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ABSTRACT: Ofloxacin is a fluoroquinolone (FQ) used for the treatment of leprosy. FQs are known to interact with both A and B subunits of DNA gyrase and inhibit supercoiling activity of this enzyme. Mutations conferring FQ resistance have been reported to be found only in the gene encoding A subunit of this enzyme (gyrA) of M. leprae, although there are many reports on the FQ resistance-associated mutation in gyrB in other bacteria, including M. tuberculosis, a bacterial species in the same genus as M. leprae.
To reveal the possible contribution of mutations in gyrB to FQ resistance in M. leprae, we examined the inhibitory activity of FQs against recombinant DNA gyrases with amino acid substitutions at position 464, 502 and 504, equivalent to position 461, 499 and 501 in M. tuberculosis, which are reported to contribute to reduced sensitivity to FQ. The FQ-inhibited supercoiling assay and FQ-induced cleavage assay demonstrated the important roles of these amino acid substitutions in reduced sensitivity to FQ with marked influence by amino acid substitution, especially at position 502. Additionally, effectiveness of sitafloxacin, a FQ, to mutant DNA gyrases was revealed by low inhibitory concentration of this FQ.
Data obtained in this study suggested the possible emergence of FQ-resistant M. leprae with mutations in gyrB and the necessity of analyzing both gyrA and gyrB for an FQ susceptibility test. In addition, potential use of sitafloxacin for the treatment of problematic cases of leprosy by FQ resistant M. leprae was suggested.
PLoS Neglected Tropical Diseases 10/2012; 6(10):e1838. · 4.69 Impact Factor
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Masanori Matsuoka
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ABSTRACT: New case detection in Japan has been markedly decreased and same trends have been also shown in Korea. Despite of unfavorable circumstances, research activities are still continuing and we have the accumulation of knowledge on leprosy both in Japan and Korea. Following basic studies for leprosy on going in Japan were reviewed. 1. Analysis of drug resistance mechanism and its application for clinical samples. 2. Establishment of early diagnostic technique. 3. Clarification of mechanisms of neuropathy. 4. Analysis of in vivo growth mechanisms of Mycobacterium leprae. 5. Molecular epidemiology of leprosy. 6. Searching for new anti leprosy drugs. 7. Developing vaccine. 8. In vitro cultivation. Other subjects as follows was proposed as prospective studies. 1. Mechanisms of relapse. 2. Establishing diagnostic tool of reaction and preventive measures. 3. Clarification of immunological mechanisms of anergy in LL case. The possibility of future collaboration between Korea and Japan to solve remaining problems in the clinical field was discussed and a course of action for collaboration was deliberated.
Nihon Hansenbyo Gakkai zasshi = Japanese journal of leprosy: official organ of the Japanese Leprosy Association 09/2012; 81(3):205-7.
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ABSTRACT: The polymorphism of TTC repeats in Mycobacterium leprae was examined using bacilli from slit skin samples of leprosy patients attending at Central Special Skin Clinic, Yangon General Hospital and nasal swabs of their contacts to elucidate the possible mode of leprosy transmission. It was found that bacilli with different TTC genotypes were distributed among same household contacts and also harbored bacilli in patients were different TTC genotype from that harbored on the nasal mucus of the healthy contacts. Genotypes of TTC repeats were found to differ between husband under treatment and his wife and also mother under treatment and her sons living in same house. This study revealed that TTC genotype of bacilli harbored by household contacts was different with the TTC genotype by index cases. These results indicate that the family members get transmission from outside the dwellings rather than from commonly supposed their MB index cases. There might have been some infectious sources to which the populace had been commonly exposed outside the dwellings.
Nihon Hansenbyo Gakkai zasshi = Japanese journal of leprosy: official organ of the Japanese Leprosy Association 09/2012; 81(3):191-8.
