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MD Pharmacology NMC syllabus ~5 min read Recent advances last updated on 2026-06-20

Macrolides, Ketolides & Streptogramins

Chemistry, 50S Protein-Synthesis Inhibition, MLS Resistance, Clinical Use & Recent Advances

Past RGUHS + MPMSU + MUHS · 8 RGUHSMay '25 RGUHSMay '22 MPMSU2020 MUHSSummer '20 RGUHSOct '10 RGUHSOct '09 RGUHSApr '08 RGUHSSep '06

Introduction

  • Macrolides are antibiotics built on a macrocyclic lactone ring bearing one or more glycosidically-linked deoxy sugars; ring size defines the subclass. Erythromycin (the prototype) carries two sugars — desosamine and cladinose — and was isolated in 1952 from Saccharopolyspora erythraea.
  • Erythromycin is acid-labile and poorly water-soluble, losing activity rapidly at acid pH — driving development of acid-stable esters and the semisynthetic congeners clarithromycin (6-O-methyl) and azithromycin.
  • Ketolides (telithromycin) are semisynthetic 14-membered erythromycin derivatives in which α-L-cladinose is replaced by a 3-keto group plus a C11–C12 carbamate — modifications that defeat several macrolide-resistance mechanisms.
  • Streptogramins are used as the fixed combination quinupristin (streptogramin B) + dalfopristin (streptogramin A) in a 30:70 ratio — a reserve agent for multidrug-resistant gram-positives.
  • All three classes are 50S ribosomal protein-synthesis inhibitors whose binding sites overlap with the lincosamides and chloramphenicol — the basis of the shared MLS_B resistance and mutual antagonism.
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Macrolide Antibiotics

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