实验树鼩肠道螺杆菌属细菌特征分析

近年来,树鼩(Tupaia belangeri)作为一种新型的实验动物被广泛应用于生物医学研究的各个领域。本研究组前期的研究结果显示,螺杆菌属(Helicobacter)是树鼩肠道微生物群落中相对丰度最高的一类细菌,但其具体的细菌种类和结构特征仍然不清楚。因此,本研究将开展实验树鼩肠道中螺杆菌属细菌的分布种类和特征分析,为后续实验研究工作提供资料。通过系统采集72只树鼩的粪便样本,提取核酸后采用巢氏PCR法应用属特异性引物扩增螺杆菌属特异性片段,再分别采用7个种特异性引物对属特异性阳性样本扩增螺杆菌种特异性片段,包括肝螺杆菌(H.hepaticus)、家鼠螺杆菌(H.muridarum)、胆汁螺杆菌(H. bilis)、啮齿类螺杆菌(H. rodentium)、弯曲螺杆菌(Flexispira rappini)、鼩螺杆菌(H. suncus)和盲肠螺杆菌(H. typhlonius)。属特异性引物扩增阳性但种引物扩增阴性的样本进行核酸序列测定和BLAST比对分析,确认其最终所属的螺杆菌种类。结果显示,72份树鼩粪便样本中,属特异性引物扩增阳性有18份,总体阳性率为25.0%。其中,盲肠螺杆菌阳性8株、胆汁螺杆菌阳性6株,其余8份阳性样本经过测序和BLAST比对分析后确认为同性恋螺杆菌(H. cinaedi)阳性5株、猫螺杆菌(H. felis)阳性2株和猕猴螺杆菌(H. macacae)阳性1株。有4份树鼩粪便样本出现同时携带盲肠螺杆菌和胆汁螺杆菌的情况。将螺杆菌属细菌携带结果与实验树鼩的性别和年龄组进行比较分析后发现,不同性别间以及不同年龄组间,属或种阳性样本情况均无差异(P 0.05)。本研究结果表明,实验树鼩具有较高的螺杆菌携带率,且不分性别和年龄,主要以盲肠螺杆菌、胆汁螺杆菌和同性恋螺杆菌为主。     

Immunoblot Analysis as an Alternative Method to Diagnose Enterohepatic Helicobacter Infections

Introduction: Enterohepatic Helicobacter species have been associated with chronic infections of the hepatobiliary tract and lower bowel in naturally and experimentally infected mice, Helicobacter -infected animals should thus not be used in studies of diseases associated with chronic inflammation. Helicobacter species induce inflammation and modulate host immune responses, thus emphasizing the need to diagnose these infections in laboratory animals.
Materials and Methods: An immunoblot assay was developed to analyze antibodies to enterohepatic Helicobacter species in naturally colonized laboratory mouse colonies. We evaluated the serum antibody responses to cell surface proteins of H. bilis, H. hepaticus , and H. ganmani in 188 mouse sera from four different university animal facilities. Lower bowel tissue specimens from 56 of these animals were available and analyzed by polymerase chain reaction-denaturing gradient gel electrophoresis (PCR-DGGE) and the results compared with matched immunoblot patterns.
Results: Specific antibody reactivity to H. bilis was detected in 8 of 186 (4.3%) sera, to H. hepaticus in 45 of 184 (24%) sera, and to H. ganmani in 51 of 188 (27%) of tested sera. These results were compared with PCR-DGGE analyses of tissue samples of corresponding animals, and concordance between the two diagnostic tests was found in 96% for H . bilis , in 91% for H. hepaticus, and in 82% for H. ganmani . The PCR-DGGE also detected DNA of H. typhlonius, H. sp. flexispira, and H. rodentium .
Conclusions: Infection with enterohepatic species was common in the laboratory mouse colonies tested, independent of strain and stock. Immunoblot analysis seems to be a promising diagnostic tool to monitor enterohepatic Helicobacter species infections of laboratory rodents.     