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ABSTRACT: Drug resistance surveillance and strain typing of Mycobacterium leprae are necessary to investigate ongoing transmission of leprosy in regions of endemicity. To enable wider implementation of these molecular analyses, novel real-time PCR-high-resolution melt (RT-PCR-HRM) assays without allele-specific primers or probes and post-PCR sample handling were developed. For the detection of mutations within drug resistance-determining regions (DRDRs) of folP1, rpoB, and gyrA, targets for dapsone, rifampin, and fluoroquinolones, real-time PCR-HRM assays were developed. Wild-type and drug-resistant mouse footpad-derived strains that included three folP1, two rpoB, and one gyrA mutation types in a reference panel were tested. RT-PCR-HRM correctly distinguished the wild type from the mutant strains. In addition, RT-PCR-HRM analyses aided in recognizing samples with mixed or minor alleles and also a mislabeled sample. When tested in 121 sequence-characterized clinical strains, HRM identified all the folP1 mutants representing two mutation types, including one not within the reference panel. The false positives (<5%) could be attributed to low DNA concentration or PCR inhibition. A second set of RT-PCR-HRM assays for identification of three previously reported single nucleotide polymorphisms (SNPs) that have been used for strain typing were developed and validated in 22 reference and 25 clinical strains. Real-time PCR-HRM is a sensitive, simple, rapid, and high-throughput tool for routine screening known DRDR mutants in new and relapsed cases, SNP typing, and detection of minor mutant alleles in the wild-type background at lower costs than current methods and with the potential for quality control in leprosy investigations.
Journal of clinical microbiology 12/2011; 50(3):742-53. · 4.16 Impact Factor
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ABSTRACT: Amino acid substitutions at position 89 or 91 in GyrA of fluoroquinolone-resistant Mycobacterium leprae clinical isolates have been reported. In contrast, those at position 94 in M. tuberculosis, equivalent to position 95 in M. leprae, have been identified most frequently. To verify the possible contribution of amino acid substitutions at position 95 in M. leprae to fluoroquinolone resistance, we conducted an in vitro assay using wild-type and mutant recombinant DNA gyrases. Fluoroquinolone-mediated supercoiling activity inhibition assay and DNA cleavage assay revealed the potent contribution of an amino acid substitution of Asp to Gly or Asn at position 95 to fluoroquinolone resistance. These results suggested the possible future emergence of quinolone-resistant M. leprae isolates with these amino acid substitutions and the usefulness of detecting these mutations for the rapid identification of fluoroquinolone resistance in leprosy.
Antimicrobial Agents and Chemotherapy 11/2011; 56(2):697-702. · 4.84 Impact Factor
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Masanori Matsuoka
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ABSTRACT: Sentinel surveillance for drug resistance in leprosy by global leprosy programme has launched in 2006. Possible contribution of Japanese researchers to global leprosy control in the future were discussed on the base of circumstances of the project and our assignment in the sueveillance.
Nihon Hansenbyo Gakkai zasshi = Japanese journal of leprosy: official organ of the Japanese Leprosy Association 09/2011; 80(3):287-91.
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ABSTRACT: The suitability of the FTA® elute card for the collection of slit skin smear (SSS) samples for PCR detection of Mycobacterium leprae was evaluated. A total of 192 SSS leprosy samples, of bacillary index (BI) 1 to 5, were collected from patients attending two skin clinics in Myanmar and preserved using both FTA® elute cards and 70% ethanol tubes. To compare the efficacy of PCR detection of DNA from each BI class, PCR was performed to amplify an M. leprae-specific repetitive element. Of the 192 samples, 116 FTA® elute card and 112 70% ethanol samples were PCR positive for M. leprae DNA. When correlated with BI, area under the curve (AUC) values of the respective receiver-operating characteristic curves were similar for the FTA® elute card and ethanol collection methods (AUC=0.6). Taken together, our results indicate that the FTA® elute card, which enables the collection, transport, and archiving of clinical samples, is an attractive alternative to ethanol preservation for the detection of M. leprae DNA.
Japanese journal of infectious diseases. 05/2011; 64(3):246-8.
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Masanori Kai,
Nhu Ha Nguyen Phuc,
Hoang An Nguyen,
Thi Hoang Bich Diu Pham,
Khanh Hoa Nguyen,
Yuji Miyamoto,
Yumi Maeda,
Yasuo Fukutomi,
Noboru Nakata, Masanori Matsuoka,
Masahiko Makino,
Thanh Tan Nguyen
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ABSTRACT: Multidrug therapy has effectively reduced the number of leprosy cases in the world. However, the rate of reduction has decelerated over the years, giving early detection of Mycobacterium leprae and epidemiological study of relapse renewed relevance in attempts to eliminate the disease.
A molecular epidemiological survey for drug-resistant M. leprae was conducted in the central and highland regions of Vietnam. A total of 423 samples taken from patients, including 83 patients with new cases, 321 patients receiving treatment, and 19 patients with relapse, were studied for detection of M. leprae with mutations relating to drug resistance by sequencing the drug resistance determining region of the folP1, rpoB, and gyrA genes, which are responsible for dapsone, rifampicin, and ofloxacin resistance, respectively.
