Synthesis of new Enrofloxacin Derivatives as Potential Antibiofilm Drugs Against Staphylococcus Aureus and Klebsiella Pneumoniae.

BACKGROUND: The antimicrobial resistance due to biofilm formation among bacteria is a significant problem in the healthcare and food industries. OBJECTIVE: The current study describes the synthesis of enrofloxacin derivatives 2-17, and the evaluation of their anti-bacterial and anti-biofilm activities. METHODS: Compounds 2-17 were synthesized through the acylation of enrofloxacin with thionyl chloride, followed by reaction with different aromatic amines. The new analogues identified among the sixteen compounds were 2-7, 11, 14, and 17. RESULTS: Compound 2 appeared to be effective against pathogens S. aureus as well as K. pneumonia, whereas, compound 11 was found active against K. pneumonia only. Compound 2 inhibited >75% biofilm formation of S. aureus at 20 µg/mL and K. pneumonia at 10 µg/mL concentrations. These doses are far below the bactericidal concentration of compound 2, suggesting the anti-virulence mechanism of these compounds. Compound 11 inhibited 60% biofilm formation of K. pneumoniae at 70 µg/mL concentration. Compound 5 inhibited the biofilm of K. pneumoniae at 62 µg/mL concentration but also had bactericidal properties at this concentration. Interestingly, compound 2 eradicated the preformed biofilm of both the pathogens at much lower doses as compared to control drug, gentamycin and substrate, enrofloxacin. Cytotoxicity of compounds 2-17 was checked by a standard method using 3T3 normal cell lines (mouse fibroblast), all compounds were found to be noncytotoxic. CONCLUSION: These compounds can be used alone or with FDA approved drugs to overcome biofilm related K. pneumoniae and S. aureus infections.

Synthesis, Characterization, and Pharmacodynamics Study of Enrofloxacin Mesylate.

INTRODUCTION: Enrofloxacin is used in the treatment of a wide variety of bacterial infections in mammals. However, its poor solubility limits the clinical use. METHODS: In order to improve the solubility of enrofloxacin, the enrofloxacin mesylate (EM) were obtained by a chemical synthesis method. The characterization of EM was carried out using ultraviolet scan (UV), synchronous thermal analysis (SDT), fourier transform infrared spectrometer (FTIR) and mass spectrometry (MS), nuclear magnetic resonance (NMR) and X-ray powder diffraction analysis (XRPD). Acute toxicity of EM in Kunming mice was studied. Besides, pharmacokinetic studies were performed in New Zealand rabbits at a single oral dose of 10 mg/kg, and the antibacterial activity of EM was also evaluated. RESULTS: EM was successfully synthesized and purified. The stoichiometric ratio of mesylate to enrofloxacin was 1:1 and the aqueous solubility of EM was 483.01±4.06 mg/mL, the solubility of EM was about 2000 times higher than enrofloxacin. The oral lethal dose (LD50) of EM was 1168.364 mg/kg, and the pharmacokinetics indicated that the oral relative bioavailability of EM was about 1.79 times and 1.48 times higher than that of enrofloxacin and enrofloxacin hydrochloride, respectively. In addition, the in vitro antibacterial activity of EM was not significantly changed compared with enrofloxacin and enrofloxacin hydrochloride. CONCLUSION: EM has higher solubility, low toxicity for oral use, and increases the oral bioavailability in rabbit. This study may be of benefit for the development of new enrofloxacin drugs.

Development of an Aqueous Ophthalmic Solution with an Enhanced-Solubility Enrofloxacin Crystal, and its Clinical Evaluation in Dogs.

BACKGROUND: The concern about the frequent use of ciprofloxacin in veterinary medicine is linked to increased antimicrobial resistance. The corresponding fluoroquinolone for veterinary use is enrofloxacin. A new solvate form of enrofloxacin, as dihydrate-hydrochloride (enro-C) with higher water solubility than the parent compound, was formulated as an ophthalmic solution (pH 5). A multicentre, longitudinal, non-inferiority clinical study in a non-hospital environment was designed to treat 36 dogs affected by tobramycin-unresponsive conjunctivitis with either the experimental 0.5% enro-C ophthalmic preparation (enro-CG) or a commercial preparation of ciprofloxacin (cipro-G). Other causes of conjunctivitis were ruled out. Pathogens were isolated and minimum inhibitory concentration (MIC) studies of tobramycin were carried out. Three blocks of bacterial resistance were set up, beginning at the established breakpoint i.e., 4 µg/mL; 8 µg/mL and 16 µg/mL. Eighteen dogs were randomly assigned to each block. The enro-CG group was treated with two drops of the referred preparation (10 mg/eye) twice a day for 7 days, and the cipro-G group was treated with four drops of a 0.3% commercially available ciprofloxacin eye-drop preparation (9 mg/eye) twice a day, also for 7 days. Clinical and bacteriological cure rates were evaluated. RESULTS: Enro-C-treated dogs achieved a clinical cure one day earlier than ciprofloxacin-treated dogs, and unlike this latter group, enro-CG achieved bacteriological cure in all cases. No side effects were observed in either group, but dogs treated with enro-C showed no discomfort, allowing easier treatment-compliance. CONCLUSION: This is the first study reported on the successful formulation of enrofloxacin as an ophthalmic solution. Clinical assessment reveals outstanding clinical efficacy. It is necessary to conduct further research on clinical efficacy and toxicity, with the chronic use of this preparation under different clinical challenges.