Evaluation of acellular pertussis vaccine: comparisons among different strains of mice.

The current study was designed to comparatively analyse the reactions of different mouse strains in response to acellular pertussis (aP) vaccine, with attempt to further provide a reference for aP vaccine evaluation. NIH mice, ICR mice, and BALB/c mice adopted from different pharmacopoeias and studies were utilized to measure the immune protection and immunogenicity of the same batch of aP vaccine according to the Modified intracerebral challenge assay (MICA) from some Asian pharmacopoeias and the pertussis serological potency test (PTST) method from European Pharmacopoeia. Based on our results, the aP vaccine detected by NIH mice had the best potency. So the NIH mice were more suitable for detecting the immune protection of aP vaccine by the MICA method. Given that the levels of PT-IgG and FHA-IgG antibodies in ICR mice were the highest, and the levels of Th1 and Th2 cells were significantly increased (P < .01), it was more suitable for the detection of immunogenicity of aP vaccine by PSPT method. Spleen lymphocytes were stimulated by PT and FHA. And the levels of IL-4 in ICR mice and NIH mice were significantly increased, so were the levels of IL-17, IL-23, IL-27, and TNF-α in BALB/c mice. NIH mice have stronger adaptive immunity and the weakest inflammatory response, and ICR mice have enhanced adaptive immunity and inflammatory responses, both of which can be thereby used for evaluation by different pharmacopoeia methods. NIH was more suitable for the MICA method of Chinese Pharmacopoeia, and ICR for the PSPT method of European Pharmacopoeia.

The microbiota in the intestinal and respiratory tracts of naked mole-rats revealed by high-throughput sequencing.

BACKGROUND: The naked mole-rat (NMR, Heterocephalus glaber) is being bred as a novel laboratory animal due to its unique biological characteristics, including longevity, cancer resistance, hypoxia tolerance, and pain insensitivity. It is expected that differences exist between the microbiota of wild NMRs and that of NMRs in an artificial environment. Overall, the effect of environment on changes in the NMR microbiota remains unknown. In an attempt to understand the microbiota composition of NMRs in captivity, variability in the microbiota of the intestinal and respiratory tracts of two groups of NMRs was assessed under two conditions. RESULTS: The results obtained by high-throughput sequencing revealed significant differences at the phylum, class, order, family and genus levels in the microbiota between the two groups of NMRs examined (first group in conventional environment, second group in barrier environment). For the trachea, 24 phyla and 533 genera and 26 phyla and 733 genera were identified for the first and second groups of animals. Regarding the cecum, 23 phyla and 385 genera and 25 phyla and 110 genera were identified in the microbiota of first and second groups of animals. There were no obvious differences between females and males or young and adult animals. CONCLUSIONS: Our results suggest that the intestinal and respiratory tract NMR microbiota changed during captivity, which may be related to the transition to the breeding environment. Such changes in the microbiota of NMRs may have an effect on the original characteristics, which may be the direction of further research studies.

[Hereditary quality standards for laboratory fish].

Although laboratory fish are increasingly used in genetics and other life science research fields, standard quality control and supervision are needed. In China, laboratory animals are all put into a strict licensing and quality management system by the government. The standardization of genetic quality control is crucial to a laboratory fish quality control management system. The goal of Laboratory Animal Regulation is to control genetic quality, avoid hereditary degeneration and genetic drift, and circumvent experimental errors. To achieve this goal, Laboratory Animal Regulations are being developed by consulting experimental data and research findings throughout the world, combining the best known practices in laboratory fish production, and consulting specialists. A new set of laboratory fish genetic quality standards focusing on zebrafish and swordtail fish has been established as a reference for scientific researchers. The new standards define inbred and outbred zebrafish and swordtail fish hereditary classifications, naming principles, breeding methods, and hereditary quality surveying. The new standards provide a frame of reference for laboratory fish users and managers.

[Development and application of TaqMan MGB probe fluorescence quantitative PCR method for rapid detection of Clostridium piliforme].

OBJECTIVE: To develop a TaqMan MGB probe-based, sensitive and specific fluorescence quantitative PCR assay method for rapid detection of Clostridium piliforme. METHODS: Primers and probes specific to 16S rRNA gene of Clostridium piliforme were designed. A TaqMan MGB probe-based, fluorescence quantitative PCR method was established. Specificity, sensitivity and stability of the method were assessed, followed by real-time quantitative PCR assay to detect Clostridium piliforme on 1156 clinical specimens during 2008-2011 and compared with conventional PCR assay. RESULTS: The specificity of TaqMan MGB probe-based fluorescence quantitative PCR was high and did not show cross-reactivity with Helicobacter hepaticus, Helicobacter pylori, Campylobacter jejuni, Pasteurella pneumotropica, Escherichia coli or Pseudomonas aeruginosa. The detection limit was 2.2 copies/µl. The correlation coefficient and slope value of standard curve were 0.999 and -3.204, respectively and the efficiency of TaqMan MGB-based probe fluorescence quantitative PCR assay was 100%. When the TaqMan MGB-based probe fluorescence quantitative PCR assay was preformed to detect Clostridium piliforme on 1156 clinical specimens, a total of 101 specimens showed positive on Clostridium piliforme. However, only 44 specimens showed positive when conventional PCR was used. The real-time quantitative PCR for Clostridium piliforme could be completed within 2 hours. CONCLUSION: The TaqMan MGB-based probe fluorescence quantitative PCR assay method was a reliable, specific, sensitive and useful tool for rapid detection of Clostridium piliforme.

Microsatellite analysis in two populations of Kunming mice.

Kunming mice are the most widely used outbred colony in China. Differences in biological characters and drug reactions among different populations have been observed when using Kunming mice. But the molecular genetic profiles of Kunming mice and the extent of genetic differentiation among populations are unclear. Fifteen microsatellite markers were screened by a fluorescence-based semi-automated genotyping method for the two main populations of Kunming mice from Beijing (BJ) and Shanghai (SH) in China. The observed number of alleles, effective number of alleles, observed heterozygosity, unbiased expected heterozygosity and Shannon information index were used to estimate the genetic variation within the populations. A total of 89 alleles were detected in the two populations, with two to 12 at each locus, and the mean unbiased expected heterozygosity was 0.5724, which implies that there is abundant genetic variation in the populations of Kunming mice. Population differentiation was shown by shared alleles, F-statistics, Nei genetic distance and Nei genetic identity. In population BJ and population SH, respectively, only 35 of 61 and 35 of 63 alleles were shared by both. The Fst per locus varied from 0.0131 (D2Mit30) to 0.5697 (D7Mit281) and the average Fst of all loci was 0.1433, which indicates moderate genetic differentiation between the two Kunming mouse populations. The differences were also observed by Nei's [Genetic distance between populations. Am Nat 1972;106:283-92](1) genetic distance (0.3987) and Nei's [Estimation of average heterozygosity and genetic distance from a small number of individuals. Genetics 1978;89:583-90](2) unbiased measures of genetic distance (0.3881) estimates of subdivision. This research on Kunming mouse genetic diversity will assist in developing a national plan for the unification and standardization of the populations of Kunming mice in China.