Eradication of Helicobacter bilis and H. hepaticus from infected mice by using a medicated diet

Infection of laboratory mice with Helicobacter spp. is a serious problem for many laboratory animal facilities worldwide. Rederivation and antibiotic treatment are two of the most common methods used to eliminate the bacterial infection from rodent colonies. Forty-seven newly imported mice were suspected to be positive for Helicobacter infection based on PCR analysis of pooled fecal samples from sentinel animals. We treated the mice with a medicated feed containing four antibiotic compounds (amoxicillin, clarithromycin, metronidazole, omeprazole). After eight weeks of continuous administration the animals were negative for H. bilis and H. hepaticus. Frequent retesting of the animals for up to one year proved that the mouse colony remained negative for Helicobacter spp.     

Detection of Helicobacter hepaticus in Human Bile Samples of Patients with Biliary Disease

Background:  Since the discovery of Helicobacter pylori , various enterohepatic Helicobacter spices have been detected in the guts of humans and animals. Some enterohepatic Helicobacters have been associated with inflammatory bowel disease or liver disease in mice. However the association of these bacteria with human diseases remains unknown.
Materials and Methods:  We collected 126 bile samples from patients with cholelithiasis, cholecystitis, gallbladder polyp, and other nonbiliary diseases. Samples were screened for the presence of enterohepatic Helicobacter spp. using cultures, nested PCR, or in situ hybridization. We tested for antibodies to H. pylori and H. hepaticus by Western blot analysis.
Results:  Attempts at cultivation were unsuccessful. However, H. hepaticus was detected in bile samples with nested PCR whereas H. bilis was not. Helicobacter hepaticus in the bile was confirmed by in situ hybridization, but H. hepaticus from bile samples was coccoid in appearance. We detected immunoglobulin G antibodies to H. hepaticus in bile samples by Western blotting. Helicobacter hepaticus was detected in 40 (32%) of total 126 samples as H. hepaticus positive if at least one of the three methods with nested PCR, in situ, or Western blotting. Patients with cholelithiasis (41%) and cholecystitis with gastric cancer (36%) had significantly higher ( p  = .029) prevalence of H. hepaticus infection than samples from patients with other diseases.
Conclusion:  Helicobacter hepaticus may closely associate with diseases of the liver and biliary tract in humans.     

Detection of rodent parvoviruses by use of fluorogenic nuclease polymerase chain reaction assays

Polymerase chain reaction (PCR) assays have proven useful for detection of rodent parvoviruses in animals and contaminated biological materials. Fluorogenic nuclease PCR assays combine PCR with an internal fluorogenic hybridization probe, eliminating post-PCR processing and potentially enhancing specificity. Consequently, three fluorogenic nuclease PCR assays were developed, one that detects all rodent parvoviruses, one that specifically detects minute virus of mice (MVM), and one that specifically detects mouse parvovirus 1 (MPV) and hamster parvovirus (HaPV). When rodent parvoviruses and other rodent DNA viruses were evaluated, the rodent parvovirus assay detected only rodent parvovirus isolates, whereas the MVM and MPV/HaPV assays detected only the MVM or MPV/ HaPV isolates, respectively. Each assay detected the equivalent of 10 or fewer copies of target template, and all fluorogenic nuclease PCR assays exceeded the sensitivities associated with previously reported PCR assays and mouse antibody production testing. In addition, each fluorogenic nuclease PCR assay detected the targeted parvovirus DNA in tissues obtained from mice experimentally infected with MVM or MPV. Results of these studies indicate that fluorogenic nuclease PCR assays provide a potentially high-throughput, PCR-based method to detect rodent parvoviruses in infected mice and contaminated biological materials.     

