Abstract
Multidrug resistant leprosy, defined as resistance to rifampin, dapsone and fluoroquinolones (FQ), has been described in Mycobacterium leprae. However, the in vivo impact of fluoroquinolone resistance, mainly mediated by mutations in DNA gyrase (GyrA2GyrB2), has not been precisely assessed. Our objective was to measure the impact of a DNA gyrase mutation whose implication in fluoroquinolone resistance has been previously demonstrated through biochemical studies, on the in vivo activity of 3 fluoroquinolones: ofloxacin, moxifloxacin and garenoxacin.Methodology/Principal FindingsWe used the proportional bactericidal method. 210 four-week-old immunodeficient female Nude mice (NMRI-Foxn1nu/Foxn1nu) were inoculated in the left hind footpad with 0.03 ml of bacterial suspension containing 5×103, 5×102, 5×101, and 5×100 M. leprae AFB organisms of strain Hoshizuka-4 which is a multidrug resistant strain harboring a GyrA A91V substitution. An additional subgroup of 10 mice was inoculated with 5×10−1 bacilli in the untreated control group. The day after inoculation, subgroups of mice were treated with a single dose of ofloxacin, moxifloxacin, garenoxacin or clarithromycin at 150 mg/kg dosing. 12 months later mice were sacrificed and M. leprae bacilli were numbered in the footpad. The results from the untreated control group indicated that the infective inoculum contained 23% of viable M. leprae. The results from the moxifloxacin and garenoxacin groups indicated that a single dose of these drugs reduced the percentage of viable M. leprae by 90%, similarly to the reduction observed after a single dose of the positive control drug clarithromycin. Conversely, ofloxacin was less active than clarithromycin.Conclusion/SignificanceDNA gyrase mutation is not always synonymous of lack of in vivo fluoroquinolone activity in M. leprae. As for M. tuberculosis, in vivo studies allow to measure residual antibiotic activity in case of target mutations in M. leprae.
Highlights
Mycobacterium leprae is responsible for leprosy, that the World Health Assembly decided, in 1991, to ‘‘eliminate as a public health problem’’ by the year 2000
Drug resistant leprosy has been described and may prevent eradication of the disease, notably multidrug resistant defined as resistance to rifampin, dapsone and fluoroquinolones (FQ)
All the FQ tested showed in vivo activity against the mutant tested (A91V mutant in subunit A of DNA gyrase)
Summary
Mycobacterium leprae is responsible for leprosy, that the World Health Assembly decided, in 1991, to ‘‘eliminate as a public health problem’’ by the year 2000. Though a decreasing number of new cases registered each year (,219,000) during the recent years [1,2], it is generally admitted that the goal of leprosy elimination is far from being reached [3]. Reports from Asian countries with a high leprosy prevalence estimated rates of resistance at 15–20% to dapsone (DDS) and 3– 8% to rifampin [4,5]. Some studies estimated around 50% of resistance to DDS in relapsing cases [6,7]. The exact magnitude of resistance to these drugs is difficult to assess, resistance in M. leprae is a concern in relapsing multibacillary leprosy patients, by strongly reducing the possibilities of an effective treatment [1,8,9,10]
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