PM716 C45 Aminoglycosides Slides PDF

Summary

These slides cover aminoglycosides, a class of antibiotics. They discuss their different characteristics, such as structure, mechanism of action, pharmacokinetics, antimicrobial activity, clinical uses, adverse effects, and mechanisms of resistance.

Full Transcript

PM 716 Pharmacology I

Chapter 45 Protein Synthesis
Inhibitors
RMRocco PhD

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 Antibiotics (PSI Part II)
lincosamides
clindamycin
aminoglycosides
streptogramins
streptogramin A + B
oxazolidinones
linezolid
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 Lincosamides

1. Structure/Source: Clindamycin only one.
Streptomyces lincolnensis.
2. Mechanism of Action: Bind to 50S subunit,
identical to erythromycin and other macrolides.
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 Lincosamides
3. Pharmacokinetics: po or iv. Fairly high Vd
with penetration into most tissues. No
dosage adjustment for renal failure required.

4. Antimicrobial Activity: Gram pos and
neg. Streptococci, staphylococci,
pneumococci.
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 Spectrum of Activity
Clindamycin (Cleocin®)
Most Gram Pos organisms (Staph and
Strep)
Most anaerobes (Bacteroides but up to ~
20% are resistant).

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 Lincosamides
5. Clinical Uses: Severe anaerobic infection
caused by bacteroides and other anaerobes.

6. Adverse Effects and ADRs: Skin rashes,
impaired liver function, antibiotic-
associated colitis due to C. difficile, often
fatal. Treat with metronidazole.

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 Clindamycin
Most often reported ADR is diarrhea in up to 20% of
patients on this drug.
Diarrhea resolves after drug is stopped.
DOSE: 600 - 900 mg q8h iv or im or
150 - 300 mg three times a day po.
No dosage adjustment required for reduced CC
because drug is hepatic cleared. Hepatic failure
requires dosage adjustment.

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 Lincosamides
7. Mechanism of Resistance: confers cross
resistance to macrolides.
1. Mutation in ribosomal receptor binding
site.
2. Enzymatic inactivation of drug
3. Mutation alteration of receptor by
induced methylase.

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 Clindamycin
Clinical uses in lower extremity infections:
Staph infection in patients allergic to
penicillin drugs
Oral therapy for mild diabetic ulcerations.
Combined with Gram Neg antibiotic in
severe diabetic ulcerations.
Osteomyelitis due to staph because of good
penetration into bone.
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 Aminoglycosides
Micromonospora Streptomyces
gentamicin streptomycin netilmicin
neomycin
tobramycin

amikacin

gentamicin

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 Aminoglycosides

streptomycin

1. Structure/Source
Various species of Streptomyces
Water soluble hexose rings with amino sugars attached
through glycosidic linkages.

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 Aminoglycosides
2. Mechanism of Action
Irreversible inhibition of protein synthesis
Bactericidal effects.
Drugs enter cell through porins in outer bacterial
membrane.
Drugs concentrate inside through oxygen
dependent proton pump and bind to ribosomes
(streptomycin binds to 30S-subunit)

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2. Mechanism of Action
1. Block peptide formation
at initiation step.
2. Cause misreading of
mRNA, wrong amino
acid inserted, non-
functional protein.
3. Cause breakup of
polysomes into non-
functional monosomes.

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 3. Pharmacokinetics
Most given im or iv only (except neomycin and
kanamycin, po and mostly topical)
Once daily dosing iv is usual
Toxicity correlates with Cp levels, > 2 ug/mL
trough level (just before next iv dose) is considered
toxic.
Dosage adjustments must be made for impaired
renal function (CC) to avoid toxicity.

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 4. Antimicrobial Activity
Mostly used against gram neg enteric
bacteria
Broad spectrum (but many anaerobes are
resistant, see Mechanisms of Resistance)

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 5. Clinical Uses
Used for most gram neg enterics
Useful in sepsis
Used almost always in combination with a beta
lactam to obtain coverage of the gram pos.
Drugs are synergistic with beta lactams. Penicillins
cause cell wall abnormalities which help promote
entry of aminoglycosides into the bacterium.

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 6. Adverse Effects and ADRs
Ototoxicity, nephrotoxicity and neuromuscular toxicity.
Small margin of safety (tobramycin trough 2-4 ug/mL,
toxic > 4 ug/mL)
Ototoxicity: auditory damage (tinnitus, high frequency
hearing loss) vestibular damage (vertigo, ataxia, loss of
balance)
Nephrotoxicity: rise in CC, rise serum Creatinine, rise in
trough level.
Curare-like effect at neuromuscular junction, respiratory
paralysis. Reverse with neostigmine.

