M T Ch20 Antimicrobial Drugs SS10 s (2)
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Antimicrobial Drugs
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Antimicrobial Drugs
SLOs
Name the microbes that produce the most antibiotics.
Describe problems of chemo-therapy for viral, fungal, protozoan,
and helminthic infections.
Define: Therapeutic index, antibiotic, activity spectrum,
bacteriostatic, -cidal
Identify five modes of action of antimicrobial drugs.
Describe the mechanism of action of penicillin and the mechanism of
resistance to penicillin.
Compare penicillin, cephalosporin, and vancomycin
Briefly explain the modes of action of some antifungal drugs.
Explain the modes of action of some antiviral drugs.
Explain the modes of action of some antiprotozoan and
antihelminthic drugs.
Describe the Kirby Bauer test.
Describe mechanisms of drug resistance.
Copyright © 2006 Pearson Education, Inc., publishing as Benjamin
Cummings
Antimicrobial Drugs
Chemotherapy: The use of drugs to treat a disease.
Antimicrobial drugs: Interfere with the growth of microbes within a
host.
Antibiotic: Of biological origin. Produced by a microbe, inhibits
other microbes.
Chemotherapeutic agent: synthetic chemicals
Today distinction blurred many newer "antibiotics" are biological
products that are
chemically modified or
Copyright © 2006 Pearson Education, Inc., publishing as Benjamin
Cummings
Paul Ehrlich and Sahachiro Hata developed Salvarsan (Arsphenamine)
against syphilis in 1910: The concept of chemotherapy to treat
microbial diseases was born.
Sulfa drugs (sulfanilamide) discovered in 1932 against Gram+
bacteria
The History of Chemotherapy
The History of Chemotherapy cont.
Fig 20.1
1928: Fleming discovered penicillin
*
Features of Antimicrobial Drugs
Selective toxicity: Drug kills pathogens without damaging the
host.
Therapeutic index: ratio between toxic dose and therapeutic dose –
or ratio of LD50 to ED50
High therapeutic index less toxic
Antimicrobial action – Bacteriostatic vs. bactericidal
Activity Spectrum – Broad-spectrum vs. narrow- spectrum
*
The ratio of the dose required to produce toxic or lethal effects
to dose required to produce nonadverse or therapeutic
response.
www.ficus.usf.edu/docs/glossary/t.htm
The Action of Antimicrobial Drugs
Foundation Fig 20.2
Inhibition of Protein Synthesis by Antibiotics
Figure 20.4
Antibacterial Antibiotics
Natural and semisynthetic penicilins contain β-lactam ring
Natural penicillins produced by Penicillium are effective against
Gram + cocci and spirochetes
*
Retention of Penicillin G
Penicillin cont.
Extended-spectrum penicilins: Ampicilin, amoxicilin; new:
carboxypenicilins and ureidopenicillins (also good against P.
aeruginosa)
Fig 20.8
Cephalosporins
First-generation: Narrow spectrum, gram-positive
Third-generation: Includes pseudomonads; mostly injected, some
oral.
Fourth-generation: Most extended spectrum
*
Their broad spectrum of activity and safety profile make the
cephalosporins one of the most widely prescribed class of
antimicrobials. The earlier generation cephalosporins are commonly
used for community-acquired infections, while the later generation
agents, with their better spectrum of activity against
gram-negative bacteria make them useful for hospital-acquired
infections or complicated community-acquired infections.
The Professor of Hygiene of the University of Cagliari, Giuseppe
Brotzu (1895-1976), wondered why typhoid fever was less virulent in
his city than elsewhere. He had formulated various hypotheses, all
in vain. One day, while he was passing through the neighbourhood of
the bay of "Su Siccu" he saw some young people bathing in the sea ,
just in the waters where Cagliari sewer system debouches without
contracting the disease.
So he took a sample of the water to test its effect on a culture of
salmonella typhi. Since it was wartime and there was no meat to
make the broth for the culture medium, Brotzu used the placentas
obtained from parturient women in the maternity ward, that he then
boiled in order to obtain the medium. With the help of his
assistant Antonio Spanedda (1907-1998), he isolated a fungus from
this water that produced an effective substance against
Gram-negative bacteria- (the typhoid is in fact caused by
Salmonella Typhi, which like all the enterobacteriaceae is Gram-
negative) however, the fungal extract he had prepared was a raw
compound which could not be produced on a larges scale. When Brotzu
asked for funding from the Italian Committee for research it was
not given to him for political reasons since he had previously
adhered to Fascism, as did almost all Italian university
professors. Moreover, Brotzu dedicated himself less to research
because he got more involved in politics, first becoming Mayor of
Cagliari and then President of the Region of Sardinia.
