Lecture 4 Cephalosporines -Non-classical PDF

Summary

This document provides lecture notes on cephalosporins, covering various aspects of these antibiotics, suitable for an undergraduate pharmaceutical chemistry course at New Mansoura University.

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New Mansoura University
Faculty of Pharmacy
Pharm D Program
___________________________________________________________________________

Department of Pharmaceutical Medicinal Chemistry
Program: : Pharm D Program
Course Title : Medicinal Chemistry-I
Course Code: PMC-306
 Chemotherapy
(Antibacterial agents)
 The second major group of β-lactam antibiotics.
 The first cephalosporin (cephalosporin C) was derived from a fungus obtained in
the mid 1940s.
 In cephalosporin the bicyclic system containing four-membered β-lactam ring
fused to a six-membered dihydrothiazine ring*.
 The cephalosporins act in a manner similar to that of the penicillins
 Remember!

Penicillin
  There is a limited number of places where modifications can be made, but there are
more possibilities than with penicillins.

 To date, the more useful semisynthetic modifications of the basic 7-ACA nucleus have
resulted from:-
 Acylation of the 7-amino group with different acids (Variations of the 7-acylamino
side chain).
 Nucleophilic substitution or reduction of the acetoxy group.
 Extra substitution at carbon 7.
 The first generation cephalosporins
 They are primarily active against Gram (+) bacteria.
 They are not significantly active against Gram(-) bacteria (only some Gram-negative
bacilli.
 Lack activity against Pseudomonas aeruginosa.
 They are not effective against methicillin-resistant Staph. aureus.
 The second generation cephalosporins
 They generally retain the anti Gram (+) activity and add better antiGram (-) activity.
 The third generation cephalosporins
 They are less active against staphylococci than the first generation agents but are
much more active against Gram (-) bacteria than either the first or the second
generation drugs.
 The fourth generation cephalosporins
 They have an antibacterial spectrum like the third-generation drugs but add
Pseudomonas aeruginosa and some enterobacteria that are resistant to the third-
generation cephalosporins.
 They are also more active against some Gram (+) organisms.
 Cephalothin (Cefalotin) has relatively short duration of action due to rapid hydrolysis
of acetyloxy group at C-3 by esterase enzyme to less active alcohol which undergoes
lactonization to inactive lactone.
 The acetyloxy group is important to the mechanism of inhibition and acts as a good
leaving group.
 Replacing the acetoxy group (ester) with a metabolically stable pyridinium group gives
cephaloridine.
 The pyridine can still act as a good leaving group for the inhibition mechanism, but
is not cleaved by esterases.
 Cephaloridine exists as a zwitterion and is poorly absorbed through the gut wall and
has to be injected.
 -Radine
-ALEX
-Droxil

 They have a 3-CH3 group which help oral absorption but it is bad for activity as it is not
a good leaving group.

 The electron-withdrawing character of the protonated –NH2 group improves the
stability of the β-lactam of the cephalosporin, leading to orally active drugs.
 Properties:
 Excellent oral activity, why?
 Broad spectrum activity (G +ve) & some Gram-negative bacilli.
 Poor -lactamase stability.
 Poor ability to penetrate cerebrospinal fluids.
 Lack activity against Pseudomonas aeruginosa.
 Cephradine is the dihydro-analog of cephalexin and undergoes aromatization in the
body producing cephalexin.
Oral Parenteral
 The 3-substitution pattern in addition to the electron-withdrawing character of the
protonated –NH2 improves the stability of the β-lactam ring → orally active drugs.
 Cefaclor is less active against Gram-negative bacteria than the other second-
generation cephalosporins.
 Parenteral and -lactamase Stable agents

 Cefuroxime

 It has A syn (Z) methoxyimino substituent is associated with β-lactamases stability result
from its steric effect.
 Z-oxime was as much as 20,000-fold more stable than the E-oxime
 Very safe and has a wide spectrum of activity.
 It is useful against organisms resistant to penicillin.
 Poor activity against Pseudomomnas aeruginosa due to lack of penetration of the drug.
Oral Parenteral
 Replacing the furan ring of the Cefuroxime with an aminothiazole ring:-
 Enhances the penetration through the outer membrane of Gram-negative bacteria
 Increase affinity for the transpeptidase enzyme (PBPs).

 As a result, third (and fourth) generation cephalosporins containing this ring have a
marked increase in activity against Gram-negative bacteria*.
 A variety of such structures have been prepared with different substituents at position 3
to vary the pharmacokinetic properties.
 Cefotaxime has a metabolically vulnerable acetoxy group attached to C-3 and loses
about 90% of its activity when this is hydrolyzed.