Occurrence of Helicobacter species other than H. hepaticus in laboratory mice and rats in Sweden

The aim of this study was to determine which Helicobacter species other than H. hepaticus colonize laboratory mice and rats in Sweden. We analyzed 63 intestinal samples from mice and 42 intestinal samples from rats by partial 16S rDNA sequence analysis. Previously these samples had been found positive for Helicobacter species but negative for H. hepaticus in a polymerase chain reaction screening assay at the National Veterinary Institute in Sweden. H. ganmani, H. typhlonius, H. rodentium, an uncharacterized Helicobacter species ('hamster B'), and a possibly novel species were detected in mice. The possibly novel species was most closely related to H. apodemus strain YMRC 000216 (98.3% sequence similarity). Two different Helicobacter species were detected in rats: H. ganmani and H. rodentium. H. ganmani colonization of rats has not previously been reported.     

Could Helicobacter organisms cause inflammatory bowel disease?

The discovery of Helicobacter pylori sparked a revolution in the understanding and management of peptic ulcer disease and gastric cancer. Other Helicobacter species are recognized as important pathogenic agents in colitic diseases of rodents and primates, in particular Helicobacter bilis, Helicobacter fennelliae, Helicobacter hepaticus and Helicobacter trogontum. Helicobacter bilis and H. hepaticus are now routinely used to initiate rodent models of inflammatory bowel disease (IBD), particularly in immunocompromised hosts. Molecular evidence exists linking various non-pylori Helicobacter spp. with human IBD; however, attempts to culture organisms in this disease cohort have proved unsuccessful to date. Attributing causation has therefore proved elusive. Seven enterohepatic, non-pylori Helicobacter organisms have been successfully cultured from humans, namely Helicobacter canadensis, Helicobacter canis, Helicobacter cinaedi, H. fennelliae, Helicobacter pullorum, Helicobacter winghamensis and Helicobacter sp. flexispira taxon 8 (now classified as H. bilis). Of these, H. cinaedi and H. fennelliae are the closest to fulfilling Koch's postulates as causative agents in homosexual proctitis. The possibility that novel Helicobacter organisms have a role in the initiation of human IBD warrants further consideration and targeted investigations.     

Monitoring a mouse colony for Helicobacter bilis using a Helicobacter-genus-specific nested PCR

Although Helicobacter infections of laboratory mice are usually subclinical, they may interfere with in vivo experiments and thus may lead to misinterpretation of data. As such, it is important to provide a means to unequivocally identify infections with murine Helicobacter spp. In the present study, a nested polymerase chain reaction (PCR) was established and shown to be 10 to 100 times more sensitive than the single-step PCR commonly used for routine diagnosis of Helicobacter spp. Experimental infection of Helicobacter-free mice demonstrated that faeces, caecum, colon and rectum but not liver are equally suitable for the detection of H. bilis. However, use of faecal pellets is advantageous since detection of H. bilis is possible one week after infection and analysis of faeces instead of tissues avoids euthanasia of animals. Furthermore, it generates representative data for all animals housed in the same cage and analysis can be repeatedly performed. Use of samples from breeding pairs but not offspring provides representative information about the Helicobacter status of a mouse colony. Both C3H/HeJ and C57BL/6 mice appear to be susceptible to H. bilis and persistent infection was observed during the 20-week experimental period. Analysis of pooled faecal pellets by nested PCR seems to be the most sensitive approach for H. bilis monitoring of the given breeding colony.     

Use of the P167 recombinant antigen for serodiagnosis of Helicobacter bilis

Helicobacter bilis is widespread among research mouse colonies. Serodiagnosis of Helicobacter infections involves use of bacterial lysates or membrane antigen preparations that lack specificity, necessitating the need to identify a specific and sensitive antigen. A previously reported recombinant protein (P167) was evaluated for use as an H. bilis-specific antigen for serologic testing. Seventy-six mice naturally infected with Helicobacter spp. were identified from commercially bred or sentinel mice. Infection was confirmed and speciated by use of cecal specimen culture and fecal polymerase chain reaction (PCR) analysis, followed by restriction enzyme digest of the amplicon. Forty-one mice were determined to be monoinfected with H. bilis, 27 mice were determined to be monoinfected with H. hepaticus, and eight mice were infected with another species of Helicobacter. Serum was diluted 1:100 to evaluate the immunoreactivity to enzyme-linked immunosorbent assay preparations of H. bilis membrane extract and the immunodominant C and D fragments of the p167 gene. The sensitivity was greatest for the membrane extract preparation (76%), whereas sensitivity to the P167C and D recombinants was lower (62 and 51%, respectively). However, the specificity of the membrane extract preparation was low (87%), compared with the much improved specificity of the recombinant P167C and D fragments (96 and 96%, respectively). These findings suggest that the recombinant P167C and D fragments of the p167 gene product from H. bilis can be used as specific reagents in the serodiagnosis of H. bilis infection in mice.     

