Basic Pharmacology Mod 5: Glycopeptides & Cell Wall Inhibitors PDF

Summary

This document details the classification of cell wall synthesis inhibitors, specifically discussing glycopeptides. It explains the mechanism of action of these inhibitors and their importance in combating bacteria. The document presents insights into why some of these inhibitors are effective against certain types of bacteria.

Full Transcript

BASIC PHARMACOLOGY 09/04/2024.

MOD 5: GLYCOPEPTIDES AND OTHER
CELL WALL SYNTHESIS INHIBITORS
Deo L. Panganiban, M.D., FPSECP Trans Group/s: 6A, 7A

I. CLASSIFICATION D-alanine residue from one of the peptidoglycan
precursors.
Glycosyltransferases create covalent bonds between
CLASSIFICATION OF CELL WALL SYNTHESIS adjacent sugar molecules (e.g., NAM, NAG).
INHIBITORS The net result of covalent bonds between the peptides
and sugar chains creates a rigid cell wall that protects
Vancomycin the bacterial cell from osmotic forces that will result in
Glycopeptides
Teicoplanin cell rupture.
Beta-lactam antibiotics bear a structural resemblance to
Telavancin the natural D-ala-D-ala substrate for the transpeptidases
Lipoglycopeptides Dalbavancin and exert their inhibitory effects on cell wall synthesis by
Oritavancin tightly binding to the active binding site of PBP.
Glycosides inhibit the late stages of cell wall
Lipopeptides Daptomycin peptidoglycan synthesis by binding to the D-ala-D-ala
peptide terminus of the pentapeptide ending precursors,
Cyclic Lipopeptide Bacitracin localized at the altered surfaces of the cytoplasmic
membranes.
Anti-TB Drug Cycloserine Lipoglycosides show stronger inhibition of
transglycosylases and membrane destabilization effects,
causing rapid bacterial cell death due to their
membrane-anchoring properties and dimerization of
molecules.

1. WHY ARE GLYCOPEPTIDES NOT EFFECTIVE
AGAINST GRAM NEGATIVE BACTERIA?

Gram negative bacteria contain an outer membrane
unique to that kind of bacteria that typically contains
porins that facilitate the diffusion of small hydrophilic
molecules.
Penicillin and cephalosporins can also diffuse to reach
their sites of action.
However, glycopeptides have a molecular mass that is
too large to allow them to permeate through the
boardings to reach the peptidoglycan cell wall →
ineffective against gram negative bacteria.
Classification and Timeline of Cell Wall Synthesis Inhibitors.
A. VANCOMYCIN
II. GLYCOPEPTIDES

Forms of Vancomycin: Injectable (L) and Oral (R).

1. MECHANISM OF ACTION AND BASIS OF
RESISTANCE

Vancomycin binds avidly to the D-ala-D-ala peptide
terminus of the growing peptide chains and prevents
transpeptidase interaction with the substrate.
In the absence of a drug, transpeptidases or PBPs in the Inhibits cell wall synthesis by interfering with the second
cell wall catalyze cross-links between adjacent glycan stage of peptidoglycan synthesis
chains which involves the removal of a terminal Inhibits cell wall synthesis by binding firmly to the
D-alanyl-alanine (D-ala-D-ala) terminus of nascent
peptidoglycan pentapeptide.