Nineteen mutations were found in the folP1 gene samples, and no mutations relating to drug resistance were found in either the rpoB or gyrA genes. Samples from patients with relapse showed folP1 mutation rates as high as 57%, and the mutation rates in samples from new and recent cases were <10%. Patients with relapse who had histories of treatment with dapsone monotherapy showed high mutation rates (78%), compared with patients with relapse who had previously only received multidrug therapy (33%).
Our study indicated high rates of dapsone resistance in patients with relapse, compared with patients with new and recent cases of leprosy. Moreover, it was observed that many of the patients with relapse who had dapsone-resistant mutations had histories of treatment with dapsone monotherapy.
Clinical Infectious Diseases 03/2011; 52(5):e127-32. · 9.15 Impact Factor
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ABSTRACT: Drugs included in new-quinolone are used for the treatment of leprosy with single lesion. These drugs are also known to be effective drugs for the treatment of multi-drug resistant M. tuberculosis. Recent emergence of new-quinolone resistant M. leprae and M. tuberculosis enforced the urgent elucidation of the mode of emergence of new-quinolone resistant strains. In this review, new-quinolone drugs, their mode of action and mechanism of acquisition of resistance by M. leprae and M. tuberculosis were explained. And rapid differentiation methods for resistant bacilli were also introduced.
Nihon Hansenbyo Gakkai zasshi = Japanese journal of leprosy: official organ of the Japanese Leprosy Association 02/2011; 80(1):17-27.
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ABSTRACT: Mexico is a country with sporadic leprosy cases, and the reemergence of drug resistance is a concern. In this study, molecular analysis of Mycobacterium leprae was employed to clarify the spread of drug-resistant leprosy. Thus, drug resistance-determining regions in the folP1, rpoB, and gyrA genes, which are associated with resistance to dapsone, rifampicin, and ofloxacin, respectively, were analyzed by direct sequencing of the PCR product. No mutations in the folP1 gene were observed in any of the 72 slit skin samples obtained from 38 patients, although two samples carrying a mutation at codon 425 in the rpoB gene, which confers resistance to rifampicin, a key component of multidrug therapy, were identified. In addition, a mutation at codon 91 in the gyrA gene, which correlates with ofloxacin resistance, was found in one sample. These results demonstrate the existence of rifampicin- and ofloxacin-resistant leprosy. Interestingly, wild-type and mutant sequences in the gyrA gene were found to coexist in one clinical sample. In addition, all three drug resistance-related mutations were found in only one of the two earlobes of the patients concerned, suggesting a possible pathway for the spread of drug-resistant M. leprae.
Japanese journal of infectious diseases. 11/2010; 63(6):412-6.
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ABSTRACT: To activate naive T cells convincingly using Mycobacterium bovis bacillus Calmette-Guérin (BCG), recombinant BCG (BCG-D70M) that was deficient in urease, expressed with gene encoding the fusion of BCG-derived heat shock protein (HSP) 70 and Mycobacterium leprae-derived major membrane protein (MMP)-II, one of the immunodominant Ags of M. leprae, was newly constructed. BCG-D70M was more potent in activation of both CD4(+) and CD8(+) subsets of naive T cells than recombinant BCGs including urease-deficient BCG and BCG-70M secreting HSP70-MMP-II fusion protein. BCG-D70M efficiently activated dendritic cells (DCs) to induce cytokine production and phenotypic changes and activated CD4(+) T cells even when macrophages were used as APCs. The activation of both subsets of T cells was MHC and CD86 dependent. Pretreatment of DCs with chloroquine inhibited both surface expression of MMP-II on DCs and the activation of T cells by BCG-D70M-infected APCs. The naive CD8(+) T cell activation was inhibited by treatment of DCs with brefeldin A and lactacystin so that the T cell was activated by TAP- and proteosome-dependent cytosolic cross-priming pathway. From naive CD8(+) T cells, effector T cells producing perforin and memory T cells having migration markers were produced by BCG-D70M stimulation. BCG-D70M primary infection in C57BL/6 mice produced T cells responsive to in vitro secondary stimulation with MMP-II and HSP70 and more efficiently inhibited the multiplication of subsequently challenged M. leprae than vector control BCG. These results indicate that the triple combination of HSP70, MMP-II, and urease depletion may provide a useful tool for inducing better activation of naive T cells.
