5 to 24 hours after

oral administration of sub-lethal dos

5 to 24 hours after

oral administration of sub-lethal doses of praziquantel. Genes up-regulated initially in male parasites were associated with “Tegument/Muscle Repair” and “Lipid/Ion Regulation” functions and were followed by “Drug Resistance” and “Ion Regulation” associated genes. Prominent responses induced in female worms included upregulation of “Ca2+ Regulation” and “Drug Resistance” genes and later by transcripts of “Detoxification” and “Pathogen Defense” mechanisms. A subset of highly over-expressed genes, with putative drug resistance/detoxification roles or Ca2+-dependant/modulatory functions, were validated by qPCR. The leading candidate among these was CamKII, a putative calcium/calmodulin-dependent protein kinase type II delta chain. RNA AZD7762 concentration interference was employed to knockdown CamKII in S. japonicum to determine the role of CamKII Caspase inhibitor in vivo in the response to praziquantel. After partial-knockdown, schistosomes were analysed using IC50 concentrations (50% worm motility) and quantitative

monitoring of parasite movement. When CamKII transcription was reduced by 50-69% in S. japonicum, the subsequent effect of an IC50 dosage of praziquantel was exacerbated, reducing motility from 47% to 27% in female worms and from 61% to 23% in males. These observations indicated that CamKII mitigates the effects of praziquantel, probably through stabilising Ca2+ fluxes within parasite muscles and tegument. Together, these studies comprehensively charted transcriptional changes upon exposure to praziquantel and, notably, identified CamKII as potentially QNZ chemical structure central to the, as yet undefined, mode of action of praziquantel.”
“OBJECTIVES To characterize ultrasound bladder measures, and to determine whether these measures were associated with measures of lower urinary tract dysfunction.\n\nMETHODS Three-dimensional ultrasounds were used to assess bladder surface area (SA), bladder wall thickness (BWT), and estimated

bladder weight (EBW) in a random sample of the Olmsted County, Minnesota, male population. Uroflowometry was used to determine maximum urinary flow rates, and ultrasound was used to assess postvoid residual volume. Prostate volume was assessed with transrectal ultrasound and prostate-specific antigen (PSA) levels were assessed from serum samples. Correlation and linear regression analyses assessed relationships between bladder measures and prostate volume, PSA, maximum flow rate, and postvoid residual.\n\nRESULTS Among 259 men, median bladder SA was 228 cm(2) (25th, 75th percentiles: 180, 279), median BWT was 2.3 mm (25th, 75th percentiles: 1.8, 2.7), and median EBW was 48.5 g (25th, 75th percentiles: 43.7, 53.0). Decreased bladder SA was correlated with increased PSA level, increased prostate volume, higher American Urological Association Symptom Index (AUASI) scores (r(s) = -0.13 to -0.21; P =.03-.

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