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 ○ This inhibits the transglycosidase, preventing NO significant activity against gram-negative (-)
further elongation of peptidoglycan and bacteria
cross-linking.
○ The peptidoglycan is thus weakened → the cell 5. MECHANISMS OF RESISTANCE
becomes susceptible to lysis.
○ Cell membrane is also damaged → contributing to The permeability barrier provided by the outer
the antibacterial effect. membrane of bacteria
Altered target site in gram-negative (-) bacteria
2. MODE OF ACTION: BACTERICIDAL No cross-resistance with other antibiotics
○ Resistance to Vancomycin in Enterococci is due
to modification of the D-ala-D-ala binding site of
the peptidoglycan building block in which the
terminal D-ala is replaced by D-lactate
i. This results in the loss of a clinical
hydrogen bond that facilitates high affinity
binding of Vancomycin to the target and leads
to a loss of activity
ii. This mechanism is also present in
Vancomycin-resistant Staphylococcus
aureus strains, which have acquired the
enterococcal system determinants
○ The underlying mechanism for reduced
Vancomycin susceptibility in Vancomycin
Schematic diagram of the mechanism of action of intermediate strains, with MICs of 4-8 mcg/mL of
Vancomycin and Glycopeptides in general. Staphylococcus aureus, is not known
i. However, these strains have altered cell wall
3. PHARMACOKINETICS (ADME)
metabolism that results in a thickened cell
Poorly absorbed in GIT wall with increased numbers of D-Ala-D-Ala
Administered orally – only for the tx of residues, which then serve as dead-end
antibiotic-associated enterocolitis caused by binding sites for Vancomycin
Clostridium difficile
○ Vancomycin is sequestered within the cell wall by
Parenteral doses must be administered IV.
○ 1 hour IV infusion of 1g produces blood levels of these false targets and is thus prevented from
15-30 mcg/L for 1-2 hours reaching its sites of action
○ The drug is widely distributed throughout the body
55% bound to plasma proteins 6. CLINICAL USES
Diffuses widely EXCEPT in non-inflamed meninges
○ CSF levels occur in 7-30% of simultaneous serum Alternative drug in:
concentrations, which is achieved if there is a. Staphylococcal endocarditis
inflammation of the meninges. b. Methicillin-resistant infections
Excreted unchanged through the kidneys c. Enterococcal infections
○ 90% of the drug is excreted in the kidneys via d. Diphtheroid infections
glomerular filtration. e. Clostridium difficile colitis
○ In the presence of renal insufficiency, striking
Synergistic effect with an Aminoglycoside in hard-to
accumulation may occur.
○ In functionally anephric patients, the half-life of treat infections
vancomycin is 6-10 days.
○ A significant amount (~50%) of vancomycin is 7. ADVERSE REACTIONS
removed during a standard hemodialysis-run when
a modern high flux membrane is used. Adverse reactions are encountered in about 10% of
cases
4. SPECTRUM OF ACTIVITY Most reactions are minor
Vancomycin is irritating to tissue, resulting in phlebitis
Virtually ALL gram-positive (+) organisms
at the site of injection
○ Vancomycin is bactericidal for gram-positive (+)
bacteria in 0.5-10 mcg/mL concentrations Chills and fever may occur
○ Most pathogenic staphylococci, including those Ototoxicity is rare, and nephrotoxicity is uncommon with
producing lactamases and those resistant to current preparations
nafcillin and methicillin, are killed by 2 mcg/mL or ○ However, administering Vancomycin with
less another ototoxic or nephrotoxic drug, such as an
○ Vancomycin kills staphylococci relatively slowly aminoglycoside, increases the risk of these
and only if cells are actively dividing
toxicities
i. The rate is less than that of the penicillin’s,
both in vitro and in vivo ○ Ototoxicity can be minimized by maintaining peak
○ Vancomycin is synergistic in vitro with serum concentrations below 60 mcg/mL
gentamicin and streptomycin against ○ Increased risk in patients greater than 53 years
Enterococcus faecium and Enterococcus faecalis old with preexisting hearing problems or
that do not exhibit high levels of aminoglycoside underlying renal impairment.
resistance

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 III. LIPOGLYCOPEPTIDES
ADVERSE REACTIONS

“Red man” syndrome after rapid IV (4 to 10 mins) SPECTRUM OF ANTIBACTERIAL ACTIVITY
infusion Gram-positive bacteria (+), including:
○ MRSA (Methicillin-resistant S. aureus)
Ototoxicity most important & irreversible ○ VISA (Vancomycin-intermediate S. aureus)
○ VRSA (Vancomycin-resistant S. aureus)
Nephrotoxicity in impure preparations ○ Daptomycin (non-susceptible S. aureus)
○ VRE (Vancomycin-resistant Enterococci)
7.1 “Red Man” Syndrome — after rapid IV infusion
A. TELAVANCIN
Among the more common reactions is the so called red
man or red neck syndrome
This infusion-related flushing is caused by the release
of histamine from mast cells.
More likely to happen if the patient is taking other drugs
that enhances mast cells degranulation (e.g., opioids)
Can be largely prevented by prolonging the infusion
period to 1-2 hours or via premedication with H1
antihistamines
Telavancin.

Semi-synthetic lipoglycopeptide derived from
Vancomycin
Active against gram-positive (+) bacteria
Has in vitro activity against many strains, with reduced
susceptibility to Vancomycin

“Red Man” Syndrome.

B. TEICOPLANIN

Telavancin: Mechanism of Action.
Teicoplanin as an Injectable Drug.