The Journal of Immunology 10/2010; 185(10):6234-43. · 5.79 Impact Factor
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ABSTRACT: The simple method to detect mutations conferring resistant to dapsone, rifampicin, and quinolone was exploited in Mycobacterium. leprae on the basis of reverse DNA hybridization with capture probe fixed to the glass slide. Mutations were discriminated by a series of oligonucleotide probes corresponding to each mutation in the folP1, rpoB, and gyrA genes of M. leprae. The method was transferred to two laboratories in developing countries. The results obtained with the kit at those laboratories were highly concordant with results of sequencing. The method is feasible for the testing by local person in areas with high prevalence of leprosy.
Nihon Hansenbyo Gakkai zasshi = Japanese journal of leprosy: official organ of the Japanese Leprosy Association 09/2010; 79(3):257-61.
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Masanori Matsuoka
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ABSTRACT: The origin, history, sensitivity to anti-leprosy drugs and genotypic characteristics for 27 strains maintained at the Leprosy Research Center in Tokyo are described. Strains are isolated and passaged in nude mouse footpads, and frozen bacillary suspensions with different generations are also maintained. The Leprosy Research Center provides bacillary materials as experimental resources at researchers' request.
Nihon Hansenbyo Gakkai zasshi = Japanese journal of leprosy: official organ of the Japanese Leprosy Association 09/2010; 79(3):247-56.
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Masanori Matsuoka
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ABSTRACT: Leprosy is caused by Mycobacterium leprae. Currently, leprosy control is mainly based on WHO-recommended multi-drug treatment; thus, emergence of drug resistance is a major concern. M. leprae isolates resistant to single and multiple drugs have been encountered. In this review, the history of chemotherapy and drug resistance in leprosy and molecular biological insights for drug resistance are described. New methodologies to test susceptibility to anti-leprosy drugs instead of the traditional mouse footpad method are introduced. Awareness of the need to monitor drug resistance to prevent the spread of resistant cases is emphasized.
Japanese journal of infectious diseases. 01/2010; 63(1):1-7.
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ABSTRACT: Because Mycobacterium bovis bacillus Calmette-Guérin (BCG) unconvincingly activates human naive CD8(+) T cells, a rBCG (BCG-70M) that secretes a fusion protein comprising BCG-derived heat shock protein (HSP)70 and Mycobacterium leprae-derived major membrane protein (MMP)-II, one of the immunodominant Ags of M. leprae, was newly constructed to potentiate the ability of activating naive CD8(+) T cells through dendritic cells (DC). BCG-70M secreted HSP70-MMP-II fusion protein in vitro, which stimulated DC to produce IL-12p70 through TLR2. BCG-70M-infected DC activated not only memory and naive CD8(+) T cells, but also CD4(+) T cells of both types to produce IFN-gamma. The activation of these naive T cells by BCG-70M was dependent on the MHC and CD86 molecules on BCG-70M-infected DC, and was significantly inhibited by pretreatment of DC with chloroquine. Both brefeldin A and lactacystin significantly inhibited the activation of naive CD8(+) T cells by BCG-70M through DC. Thus, the CD8(+) T cell activation may be induced by cross-presentation of Ags through a TAP- and proteosome-dependent cytosolic pathway. When naive CD8(+) T cells were stimulated by BCG-70M-infected DC in the presence of naive CD4(+) T cells, CD62L(low)CD8(+) T cells and perforin-producing CD8(+) T cells were efficiently produced. MMP-II-reactive CD4(+) and CD8(+) memory T cells were efficiently produced in C57BL/6 mice by infection with BCG-70M. These results indicate that BCG-70M activated DC, CD4(+) T cells, and CD8(+) T cells, and the combination of HSP70 and MMP-II may be useful for inducing better T cell activation.
The Journal of Immunology 11/2009; 183(10):6561-8. · 5.79 Impact Factor
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ABSTRACT: To classify Mycobacterium leprae isolates from multiple areas in Mexico based on variable number of tandem repeats of 6 base within the rpoT gene and three single nucleotide polymorphism (SNP), and to analyse their geographic distribution in the context of the origin of leprosy in Mexico.
