The detection of circulating tumor cells (CTCs) in peripheral blood is currently an important field of study. Detection of CTCs by the OBP-401 assay (TelomeScan®) has previously been reported to be useful in the diagnosis, prognosis and evaluation of therapeutic efficacy in breast and gastric cancer. The aim of the present study was to evaluate the OBP-401 assay as a novel method of detecting CTCs of small cell lung cancer (SCLC) patients and to evaluate whether CTC count is associated with prognosis. Prospectively, 30 consecutively diagnosed SCLC patients who had commenced chemotherapy or chemoradiotherapy were enrolled as subjects of the current study. Peripheral blood specimens were collected from the SCLC patients prior to and following the initiation of treatment and the viable CTCs were detected in the specimens following incubation with a telomerase-specific, replication-selective, oncolytic adenoviral agent, which was carrying the green fluorescent protein gene. CTCs were detected in 29 patients (96%). The group of 21 patients with a CTC count of <2 cells/7.5 ml prior to treatment (baseline) had a significantly longer median survival time than the group of eight patients with a CTC count of ≥2 cells/7.5 ml prior to treatment (14.8 and 3.9 months, respectively; P=0.007). The results of a multivariate analysis showed that the baseline CTC count was an independent prognostic factor for survival time (hazard ratio, 3.91; P=0.026). Among the patients that achieved a partial response to treatment, patients who had a CTC count of <2 cells/7.5 ml following two cycles of chemotherapy tended to have a longer median progression-free survival compared with patients who had a CTC count of ≥2 cell/7.5 ml (8.3 and 3.8 months, respectively; P=0.07). Therefore, CTCs may be detected via OBP-401 assay in SCLC patients and the CTC count prior to treatment appears to be a strong prognostic factor.
The current status of Helicobacter contamination of laboratory mice, rats, gerbils, and house musk shrews from 47, 10, 4, and 3 colonies, respectively, in Japan was studied. Helicobacter was detected by reverse transcription (RT)-nested polymerase chain reaction (PCR) with Helicobacter genus-specific primers by using feces obtained from the animals. H. hepaticus, H. muridarum, H. bilis, H. rodentium, "Flexispira rappini", and "H. suncus" were identified with species-specific primers. Other species of Helicobacter were identified by sequencing of PCR products amplified with genus-specific primers. For mice, H. hepaticus, H. bilis, H. rodentium including H. rodentium-like organism, "H. typhlonicus"-like organism, and H. westmeadii-like organism were detected from 12 (25.5%), 1 (2.1%), 18 (38.3%), 1 (2.1%), and 1 (2.1%) colonies, respectively. Forty-seven (5.7%) mice from six (12.8%) colonies were contaminated with both H. hepaticus and H. rodentium. H. rodentium was detected in rats from three (30.0%) colonies. In gerbils, H. hepaticus was detected in three (75.0%) colonies, but other species of Helicobacter were not detected. In house musk shrews, "H. suncus" was detected in animals from two (66.7%) colonies. Visible lesions in the liver, which showed multiple pale to white foci, were observed in 6/42, 5/174, and 1/21 mice infected with H. hepaticus, H. rodentium, and H. hepaticus/H. rodentium, respectively, and 1/14 gerbils infected with H. hepaticus. The results suggest the prevalence of these species of Helicobacter in mice, rats, gerbils, and house musk shrews in Japan.
Abstract:On the basis of our 2011 microbiological monitoring tests, we report here the current microbiological status of mice and rats housed in experimental facilities in Japan. We tested more than 14,000 mice, 6,000 serum samples, 500 fecal or cecal samples, and 200 lung samples from 3,549 mouse facilities within Japanese universities and institutes (U/I), pharmaceutical companies and contract research organizations (P/C). We also tested more than 1,500 rats, 1,600 serum samples, and 20 fecal or cecal samples from 772 U/I and P/C rat facilities. Bacterial cultures, serology, microscopy, PCR, and DNA analysis using DNA chips were performed. Staphylococcus aureus (18.8% in mouse facilities, 58.6% in rat facilities) was the most prevalent agent in both the mouse and rat facilities. The next most prevalent agents in the mouse facilities were murine norovirus (11.97%), intestinal protozoa (0.05-8.49%, from various species), Pasteurella pneumotropica (5.32%), and Helicobacter hepaticus (3.17%), while intestinal protozoa (0.74-6.84% from various species), Syphacia muris (6.20%), Pseudomonas aeruginosa (3.61%), and Pasteurella pneumotropica (3.05%) were the subsequent most prevalent agents in the rat facilities. These results suggest that the currently prevalent microbes in laboratory mice and rats in Japan are mainly opportunistic pathogens, intestinal protozoa, and microbes with low pathogenicity.
Abstract:The RNA polymerase gene of murine norovirus (MNV) was isolated from feces and organ samples by the reverse transcription (RT)-polymerase chain reaction (PCR). For experimental infection, homogenate of cecum obtained from an MNV-infected mouse was gavaged to 3 C.B-17-Prkdc scid (scid) mice and 3 ICR mice at 6 weeks of age. Sixty days after oral inoculation, MNV was isolated from the cecum (3/3 scid and 3/3 ICR), feces (3/3 scid and 3/3 ICR), duodenum (1/3 scid and 3/3 ICR), liver (1/3 scid and 1/3 ICR), and spleen (3/3 ICR) samples, but MNV was not detected in the brain, heart, kidney, lung, salivary gland, ovary, thymus, or uterus samples of any of the orally inoculated mice. Feces of males cohabiting with MNV infected dams were positive for viral RNA after 18 days of cohabitation, but 8 fetuses (embryonic day 18.0) derived from the dams were negative for the virus. The results suggest that the cecum and feces are the most suitable sample types for the detection of MNV in infected animals and that caesarean section is efficient for the elimination of the virus. In terms of spontaneous infection, the RNA polymerase gene of MNV was isolated from 33/245 (13.1%) cecum samples derived from 15/59 (25.4%) facilities, and the sequence analysis revealed that at least 5 types of the virus were prevalent. This is the first report on MNV infection in mouse colonies in Japan.
Abstract. Dual infection by Clostridium piliforme and feline panleukopenia virus (FPLV) was found in three kittens. In all cases, we found focal necrosis and desquamation of epithelial cells with occasional neutrophil infiltration in the large intestine. Large filamentous bacilli and spores were observed in the epithelium by using the Warthin-Starry method. Electron microscopy revealed the vegetative forms with characteristic peritrichous flagella and spore forms. Immunohistochemically, these bacilli showed a positive reaction with mouse antisera against the RT and MSK C. piliforme strains. Polymerase chain reaction (PCR) using cecum specimens demonstrated the 196-bp band specific to C. piliforme 16S rRNA. All three kittens were also diagnosed as FPLVinfected on the basis of the characteristic mucosal lesions, including intranuclear inclusions and PCR study for the FPLV genomic DNA. The PCR techniques are useful for confirming the C. piliforme and FPLV infection in spontaneous cases.
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