Download Microbiology

TORTORA • FUNKE
• CASE
Microbiology
AN INTRODUCTION
EIGHTH EDITION
B.E Pruitt & Jane J. Stein
Chapter 10, part B
Antimicrobial Drugs
PowerPoint® Lecture Slide Presentation prepared by Christine L. Case
Copyright © 2004 Pearson Education, Inc., publishing as Benjamin Cummings
Antifungal Drugs
Inhibition of Ergosterol Synthesis
• Polyenes
• Amphotericin B
• Azoles
• Miconazole
• Triazoles
• Allylamines
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Figure 20.15
Antifungal Drugs
Inhibition of Cell Wall Synthesis
• Echinocandins
• Inhibit synthesis of -glucan
• Cancidas is used against Candida and
Pneumocystis
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Antifungal Drugs
Inhibition of Nucleic Acids
• Flucytocine
• Cytosine analog interferes with RNA synthesis
• Pentamidine isethionate
• Anti-Pneumocystis; may bind DNA
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Antifungal Drugs
Inhibition of Microtubules (Mitosis)
• Griseofulvin
• Used for superficial mycoses
• Tolnaftate
• Used for athlete's foot; action unknown
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Antiviral Drugs
Nucleoside and Nucleotide Analogs
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Figure 20.16a
Antiviral Drugs
Nucleoside and Nucleotide Analogs
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Figure 20.16b, c
Antiviral Drugs
Enzyme Inhibitors
• Protease inhibitors
• Indinavir
• HIV
• Inhibit attachment
• Zanamivir
• Influenza
• Inhibit uncoating
• Amantadine
• Influenza
• Interferons prevent spread of viruses to new cells
• Viral hepatitis
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Antiprotozoan Drugs
• Chloroquine
• Inhibits DNA synthesis
• Malaria
• Diiodohydroxyquin
• Unknown
• Amoeba
• Metronidazole
• Damages DNA
• Entamoeba, Trichomonas
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Antihelminthic Drugs
• Niclosamide
• Prevents ATP generation
• Tapeworms
• Praziquantel
• Alters membrane permeability
• Flatworms
• Pyantel pamoate
• Neuromuscular block
• Intestinal roundworms
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Antihelminthic Drugs
• Mebendazole
• Inhibits nutrient absorption
• Intestinal roundworms
• Ivermectin
• Paralyzes worm
• Intestinal roundworms
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Disk-Diffusion Test
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Figure 20.17
E Test
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Figure 20.18
• MIC
Minimal inhibitory concentration
• MBC
Minimal bactericidal concentration
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Broth Dilution Test
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Figure 20.19
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Figure 20.20
Antibiotic Resistance
• A variety of mutations can lead to antibiotic resistance.
• Mechanisms of antibiotic resistance
1. Enzymatic destruction of drug
2. Prevention of penetration of drug
3. Alteration of drug's target site
4. Rapid ejection of the drug
• Resistance genes are often on plasmids or
transposons that can be transferred between bacteria.
Copyright © 2004 Pearson Education, Inc., publishing as Benjamin Cummings
Antibiotic Resistance
• Misuse of antibiotics selects for resistance mutants.
Misuse includes:
• Using outdated, weakened antibiotics
• Using antibiotics for the common cold and other
inappropriate conditions
• Use of antibiotics in animal feed
• Failure to complete the prescribed regimen
• Using someone else's leftover prescription
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Effects of Combinations of Drugs
• Synergism occurs when the effect of two drugs
together is greater than the effect of either alone.
• Antagonism occurs when the effect of two drugs
together is less than the effect of either alone.
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Effects of Combinations of Drugs
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Figure 20.22
The Future of Chemotherapeutic Agents
• Antimicrobial peptides
• Broad spectrum antibiotics from plants and animals
• Squalamine (sharks)
• Protegrin (pigs)
• Magainin (frogs)
• Antisense agents
• Complementary DNA or peptide nucleic acids that
binds to a pathogen's virulence gene(s) and
prevents transcription
Copyright © 2004 Pearson Education, Inc., publishing as Benjamin Cummings