During fascist times, Brotzu had already been involved in the fight
against malaria. After the war he was a consultant to the
Rockefeller Foundation which, thanks to land reclamation and the
massive use of DDT, succeeded in eradicating malaria (1950) by
eliminating its carrier. Notwithstanding his great merits (for
having discovered the cephalosporium he was proposed for the Nobel
Prize) he is not usually mentioned in Italian texts, whereas, in
contrast, he is named in pharmacological textbooks throughout the
world. Brotzu received neither honour, nor money. In fact, he
consigned several strains of cefalosporium fungus to an English
sanitary official who had come to Sardinia in the anti-malaria
campaign. In turn, this official gave the material to Edward
Abraham (1913-1999), a student of Fleming, who isolated the
cephalosporin. The drug was then sold throughout the world by the
pharmaceutical companies Glaxo and Lilly making a good profit for
them.
Copyright © 2006 Pearson Education, Inc., publishing as Benjamin
Cummings
Cephalosporins cont.
Broader spectrum used against penicillin-resistant strains
*
Their broad spectrum of activity and safety profile make the
cephalosporins one of the most widely prescribed class of
antimicrobials. The earlier generation cephalosporins are commonly
used for community-acquired infections, while the later generation
agents, with their better spectrum of activity against
gram-negative bacteria make them useful for hospital-acquired
infections or complicated community-acquired infections.
The Professor of Hygiene of the University of Cagliari, Giuseppe
Brotzu (1895-1976), wondered why typhoid fever was less virulent in
his city than elsewhere. He had formulated various hypotheses, all
in vain. One day, while he was passing through the neighbourhood of
the bay of "Su Siccu" he saw some young people bathing in the sea ,
just in the waters where Cagliari sewer system debouches without
contracting the disease.
So he took a sample of the water to test its effect on a culture of
salmonella typhi. Since it was wartime and there was no meat to
make the broth for the culture medium, Brotzu used the placentas
obtained from parturient women in the maternity ward, that he then
boiled in order to obtain the medium. With the help of his
assistant Antonio Spanedda (1907-1998), he isolated a fungus from
this water that produced an effective substance against
Gram-negative bacteria- (the typhoid is in fact caused by
Salmonella Typhi, which like all the enterobacteriaceae is Gram-
negative) however, the fungal extract he had prepared was a raw
compound which could not be produced on a larges scale. When Brotzu
asked for funding from the Italian Committee for research it was
not given to him for political reasons since he had previously
adhered to Fascism, as did almost all Italian university
professors. Moreover, Brotzu dedicated himself less to research
because he got more involved in politics, first becoming Mayor of
Cagliari and then President of the Region of Sardinia.
During fascist times, Brotzu had already been involved in the fight
against malaria. After the war he was a consultant to the
Rockefeller Foundation which, thanks to land reclamation and the
massive use of DDT, succeeded in eradicating malaria (1950) by
eliminating its carrier. Notwithstanding his great merits (for
having discovered the cephalosporium he was proposed for the Nobel
Prize) he is not usually mentioned in Italian texts, whereas, in
contrast, he is named in pharmacological textbooks throughout the
world. Brotzu received neither honour, nor money. In fact, he
consigned several strains of cefalosporium fungus to an English
sanitary official who had come to Sardinia in the anti-malaria
campaign. In turn, this official gave the material to Edward
Abraham (1913-1999), a student of Fleming, who isolated the
cephalosporin. The drug was then sold throughout the world by the
pharmaceutical companies Glaxo and Lilly making a good profit for
them.
Copyright © 2006 Pearson Education, Inc., publishing as Benjamin
Cummings
Vancomycin
Used to kill MRSA
Antifungal Drugs
Polyenes, such as nystatin and amphotericin B, for systemic fungal
infections. Inhibition of ergosterol synthesis fungicidal.
Nephrotoxic
Griseofulvin from Penicillium. Systemic/oral. Binds to
tubulin
For Tineae
Antiviral Drugs
Acyclovir and newer derivatives: Selective inhibition of herpes
virus replication. Acyclovir conversion to nucleotide analog only
in virus infected cells very little harm to uninfected cells!