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 7. Mechanisms of Resistance
1. Organism produces a transferase enzyme that
inactivates the drug through adenylylation,
acetylation, or phosphorylation.
2. Mutation deletion of a porin or phenotypic
induced by oxygen-dependent transport process
becomes non functional.
3. Mutation deletion or alteration of 30S protein
receptor on ribosome.

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 Streptomycin
1. Structure/Source:Streptomyces griseus
2. Mechanism of Action: Bind to 30S
protein on ribosomes
3. Pharmacokinetics: im or iv
4. Antimicrobial Activity: Second line of
treatment for TB

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 Streptomycin
5. Clinical Uses: Mostly for TB as an adjunct
drug.
6. Adverse Effects and ADRs:
Hypersensitivity reactions (rash, fever)
patients and those who handle the drug.
Vestibular toxicity(vertigo, loss of balance)
Toxicity correlates with Cp and CC.

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 Streptomycin
7. Mechanisms of Resistance:
Mostly by mutation in 30S ribosomal
protein.
Frequency so high that drug useless alone
for TB and not used for much else.
Some enterococcoal infections resistant to
other aminoglycosides (~15 % isolates)
streptomycin is useful.
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 Other Aminoglycosides
Gentamicin, amikacin, tobramycin,
neomycin

Similar in points # 1- 7 as for streptomycin.

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 Neomycin
1. Structure/Source: from streptomyces.
2. Mechanism of Actions: similar to others
3. Pharmacokinetics: both too toxic for iv
use. Used po and topical, but po
absorption very poor.
4. Antimicrobial Activity: gram pos and
gram neg and some mycobacteria.
Pseudomonas and streptococci resistant.
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 Neomycin
5. Clinical Uses: injected into infected joints,
pleural cavity, infected surfaces, abscess
cavities. Used po to reduce normal flora
prior to bowel surgery.
6. Adverse Effects and ADR: renal and
ototoxicity as others.

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 Neomycin

Topical Neosporin®

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 Streptogramins

1. Structure/Source: Combination of streptogramin
A (dalfopristin) and streptogramin B
(quinupristin). Produced by various Streptomyces
species. FDA approved 1999 (Synercid®)
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 Streptogramins
2. Mechanism of Action: Inhibit peptide
bond formation in 50S ribosome.

3. Pharmacokinetics: iv only, less than 20%
excretion through kidney, renal failure
adjustment not required. Dose reduction
required for liver failure patients.

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 Streptogramins
4. Antimicrobial Activity: Gram pos cocci
including multi-drug resistant strains of
streptococci, penicillin resistant strains of
staph.

5. Clinical Uses: Approved for use in
vancomycin-resistant strains of some gram
neg.

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 Streptogramins
6. Adverse Effects and ADRs: Drug
significantly inhibits CY 3A4 which
requires dosage reductions of the drugs
whose metabolism is effected (from
warfarin to cyclosporin).

7. Mechanism of Resistance: mostly
modification of binding site on ribosome.

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 Oxazolidinones

1. Structure/Source: synthetic, linezolid (Zyvox®).
A new class of antibiotic which is a protein
synthesis inhibitor.

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 Linezolid
2. Mechanism of Action: Binds to 23S on the
50S ribosomal RNA unit, this blocks
binding of the ribosome to the mRNA.

3. Pharmacokinetics: po or iv. Does not
induce or inhibit CYP 450.

4. Antimicrobial Activity: many gram pos
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 Linezolid
5. Clinical Uses: vancomycin-resistant infections,
nosocomial pneumonia, community acquitred
pneumonia, skin infections. Reserved for treatment
of multiple drug-resistant gram-positive bacteria.

6. Adverse Effects and ADRs: Thrombocytopenia
in 3% of patients, neutropenia.

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 Case Study
45-year old male, 3rd degree burns, 40% of her
body, febrile (39.5o C), WBC 20 000/uL all 10
days post admission.
Blood cultures pending.
Treat empirically for Pseudomonas.
Tobramycin, CC is 90 mL/min, 70 kg body weight.
What dosing regimen, how to monitor for toxicity.

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 Case Study
Normal renal function, use standard once
daily dosing (iv).
Trough serum level of 1.5 - 6 mcg/mL
indicates good clearance.
Or use use same doses divided every 8
hours.
Target peak 5-10 mcg/mL
Target trough < 2 mcg/mL
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