Comparative chemical and biological characterization of the lipopolysaccharides of gastric and enterohepatic helicobacters

BACKGROUND: The lipopolysaccharide of Helicobacter pylori plays an important role in colonization and pathogenicity. The present study sought to compare structural and biological features of lipopolysaccharides from gastric and enterohepatic Helicobacter spp. not previously characterized. MATERIALS AND METHODS: Purified lipopolysaccharides from four gastric Helicobacter spp. (H. pylori, Helicobacter felis, Helicobacter bizzozeronii and Helicobacter mustelae) and four enterohepatic Helicobacter spp. (Helicobacter hepaticus, Helicobacter bilis, 'Helicobacter sp. flexispira' and Helicobacter pullorum) were structurally characterized using electrophoretic, serological and chemical methods. RESULTS: Structural insights into all three moieties of the lipopolysaccharides, i.e. lipid A, core and O-polysaccharide chains, were gained. All species expressed lipopolysaccharides bearing an O-polysaccharide chain, but H. mustelae and H. hepaticus produced truncated semirough lipopolysaccharides. However, in contrast to lipopolysaccharides of H. pylori and H. mustelae, no blood group mimicry was detected in the other Helicobacter spp. examined. Intra-species, but not interspecies, fatty acid profiles of lipopolysaccharides were identical within the genus. Although shared lipopolysaccharide-core epitopes with H. pylori occurred, differing structural characteristics were noted in this lipopolysaccharide region of some Helicobacter spp. The lipopolysaccharides of the gastric helicobacters, H. bizzozeronii and H. mustelae, had relative Limulus amoebocyte lysate activities which clustered around that of H. pylori lipopolysaccharide, whereas H. bilis, 'Helicobacter sp. flexispira' and H. hepaticus formed a cluster with approximately 1000-10,000-fold lower activities. H. pullorum lipopolysaccharide had the highest relative Limulus amoebocyte lysate activity of all the helicobacter lipopolysaccharides (10-fold higher than that of H. pylori lipopolysaccharide), and all the lipopolysaccharides of enterohepatic Helicobacter spp. were capable of inducing nuclear factor-Kappa B(NF-kappaB) activation. CONCLUSIONS: The collective results demonstrate the structural heterogeneity and pathogenic potential of lipopolysaccharides of the Helicobacter genus as a group and these differences in lipopolysaccharides may be indicative of adaptation of the bacteria to different ecological niches.     

Enteric lesions in SCID mice infected with "Helicobacter typhlonicus," a novel urease-negative Helicobacter species.

BACKGROUND AND PURPOSE: Several rodent helicobacters have been associated with chronic active hepatitis or inflammatory bowel disease. Severe combined immunodeficient (SCID) mice appear to be inherently susceptible to disease attributable to these emerging pathogens. With the advent of polymerase chain reaction (PCR) analysis, it has become clear that several as yet unidentified Helicobacter species may also colonize rodents, but their capacity to cause disease is unknown. METHODS: A Helicobacter species isolated from feces of a BALB/c mouse and provisionally named "H. typhlonicus" was used to inoculate helicobacter-free 4-week-old SCID mice (n = 11 males and 11 females). At various weeks after inoculation, mice were sacrificed and liver and intestinal specimens were collected for histologic examination and PCR analyses. RESULTS: The C.B-17 scid/scid mice inoculated with "H. typhlonicus" developed moderate to severe proliferative typhlocolitis, similar to that seen in SCID mice infected with H. hepaticus or H. bilis. However, in contrast to mice infected with H. hepaticus or H. bilis, lesions of chronic active hepatitis were not detected in mice inoculated with "H. typhlonicus." A similar disease syndrome developed in SCID mice cohabitated with B6D2F1 mice naturally infected with a novel Helicobacter species that was genetically identical to "H. typhlonicus." CONCLUSION: "Helicobacter typhlonicus" joins a growing list of helicobacters that are capable of inducing enteric disease in immunodeficient mice.     