A glycopeptide antibiotic that is very similar to 1. MECHANISM OF ACTION
Vancomycin
Can be given IM as well as IV. Has 2 mechanisms of action
Has a long half-life (45-70 hours), permitting its ○ Like Vancomycin, it inhibits cell wall synthesis by
once-daily dosing binding the D-Ala-D-Ala terminus of
Poorly absorbed when administered orally peptidoglycan in the growing cell wall
Around 90% bioavailable when administered ○ It also has a second mechanism of action, which is
intramuscularly the disruption of cell membrane barrier function,
thereby increasing membrane permeability
It has a more specific action at the division
septum–the site of cell wall synthesis due to its avid
binding to lipids

2. PHARMACOKINETICS (ADME)

Half-life: Approximately 8 hours
○ Supports a once-daily IV in soft tissue infections
and hospital-acquired pneumonia at a dose of
120 mg/kg IV daily
Unlike vancomycin, monitoring of serum Telavancin
levels is NOT required

3. CONTRAINDICATIONS

Teicoplanin. Potentially teratogenic → administration to pregnant
women must be avoided
○ Pregnancy Category C: Telavancin has a boxed
warning which is a potential risk of fetal

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 development toxicity in pregnant female exposed to 1. MECHANISM OF ACTION
the drug
○ Women should avoid the use of telavancin during 4 SEPARATE MECHANISMS THAT ORITAVANCIN
pregnancy unless the potential benefit to the patient UTILIZES AGAINST SUSCEPTIBLE GRAM-POSITIVE
outweighs the potential risk for the fetus (+) ORGANISMS

B. DALBAVANCIN 1 It binds to the stem peptide of peptidoglycan
precursors, inhibiting transglycosylation or
polymerization
This process normally occurs during cell wall
synthesis.

2 It inhibits crosslinking during bacterial cell wall
biosynthesis via binding to cell wall pentaglycine
peptide bridging segments
Dalbavancin.
3 It disrupts the bacterial cell membrane
permeability, interfering with its integrity, which
A semi-synthetic lipoglycopeptide derived from
eventually leads to cell death by various
Teicoplanin
mechanisms

4 Inhibits RNA synthesis

Has in vitro activity against VRE
Oritavancin interferes with bacterial wall synthesis and
integrity, treating susceptible skin and subcutaneous
tissue infections with gram-positive bacteria
This drug is known to artificially increase the INR
(internal normalized ratio) and aPTT (activated partial
thromboplastin time), interfering with the coagulation
testing
Cases of infusion reactions have also been reported

2. DOSAGE FORMS
Dalbavancin.
Oritavancin injection comes as a powder, that is to be
1. MECHANISM OF ACTION mixed with liquid, and given through a needle or catheter
placed in your vein
Also has a lipophilic side chain but does not appear to It is usually injected slowly, over 3 hours, as a
destabilize bacterial membranes. one-time dose by a healthcare provider
Dalbavancin shares the same mechanism of action as
vancomycin and teicoplanin 3. ADVERSE REACTIONS
○ But it has improved activity against many
gram-positive bacteria, including Symptoms include:
methicillin-resistant S. aureus (MRSA) and ○ Sudden reddening of the face, the neck, upper
vancomycin-intermediate S. aureus (VISA) chest, or other body part
It is NOT active against most strains of ○ Itching, rashes, and hives
vancomycin-resistant Enterococci (VRE) You may slow or stop the infusion until your
symptoms improve.
2. PHARMACOKINETICS (ADME)
IV. LIPOPEPTIDES
Dalbavancin has an extremely long half-life of 6-11 days
○ Allows for once-weekly IV over 30 minutes A. DAPTOMYCIN
administration Daptomycin is a prototype of the lipopeptides
It has been studied to treat skin and soft tissue subgroup
infections and catheter-associated bloodstream
infections 1. MECHANISM OF ACTION
Off-label treatment for osteomyelitis
The precise mechanism of action of Daptomycin is NOT
C. ORITAVANCIN fully understood BUT it is known to bind to the cell
membrane via calcium-dependent insertion of its
lipid tail
○ This results in depolarization of the cell membrane
with potassium efflux and rapid cell death

Oritavancin.

