases. This problem can be overcome by
the co-administration of a urease inhibitor
[Acetohydroxamic acid ]CH3-CO-NHOH

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 The role of each one
is_____
Hexamine
Ammonium chloride
Acetohydroxamic acid

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Used as disinfectant

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 It releases the hypochlorous acid (HOCl) when dissolved in water especially
in presence of acid. It is an oxidizing agent that destroy the DNA structure.

It is slightly soluble in water and very soluble in alkaline solution.

Sodium salt is used to disinfect drinking water.
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 2% I2 with 2.5% NaI (as solubilizing
N O. I2
agent) in 50% alcohol. Soluble in water.
CH CH2
n
They inactivate proteins by Iodination of phenyl alanine and tyrosine residues of protein and
oxidation of SH group (sulfhydryl gp).
releases iodine slowly, non-toxic, less irritant,
Irritation , staining toxicity. non-volatile (stable) & less staining.
good penetration into the damaged tissues. Used locally as bactericidal and fungicidal.
used as antiseptic to damage skin. vaginal antiseptic.
Aqueous solution : Skin antiseptic
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 Hydrogen Peroxide (H2O2) KMNO4
It causes denaturation of the
It causes denaturation of the protein protein by direct oxidant action
by liberation of oxygen in the tissues
- The effervescent action of oxygen
dislodges foreign material.

The effectiveness is somewhat limited by their poor penetration into the tissues

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Nifuroxazide, Antinal

For colitis and diarrhea.
Broad spectrum
Effective against antibiotics resistant bacteria.

Nitro group is reduced to hydroxyl amine then to amino group. They produce
(ROS) lead to destruction of DNA and proteins.
-They block the conversion of pyruvic acid to acetyl CoA →energy production in
bacteria is diminished.
They block the energy transfer by the organism required for the cell division.
- They inhibit bacterial respiratory enzymes.
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SAR

5-Nitro group The CH=N
in 5-position is group in the 2-
essential. Replacement of furan
position is
with thiophene or
essential
pyrole →inactive
compounds.
Synthesis

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 MOA-
In gram negative –
Inhibition of DNA gyrase enzyme (Topoisomerase II) responsible for the
relaxation of supercoiling.
In gram positive –
Inhibition of Topoisomerase IV responsible for the relaxation of
supercoiling.

Why did human cells are not affected ?
What is the side effect of quinolone?

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 MOA-
In gram negative –
Inhibition of DNA gyrase enzyme (Topoisomerase II) responsible for the
relaxation of supercoiling.
In gram positive –
Inhibition of Topoisomerase IV responsible for the relaxation of
supercoiling.

Why did human cells are not affected ?
What is the side effect of quinolone?

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 Quinolones & fluoroquinolones
History:
1-naphthyridine-3-carboxylic acid derivatives as nalidixic acid

F: better activity against
G+ve, and uptake

1980s
1962

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2D and 3D drawings of Ciprofloxacin in the active sites of DNA gyrase.

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 1,4-Dihydro-4-oxo-3-
Must be pyridine carboxylic acid
aromatic with or is essential for activity.
without N 6
5
4 3 Reduction of 2,3-double
7 2 bond →↓Inactive
1
8

Position2:
If N → Still active.
Position1:
Any other
Alkyl substitution with lower alkyl group(methyl
substitution→↓activity.
or cyclopropyl) is essential for activity.
Aromatic Substitution gives active compound
especially 2,4-difluorophenyl group which is
optimum for activity
 Substitution with amino
decrease phototoxicity

Substitution with F → ↑
Activity 6
5
4 3

Position7: 7 2

Piperazine → ↑ Activity & broadens 8 1

spectrum # G-ve BUT → ↑ affinity to
GABA receptor (blockade of these Substitution with F at position 8 cause
receptors) leading to CNS side effects phototoxicity Replacement of the nitrogen at
(convulsions). position 8 with carbon r →↓ adverse reactions
and ↑ activity against S. aureus.

Adding of methyl or ethyl to piperazine or placing bulky group on
N1 →↓ GABA receptor binding
SAR Summary
1. Fluoro at position 6 increase activity.
2. Fluoro at position 8 causes phototoxicity.
3. Amino at position 5 prevents phototoxicity.
4. Substitution on N-piperazine prevent CNS side effect.
5. Lipophilicity increase bioavailability.
6. Introduction of a cyclopropyl substituent at position-1 further
increases broad-spectrum activity
7. Replacement of the nitrogen at position 8 with carbon reduces
adverse reactions and increased activity against S. aureus.

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2nd Generation fluoroquinolones:

They are used mainly for UTI and infections resistant to other
antibacterials.
Advatange over 1st generation:
Excellent and broad antibacterial activity.
Fewer side effects when compared to nalidixic acid.
Low ability for inducing bacterial resistance.

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2nd Generation fluoroquinolones:

Ciprofloxacin
Norfloxacin
(Ciprobay)
(Noroxin)
O
F COOH

N N
HN C2 H 5

the most Potent member.
oral broad spectrum
It is 100 times more active
than Nalidixic acid.

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3rd Generation fluoroquinolones:
Sparfloxacin
NH2 O
1. For lower respiratory infections
(bronchitis) and bacterial gastroeneritis F COOH
2. photosensitivity than other di-fluoro
derivatives due to the presence of 5- CH3 N N
amino group which counteracts the effect HN F
of 8-fluoro-substituent.
3. Single dose against streptococci. CH3

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Trovafloxacin (Trovan®)
1. Reports of liver toxicity and
pancreatitis →limited use to
people with potentially life-
threatening infections treated in
hospitals.
2. Against Anaerobic bacteria.

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Incompatibilities of quinolones:

1- Chelation of polyvalent metal ions (Ca, Mg, Al & Fe) forms less water-soluble
complexes with low potency.

Therefore, it is contraindicated to co-administer antacids, hematinics, tonics
and consumption of dairy products soon after quinolone administration.

2- Not given to children less than 18 years old.

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 Exercise
Arrange the following compounds in order of decreasing
bioavailability
NH2 O
F COOH

CH3
N N
HN F
lomefloxacin
CH3

sparfloxacin

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 Antiinfective Agents

Formaldehyde Methenamine Chlorine Tinc. Iodi Povidone iodine Hydrogen KMNO4
solution or Hexamine 2% I2 with Peroxide
HCHO 2.5% NaI N O.I (H2O2) 2
CH CH 2
n

Nifuroxazide Nalidixic acid Norfloxacin Ciprofloxacin Sparfloxacin Trovafloxacin
NH2 O
O F COOH
F COOH
CH3
N N
N N
HN F
HN C2 H 5
CH3

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