啮齿动物螺杆菌多重PCR检测方法的建立

目的建立一种可同时检测肝、胆汁、啮齿类三种螺杆菌的多重PCR方法。方法根据已公布的肝、胆汁、啮齿类三种螺杆菌16SrRNA基因序列设计三对特异性引物进行多重PCR并对反应条件进行优化。结果三对引物能分别扩增出特异性的417 bp、364 bp、324 bp目的条带。最佳退火温度为52℃,镁离子浓度为2.0mmol/L,dNTP浓度为200μmol/L,引物浓度为0.625μmol/L。在此条件下多重PCR同时检测的肝、胆汁、啮齿类三种螺杆菌敏感度均为10 fg。结论本实验建立的多重PCR是一种敏感、特异、高效的方法,为同时检测啮齿动物中肝、胆汁、啮齿类三种螺杆菌奠定了良好的基础。     

Immunogenic proteins of Helicobacter pullorum,Helicobacter bilis and Helicobacter hepaticus identified by two-dimensional gel electrophoresis and immunoblotting

The ecological niches occupied by various species of Helicobacter are not yet known and the full spectrum of diseases associated with Helicobacter infections are not yet defined. Since these fastidious microaerofilic bacteria require special growth conditions new and improved molecular and serologic diagnostic methods have been developed to increase our understanding of their pathogenesis and virulence characteristics. Immunogenic cell surface proteins of Helicobacter pullorum, Helicobacter bilis, and Helicobacter hepaticus were characterised by proteomic techniques using two-dimensional electrophoresis and immunoblotting with antisera from immunised rabbits. Cross-reactivity between the three Helicobacter species were analysed after a four-step cross-absorption experiment. For H. pullorum, H. bilis and H. hepaticus 21, 13 and 27 specific immunogenic proteins, respectively, were identified. These proteins could be of important sero-diagnostic value for analyses of sera from humans, laboratory animals and for the veterinarian field.     

Optimal age at fostering for derivation of Helicobacter hepaticus-free mice

Helicobacter hepaticus is well established as an unwanted variable in laboratory rodent colonies. Historically, cesarean section and embryo transfer have been used to derive Helicobacter-free mouse colonies. Neonatal transfer of newborn mice onto Helicobacter-free foster dams was recently reported as an alternative method of deriving Helicobacter-free mice, but until now, the age by which pups must be fostered to remain Helicobacter-free was unknown. The purpose of the study reported here was to determine the age by which mouse pups must be fostered to remain free of H. hepaticus. Beginning on the day of birth, 20 C57BL/6 mice were fostered from H. hepaticus-positive parents onto Helicobacter-free BALB/c dams each day for 14 days for a total of 280 pups fostered. Fecal specimens collected at weaning, and fecal, liver, and cecal specimens collected at euthanasia were analyzed by use of polymerase chain reaction (PCR) analysis. No pup fostered within 24 h of birth became infected with H. hepaticus; however, many of those fostered after 24 h became infected. These results were supported by those of a large field trial, in which 201 litters representing 71 strains of mice were fostered within 24 h of birth. Follow-up fecal PCR analysis was performed on 52 mice or their progeny that were randomly sampled from the 201 fostered litters. All mice tested remained free of H. hepaticus approximately 100 days after fostering. The results indicate that mouse pups must be fostered within 24 h of birth to remain free of H. hepaticus. In addition, cecal and fecal PCR analyses detected more infections, than did liver PCR analysis, thus indicating that those specimens are preferred for detection of H. hepaticus infection.     