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2. MODE OF ACTION: BACTERICIDAL ii. Every other day in patients with creatinine
clearance of less than 30 mL/min
In clinical trials, powered for non-inferiority, Daptomycin
was equivalent in efficacy to Vancomycin
○ It can cause myopathy and creatine
phosphokinase levels should be monitored

6. CONTRAINDICATIONS

Pulmonary surfactant antagonizes Daptomycin →
therefore, it should NOT be used to treat pneumonia
○ Treatment failures have been reported in
association with an increase in Daptomycin MIC for
Daptomycin: Mechanism of Action. clinical isolates obtained during treatment
○ The relation between an increase in MIC and
treatment failure is unclear at this point
STEPS
7. CLINICAL USES
1 Daptomycin first binds to the cytoplasmic
membrane Daptomycin is an effective alternative to Vancomycin
and its ultimate role continues to unfold
2 Then, it forms complexes in a calcium-dependent
manner V. PHOSPHONIC ANTIBIOTICS
Complex formation (Steps 2 and 3) causes a
rapid loss of cellular potassium, possibly by
A. FOSFOMYCIN
pore formation and membrane depolarization
Fosfomycin trometamol is a stable salt of
phosphomycin or phosphonomycin
3 This is followed by arrest of DNA, RNA, and protein Inhibits a very early stage of bacterial cell wall
synthesis, resulting in cell death synthesis
Cell lysis does NOT occur.
1. MECHANISM OF ACTION
3. SPECTRUM OF ACTIVITY

Daptomycin is a novel cyclic lipopeptide fermentation
product of Streptomyces roseosporus
It was discovered decades ago but has only recently
been developed as the need for drugs that are active
against resistant organisms has become more acute
Its spectrum of activity is similar to that of Vancomycin
○ EXCEPT that it is more rapidly bactericidal in vitro
and is active against vancomycin-resistant
strains of Enterococci and Staphylococcus
aureus (VRE and VRSA)

Fosfomycin: Mechanism of Action.

Phosphomycin is an analog of PEP
○ It is structurally unrelated to any other antimicrobial
agent
It inhibits the cytoplasmic enzyme enolpyruvate
transferase by covalently binding to the cysteine
residue of the active site and blocking the addition of
Daptomycin: Spectrum of Activity. phosphoenolpyruvate to UDP N-acetylglucosamine
○ This reaction is the first step in the formation of
4. PHARMACOKINETICS (ADME) UDP N-acetylneuramic acid (the precursor of
N-acetylneuramic acid) which is found only in
Daptomycin is cleared through the kidneys bacterial cell walls
○ The drug is transported into the bacterial cell by
5. DOSAGE FORMS glycerophosphate or glucose 6-phosphate
transport systems
Recommended doses: Resistance to the drug is due to inadequate
○ 4mg/kg/dose for the treatment of skin and soft transport of drugs into the cell
tissue infections, and
○ 6mg/kg/dose for treatment of bacteremia and 2. SPECTRUM OF ACTIVITY
endocarditis
i. Once daily in patients with normal renal Fosfomycin is active against both gram-positive (+)
function; and and gram-negative (-) organisms at concentrations of
125 mcg/mL

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 Susceptibility test should be performed in a growth A. CYCLOSERINE
medium supplemented with Glucose-6-phosphate to
minimize false positive indications of resistance
In vitro synergism occurs when Fosfomycin is
combined with Beta-lactam antibiotics,
Aminoglycosides, or Fluoroquinolones

3. PHARMACOKINETICS (ADME)

Fosfomycin trometamol is available in both oral and
parenteral formulations
○ Oral bioavailability is approximately 40%
○ Peak serum concentrations are 10 mcg/mL and 30
mcg/mL, following a 2-gram or 4-gram oral dose
respectively
The half-life is approximately 4 hours.
The active drug is excreted by the kidneys with urinary
concentrations exceeding MICs for most urinary tract
pathogens Cycloserine and its various dosage forms.

4. DOSAGE FORMS 1. MECHANISM OF ACTION

Fosfomycin is approved for use as a single 3-gram
dose for treatment of uncomplicated lower urinary
tract infections in women
The drug appears to be safe for use in pregnancy

VI. CYCLIC POLYPEPTIDES

A. BACITRACIN

1. MECHANISM OF ACTION

Cycloserine: Mechanism of Action.

