Quinolones
Bacteria replicate DNA via a unique enzyme called DNA gyrase (or topoisomerase II). DNA at the replication fork exist in a positively-supercoiled arrangement and the structure is strained. DNA gyrase nicks one strand of the DNA (say at a supercoiled segment behind) and reseals the strand after it un-coils at the front. This process restores the usual, negatively-supercoiled and stabilised, unstrained state. Another enzyme, topoisomerase IV, acts to untangle the newly replicated DNA. Both topoisomerases II & IV can be inhibited by fluoroquinolones, but activity against topoisomerase II is more clinically relevant at present.
Ciprofloxacin is a representative example of fluoroquinolones, so named because compounds in the class possess a fluorine. Fluoroquinolones inhibit the activity of DNA gyrase, thus stopping DNA replication. Drugs in this class should be avoided in pregnant women (concerning fetus) and those under age 18 as the developing bones and cartilage will be affected. Unwanted effects are infrequent and mild, but ciprofloxacin is a known cytochrome P450 inhibitor. Thus, interactions with other P450 inhibitors such as theophylline can produce CNS effects such as headache, dizziness and convulsions.
Fluoroquinolones have a broad spectrum of antibacterial activity, but usage is best reserved for Gram-negative (Gm-) bacteria, including against Acinetobacter baumannii & Pseudomonas aeruginosa (combined with aminoglycoside), Haemophilus influenzae, enterobacteria (Enterobacter, E. coli, K. pneumoniae). Resistance to fluoroquinolones may arise most commonly when the structure of DNA gyrase is altered. This may result in weaker drug-binding or a binding site that is shielded from the drug. It should also be noted that inactivation by acetylation occurs via an enzyme that does the same to aminoglycosides.
Links to PubChem entries: ciprofloxacin (a second-generation fluoroquinolone); levoflaxacin (a third-generation fluoroquinolone); moxifloxacin (a fourth-generation fluoroquinolone). These entries list the key physico-chemical and pharmacological properties of these fluoroquinolone drugs. Synopses of individual reports on adverse drug reactions are included, as are examples of various drug formulations on the market.
Antibiotics that target bacterial nucleic acids: fluoroquinolones
Fluoroquinolones: Mechanisms of action and resistance
This is a 7-minute animation showing the mechanism of action of the fluoroquinolones. Students will gain the most from this animation if they have an understanding of DNA replication. A brief introduction of this process is also given in the first part of this video. From 5:32 onward, mechanisms of resistance to fluoroquinolones are described, with reference to altered drug targets. This video would be useful together with other resources related to the comprehensive pharmacology of the quinolones.
Advanced level
Author: Mechanisms in Medicine
UpToDate.com: Fluoroquinolones
This article provides an overview of the general pharmacology of fluoroquinolones. Important unwanted effects are also described in detail. A note is included about restricted fluoroquinolone use in the USA due to the adverse drug effects.
Advanced level
Author: David C Hooper
Note that Institutional subscription may be required to access UpToDate.com articles.
Mechanisms and Classification of Antibiotics (Antibiotics - Lecture 3)
Fluoroquinolones
This short video (6:55) is part of an introductory series of videos on antibiotic classes produced by Ryan Sheehy of Kansas City University. It uses a narrated animation to introduce you to the basic structure, mechanisms of action and clinical uses of fluoroquinolones. Commonly used drugs in this class include ciprofloxacin, levofloxacin, moxifloxacin, norfloxacin, and ofloxacin. The fluoroquinolones are a family of broad spectrum, systemic antibacterial agents that have been used widely as therapy of respiratory and urinary tract infections.
Part of this narrated video (from 3:08 to 4:43) gives an overview of the mechanisms of action of fluoroquinolones. Mechanisms of drug resistance are also briefly introduced.
Intermediate level.
Author: MedLecturesMadeEasy