The major mechanism of resistance to fluoroquinolones for Pseudomonas aeruginosa is the modification of type II topoisomerases (DNA gyrase and topoisomerase IV). We examined the mutations in quinoloneresistance-determining regions (QRDR) of gyrA, gyrB, parC, and parE genes of recent clinical isolates. There were 150 isolates with reduced susceptibilities to levofloxacin and 127 with reduced susceptibilities to ciprofloxacin among 513 isolates collected during 1998 and 1999 in Japan. Sequencing results predicted replacement of an amino acid in the QRDR of DNA gyrase (GyrA or GyrB) for 124 of the 150 strains (82.7%); among these, 89 isolates possessed mutations in parC or parE which lead to amino acid changes. Substitutions of both Ile for Thr-83 in GyrA and Leu for Ser-87 in ParC were the principal changes, being detected in 48 strains. These replacements were obviously associated with reduced susceptibilities to levofloxacin, ciprofloxacin, and sparfloxacin; however, sitafloxacin showed high activity against isolates with these replacements. We purified GyrA (The-83 to Ile) and ParC (Ser-87 to Leu) by site-directed mutagenesis and compared the inhibitory activities of the fluoroquinolones. Sitafloxacin showed the most potent inhibitory activities against both altered topoisomerases among the fluoroquinolones tested. These results indicated that, compared with other available quinolones, sitafloxacin maintained higher activity against recent clinical isolates with multiple mutations in gyrA and parC, which can be explained by the high inhibitory activities of sitafloxacin against both mutated enzymes.
Urinary incontinence is a common problem as women age. The aims of this study were to assess the prevalence and risk factors of urinary incontinence and their impact on the quality of life of working Japanese women. In this cross-sectional study, 975 women completed the Urogenital Distress Inventory-6, the Short Form (SF)-36 Health Survey, and the King's Health Questionnaire. Their mean age was 47.6 years and the reported prevalence of stress, urge, and mixed urinary incontinence symptoms during the past month was 19.3%, 4.2%, and 7.8%, respectively. The prevalence rate of all the three types of incontinence increased with age and Body Mass Index. There was no significant difference in the questionnaire subscale scores of the SF-36 Health Survey and the King's Health Questionnaire between these types and those without urinary incontinence. However, in relation to the SF-36 scores, we found that urge urinary incontinence had more effect on women than stress urinary incontinence. There was a high prevalence of urinary incontinence in the participants. The results emphasize the need for women to be provided with education programs about incontinence and to perform preventive exercises.
The brain has an estrogen-biosynthetic potential resulting from the presence of neuronal aromatase, which controls the intraneural sex-steroidal milieu and is involved in brain sexual differentiation, psychobehavioral regulation, and neuroprotection. In the rat brain, three distinct aromatase-P450-immunoreactive (AromP450-I) neural groups have been categorized in terms of their peak expression time (fetal, fetoneonatal, and young-to-adult groups), suggesting the presence of region-specific regulation on brain AromP450. In the present study, we compared the expressions between AromP450 protein and mRNA by using immunohistochemistry and in situ hybridization with an ovary-derived cRNA probe in serial sections of fetal, fetoneonatal, and adult male rat brains and then performed steroidal manipulations to evaluate the sex-steroidal effects on AromP450 in adult orchiectomized and adrenalectomized (OCX + ADX) male rats. As a result, prominent mRNA signals were detected in the fetal (i.e., the anterior medial preoptic nucleus) and fetoneonatal (i.e., the medial preopticoamygdaloid neuronal arc) groups, although no detectable signal was found in the "young-to-adult" group (i.e., the central amygdaloid nucleus). In addition, the "fetoneonatal" AromP450-I neurons were prominently reduced in number and intensity after OCX + ADX and then were reinstated by the administration of dihydrotestosterone, testosterone, or 17beta-estradiol. In contrast, none of the sex steroids had any significant effects on the young-to-adult group. Several possible explanations were explored for why the young-to-adult group may differ in aromatase expression and regulation, including the possibility that distinct splicing variants or isozymes for aromatase exist in the rat brain.
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