 It has greater anti–Pseudomonas aeruginosa activity.
 It has metabolically stable, activating and highly acidic 3-thio-2-methyl-1,2-dihydro-
1,2,4-triazine-5,6-dione at C-3 that at normal pH, it forms an enolic sodium salt, and
thus the commercial product is a disodium salt.
 It is 95% serum bound and exhibits an extended serum profile making it suitable for
once daily administration.
 Greater anti–Pseudomonas aeruginosa activity.
 It is the first-line drug for meningitis as it has the best CSF penetration and covers the
bacteria causing meningitis.
Parenteral
 It contains Z-methoxyimine moiety at C-7 in addition to quaternary ammonium group
at C-3*.
 These features lead to:
 Enhancing water solubility and ability to penetrate the outer membrane of Gram
negative bacteria (have broader anti–Gram-negative activity than the third-
generation).
 Active vs. Gram +ve cocci (increasing antistaphylococcal activity).
 Good affinity for the transpeptidase enzyme.
 Greater β-lactamase stability (i.e. low affinity for β-lactamase).
 They have excellant anti–Pseudomonas aeruginosa activity.
 They contain “Ceft” + “ol” in their name
 They contain 5-amino-1,2,4-thiadiazole moiety in the acyl side chain

 Ceftaroline fosamil
 It has activity against various strains of methicillin-resistant Staphylococcus aureus
(MRSA) and multi-resistant Streptococcus pneumonia (MDRSP).
 It acts as a prodrug for ceftaroline
 The 1,3-thiazole ring at 3 position is thought to be important for its activity
against MRSA.
Fourth generation Fifth generation
Choose the correct answer:
Which of the following cephalosporins belongs
to the second generation?
a. Cefaclor

b.Cefalexin

c. Cefadroxil

d. Cefradine
Choose the correct answer:
Which of the following cephalosporins is an
oximinocephalosporin derivative?
a. Cefuroxime

b.Cefotaxime

c. Ceftriaxone

d. All of the followings
II– Non-classical β-lactams
1- Carbapenems
 It is potent, with an extraordinarily broad range of activity against Gram-positive and
Gram negative bacteria, including P. aeruginosa.
 It shows a high resistance to β-lactamases.
 It combines in one molecule the functional features of the best of the β-lactam
antibiotics as well as the β-lactamase inhibitors*.
 It shows poor metabolic and chemical stability, and is not absorbed from gut.
 It is subjected to hydrolytic inactivation by renal dehydropeptidase-I (DHP-I)
→unacceptably short t1/2 in vivo and higher incidence of nephrotoxicity.
 penem

 Imipenem is N-formimidoyl derivative of thienamycin.
 Administration is by IM injection or by IV infusion.
 Imipenem is metabolized by renal dehydropeptidase-l (DHP-1) which deactivates
imipenem through hydrolysis of the β-lactam producing kidney toxic metabolites.
 Cilastatin (dehydropeptidase-1 inhibitor) is co-administered with imipenem to
protect it from metabolism*.
 penem

 Substituents at the 3-position affect the spectrum of antibacterial activity by influencing
penetration into bacteria
 It is more active against Gram-negative and anaerobic bacteria than imipenem (but less
active against Gram-positive species).
 It has an extra methyl group at C-4 which conveys intrinsic resistance and hence stability
to hydrolysis by renal DHP-1 so has lower incidence of nephrotoxicity and can be
administered alone.
 It is administered by IV injection or infusion.
 Approved by the FDA on 2017 to be used in combination with vaborbactam for treating
complicated urinary tract infection (cUTI).
 penem

 Doripenem is the newest of the approved carbapenems.
 It also contains the 4-β-methyl group, which confers stability toward
renal DHP-1, so it is given as a single agent.
 It is similar in spectrum to imipenem and meropenem but is considered
more potent against Pseudomonas species.
II– Non classical β-lactams
2- Monobactam
 nam

 The sulfamic acid moiety attached to the β-lactam ring resemble COOH in penicillins.
 The strongly electron-withdrawing character of the sulfamic acid group probably
also makes the β-lactam bond more subjected to hydrolysis.
 The α-oriented methyl group at C-2 is associated with the stability of aztreonam toward
β-lactamases.
II– Non-classical β-lactams
Choose the correct answer:
All of the following drugs are carbapenems
EXCEPT:
a. Thienamycin

b. Imipenem

c. Aztreonam

d. Meropenem
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