Analysis for rpoT genotyping of 64 samples collected in the west and southwestern areas revealed that 46 isolates were of the 4 copy type and 18 isolates were of the 3 copy type. All samples from the eastern coastal area (n = 24) and from the Yucatan peninsula (n = 12) were of the 3 copy type. Six isolates from the west and southwestern area were SNP-type 1, 13 isolates were SNP-type 2 and 45 isolates were SNP-type 3. Nineteen of 24 isolates from the eastern coastal area were SNP-type 3 and one was SNP-type 4. Seven isolates from the Yucatan peninsula were SNP-type 3 and one was SNP-type 4.
The difference of the proportion of each genotype between the western areas and the eastern areas indicated the expansion of leprosy through different paths in Mexico.
Leprosy review 09/2009; 80(3):322-6. · 1.04 Impact Factor
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ABSTRACT: Establish a typing system for Mycobacterium leprae based on polymorphic DNA structures known as short tandem repeats (STR).
Assess 16 polymorphic STR for sensitivity, specificity and reproducibility in standard assays using reference strains of M. leprae.
Primers for 16 STR loci were selected based on PCR product size and for their ability to sequence each STR locus from both directions. All primer pairs produced a visible PCR amplicon of appropriate size from PCR reactions containing 10 M. leprae cells. DNA sequences for each STR locus, except (AT) 15, was correctly identified as M. leprae-specific in replicate samples containing 1000 M. leprae using either the forward or reverse PCR primers. Twelve of 13 M. leprae STR loci were stable during passage in heavily infected armadillo tissues over a 5 year and 7 month infection cycle.
Certain M. leprae STR provide suitable targets for strain typing with the potential for grouping M. leprae with shared genotypes that may prove useful for establishing linkages between leprosy cases within geographical regions.
Leprosy review 09/2009; 80(3):250-60. · 1.04 Impact Factor
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Masanori Matsuoka
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ABSTRACT: Recent advances in the molecular epidemiology of leprosy through genotyping of variable number tandem repeats (VNTRs) and single nucleotide polymorphisms (SNPs) are described. VNTRs with a broad range of diversity are useful genotyping tools for analyzing transmission in community areas, and SNPs and VNTRs with a small degree of variation are favorable for investigating the global transmission of leprosy. We expect that the transmission of leprosy can be fully analyzed by the application of these new methodologies.
Nihon Hansenbyo Gakkai zasshi = Japanese journal of leprosy: official organ of the Japanese Leprosy Association 03/2009; 78(1):67-73.
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ABSTRACT: Hansen's disease is caused by an infection with an intracellular pathogen, Mycobacterium leprae, which mainly inhabits macrophages and Schwann cells. However, little is known about the survival or growth mechanisms of the bacilli in mouse and human macrophages. In the present study, by using radiorespirometry analysis for the evaluation of the viability of M. leprae, we observed that in vitro incubation of M. leprae-infected macrophages at 35 degrees C was more growth permissive than at 37 degrees C, and supplementation with the immunosuppressive cytokine IL-10 supported the survival of the bacilli in the macrophages for 3 weeks, whereas viability of the bacilli was gradually lost if cultured without IL-10. In human macrophages, M. leprae retained its viability when cultured at 35 degrees C for at least 4 weeks without IL-10. However, the viability of M. leprae was almost lost within 2 weeks if cultured at 37 degrees C. These data suggest that temperature is a crucial factor for the survival of M. leprae in host cells.
Nihon Hansenbyo Gakkai zasshi = Japanese journal of leprosy: official organ of the Japanese Leprosy Association 03/2009; 78(1):7-16.
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ABSTRACT: A simple method to detect mutations in the genome of Mycobacterium leprae that confer resistance to key drugs for leprosy was exploited on the basis of a reverse hybridization system. A series of oligonucleotide probes corresponding to each mutation in the folP1, rpoB and gyrA genes for dapsone, rifampicin and ofloxacin resistance, respectively, were selected and fixed on a glass slide as capture probes, to develop a DNA microarray termed the leprosy drug susceptibility-DNA microarray (LDS-DA). Mutations in clinical isolates of M. leprae were successfully identified by the LDS-DA. Feasibility studies were conducted to evaluate the performance of the LDS-DA in two developing countries, Myanmar and the Philippines. The high concordance of the results obtained by this method with the results of nucleotide sequencing strongly supports the applicability of the LDS-DA as a drug susceptibility test in place of sequencing, a time-consuming and costly procedure. This is a rapid and simple method for the simultaneous susceptibility testing of three front-line drugs for leprosy, and solves the problems of previously reported methods.
Journal of Medical Microbiology 11/2008; 57(Pt 10):1213-9. · 2.50 Impact Factor