An antibiotic produced by Streptomyces orchidaceous
Bacitracin: Mechanism of Action. It is water-soluble and very unstable at an acid pH
It inhibits many gram-positive (+) and gram-negative
A cyclic peptide mixture first obtained from the Tracy (-) organisms
strain of Bacillus subtilis in 1943 Used almost exclusively to treat tuberculosis caused
It is active against gram-positive (+) microorganisms by strains of Mycobacterium tuberculosis resistant to the
It inhibits cell wall formation by interfering with first-line agents
dephosphorylation in cycling of the lipid carrier that A structural analog of D-alanine
transfers peptidoglycan subunits to the growing cell ○ Inhibits the incorporation of D-alanine into
wall peptidoglycan pentapeptide by inhibiting Alanine
racemase, which converts L-alanine into D-alanine
2. SPECTRUM OF BACTERIAL ACTIVITY and D-alanyl-D-alanine ligase

Bacitracin is highly nephrotoxic when administered 2. SPECTRUM OF ACTIVITY
systemically and therefore is only used as a topical
drug ACTIVE against Gram-negative (-) and Mycobacteria
It is poorly absorbed After ingestion of 0.25g of Cycloserine, blood levels
○ Topical application results in local antibacterial reach 20-30 mcg/mL which is sufficient to inhibit many
activity without systemic toxicity strains of gram-negative (-) bacteria and mycobacteria

3. CLINICAL USES 3. PHARMACOKINETICS (ADME)

500 units/g in an ointment base often combined with The drug is widely distributed in tissues, and most of the
Polymyxin or Neomycin is indicated for the suppression drug is excreted in active form into the urine
of mixed bacterial flora in surface lesions of the The dosage for treating tuberculosis is 0.5-1g per day
skin, in wounds or on mucous membranes in 2 or 3 divided doses.
Solutions of Bacitracin containing 100 to 200 units/mL
in saline can be used for irrigation of joints, wounds, or 4. ADVERSE REACTIONS
the pleural cavity
Cycloserine causes serious dose-related CNS toxicity:
headaches, tremors, acute psychosis, seizures (or
VII. OTHER ANTI-TUBERCULAR DRUGS convulsions)

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 ○ NOTE: If oral dosages are maintained BELOW 0.75
g/day, such effects can usually be avoided Benzodiazepines/other CNS
depressants → exacerbate CNS
effect → profound drowsiness,
VIII. SUMMARY
respiratory depression
Antidepressants → psychiatric
NOTABLE DRUG-DRUG INTERACTIONS effects

DRUG INTERACTION
NOTABLE ADVERSE EFFECTS
Increased ototoxicity and
Vancomycin nephrotoxicity with concomitant DRUG EFFECT
administration of aminoglycosides
Red man syndrome — flushing,
Synergy or partial synergy with erythema, pruritus, hypotension
Vancomycin
beta-lactams versus Ototoxicity
Teicoplanin oxacillin-resistant Staphylococcus Nephrotoxicity
and vancomycin-resistant
Enterococci Fever
Pain
Teicoplanin
Cisplatin–Telavancin: decreased Skin reactions
excretion rate May cause Red man syndrome
Telavancin Telavancin–Amiodarone &
Amitriptyline: prolonged QTc Risk of nausea
interval Taste disturbances
Telavancin
Insomnia
Insignificant CYP450 metabolism → QTc prolongation
minimal drug interactions with other
Dalbavancin CYP450 metabolized drugs Nausea
NSAIDs and diuretics may reduce Diarrhea
Dalbavancin
renal function. Constipation
Injection site reactions
May affect CYP450 enzymes as an
inducer (e.g., lower effectiveness of Fever
Oritavancin
Oritavancin CYP206 metabolized drugs) or Diarrhea
inhibitor (e.g., increased effects of
anticoagulants)

May interact with Statin (muscle
toxicity), Warfarin (increased risk of
bleeding), Aminoglycosides and
NSAIDs (increased risk of
Daptomycin nephrotoxicity)
Clearance may be inhibited by
Probenecid
With tobramycin (increased risk of
renal toxicity)

Synergism with aminoglycosides
and beta-lactams
Fosfomycin Antagonism with calcium
supplements and antacids
Addictive toxicity with Vancomycin

Nephrotoxicity when given
systemically → enhanced by
aminoglycosides
Prolonged muscle paralysis when
Bacitracin
given with neuromuscular blocker
drugs
Ototoxicity when given with loop
diuretics

Alcohol → CNS effects →
dizziness, confusion, seizures
Isoniazid → enhanced neurotoxic
effects → peripheral neuropathy
Cycloserine
Ethionamide → increased risk of
CNS toxicity → depression, seizures
Phenytoin → increased serum
levels

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