Fig 20.16
*
Nucleoside analogs were among the first compounds shown to be
effective against viral infections. The pioneering work of Elion
and colleagues at Burroughs-Wellcome led to the development of
acyclovir which is used extensively in the treatment of herpetic
infections (1). Therefore, it is not surprising that the first four
anti-HIV drugs to be approved, AZT, ddI, ddC and D4T ; were
nucleoside analogs.
Ganciclovir (9-[(1,3-dihydroxy-2-propoxy)methyl]guanine) is a
potent inhibitor of viruses of the herpes family, including
cytomegalovirus (CMV), that are pathogenic for humans and animals.
The primary mechanism of ganciclovir action against CMV is
inhibition of the replication of viral DNA by
ganciclovir-5'-triphosphate (ganciclovir-TP). This inhibition
includes a selective and potent inhibition of the viral DNA
polymerase. Ganciclovir is metabolized to the triphosphate form by
primarily three cellular enzymes: (1) a deoxyguanosine kinase
induced by CMV-infected cells; (2) guanylate kinase; and (3)
phosphoglycerate kinase. Other nucleotide-metabolizing enzymes may
be involved as well. The selective antiviral response associated
with ganciclovir treatment is achieved because of the much weaker
inhibition of cellular DNA polymerases by ganciclovir-TP. Activity
and selectivity are also amplified by the accumulation of
ganciclovir-TP in CMV-infected cells.
The compound of choice for the prophylaxis and treatment of HSV
infections for many years, ACV selectively inhibits HSV DNA
replication with low host-cell toxicity. Following uptake of ACV by
virus-infected cells, phosphorylation of the drug to
ACV-monophosphate (ACV-MP) occurs via HSV-encoded TK. Subsequent
conversion to ACV-triphosphate (ACV-TP) is catalyzed by host cell
enzymes. ACV-TP preferentially inhibits viral DNA polymerase over
cellular DNA polymerases. Of all the human herpesviruses (HHV),
HSV-2 and HSV-1 are the most susceptible to ACV, followed (in order
of decreasing susceptibility) by VZV, Epstein-Barr virus (EBV),
HHV-6, and human cytomegalovirus (CMV). ACV does not exhibit in
vitro activity against viruses outside the herpesvirus
family.[18-21]
Copyright © 2006 Pearson Education, Inc., publishing as Benjamin
Cummings
Mechanism of Action of Acyclovir
Fig 20.16
*
HIV protease cleaves viral polypeptide into functional
proteins
Protease inhibition HIV cannot mature and noninfectious viruses are
produced.
Antiviral Drugs for Treating HIV/AIDS:
HAART
NRTIs: nucleoside analog reverse transcriptase inhibitor
The HIV protease enzyme cleaves polyproteins of the virus into
essential functional protein products during the maturation process
of the virion (Figure 1, green and red bars). This critical process
occurs as each new virion buds forth from the membrane of an
HIV-infected cell and continues after the immature virus is
released from the cell. If the polyproteins are not cleaved, the
virus fails to mature and is incapable of infecting a new
cell.
Copyright © 2006 Pearson Education, Inc., publishing as Benjamin
Cummings
Antiprotozoan and Antihelminthic Drugs
Examples of Antihelminthic:
Antibiotic Assays to Guide Chemotherapy
Agar Disk Diffusion Method determines susceptibility of an organism
to a series of antibiotics: Kirby-Bauer test
More sophisticated methods available for clinical labs
*
Drug Resistance
Penicillin G resistance of S. aureus from 3% to > 90%
Multidrug-resistant S. aureus = MRSA or “super-bug”
Vancomycin-resistance
Evolution of drug resistance:
*
Antibiotic Resistance
Mechanisms of antibiotic resistance
Enzymatic destruction of drug
Prevention of penetration of drug
Alteration of drug's target site
Rapid ejection of the drug
Resistance genes are often on plasmids or transposons that can be
transferred between bacteria.
Copyright © 2006 Pearson Education, Inc., publishing as Benjamin
Cummings
Resistance to Antibiotics
Antibiotic Resistance
Using outdated or weakened antibiotics
Using antibiotics for the common cold and other inappropriate
conditions
Using antibiotics in animal feed
Failing complete the prescribed regimen
Using someone else's leftover prescription
ANIMATION Antibiotic Resistance: Origins of Resistance and Forms of
Resistance
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