Development and use of a simple polymerase chain reaction assay to screen for Helicobacter spp. and H. hepaticus in intestinal and fecal samples from laboratory mice

A simple and sensitive duplex polymerase chain reaction (PCR) assay was developed for use in detection of Helicobacter species and H. hepaticus in laboratory mice. Bacteria were extracted and concentrated from fecal pellets and intestinal segments by use of buoyant density centrifugation. To improve quality assurance, an internal control (mimic) for detection of false-negative reactions was included. In addition, cartridges (Capillette) pre-filled with PCR reagents, were used to minimize the hands-on time required, thus reducing the risk of contamination with previously amplified material. Laboratory mice from Swedish animal houses sent to the National Veterinary Institute for health monitoring were found to have high prevalence of H. hepaticus.     

Successful rederivation of contaminated immunocompetent mice using neonatal transfer with iodine immersion

There is an ongoing need to eradicate intercurrent disease from research mouse colonies. Commonly used surgical methods, however, are expensive and time-consuming. The purpose of this study was to determine the percentage of litters that could be rederived from infected mouse colonies by neonatal transfer. We immersed neonatal mice in a dilute iodine solution and transferred them to disease-free foster mothers within 48 h of birth. Donor and foster mothers were evaluated for pathogens by serology and fecal polymerase chain reaction (PCR) assay. Of 55 donor mothers, 100% were positive serologically and 59% were positive by fecal PCR for one or more tested organisms, including mouse hepatitis virus, Theiler's murine encephalomyelitis virus, mouse rotavirus, and Helicobacter hepaticus. At 4 to 6 weeks after neonatal transfer, 95% of foster mothers (which served as sentinels for the transferred pups) tested free of pathogens, the exceptions being one case of mouse parvovirus 1 and two of Helicobacter spp. We suggest that cross-fostering is a viable low-cost method for rederivation of mouse colonies contaminated with pathogens such as mouse hepatitis virus, Theiler's murine encephalomyelitis virus, mouse rotavirus, and H. hepaticus.     

Helicobacter-induced inflammatory bowel disease in IL-10- and T cell-deficient mice

Inflammatory bowel disease (IBD) is thought to result from a dysregulated mucosal immune response to luminal microbial antigens, with T lymphocytes mediating the colonic pathology. Infection with Helicobacter spp has been reported to cause IBD in immunodeficient mice, some of which lack T lymphocytes. To further understand the role of T cells and microbial antigens in triggering IBD, we infected interleukin (IL)-10(-/-), recombinase-activating gene (Rag)1(-/-), T-cell receptor (TCR)-alpha(-/-), TCR-beta(-/-), and wild-type mice with Helicobacter hepaticus or Helicobacter bilis and compared the histopathological IBD phenotype. IL-10(-/-) mice developed severe diffuse IBD with either H. bilis or H. hepaticus, whereas Rag1(-/-), TCR-alpha(-/-), TCR-beta(-/-), and wild-type mice showed different susceptibilities to Helicobacter spp infection. Proinflammatory cytokine mRNA expression was increased in the colons of Helicobacter-infected IL-10(-/-) and TCR-alpha(-/-) mice with IBD. These results confirm and extend the role of Helicobacter as a useful tool for investigating microbial-induced IBD and show the importance, but not strict dependence, of T cells in the development of bacterial-induced IBD.     

Evaluation of Helicobacter hepaticus bacterial shedding in fostered and sex-segregated C57BL/6 mice

Neonatal fostering has been evaluated as a means of eliminating Helicobacter hepaticus infection in laboratory mouse colonies. The purpose of the present study was to evaluate cross-fostering of neonatal C57BL/6 pups from experimentally infected dams after male-absent parturition and to determine the effects of sex and housing strategy on H. hepaticus populations. Approximately 20 C57BL/6 mice (age, 1 to 4 days) were fostered daily. In all fostered mice, fecal samples collected at 21 and 42 days of age and cecal samples collected at 42 days of age tested negative for H. hepaticus by polymerase chain reaction analysis. Our results demonstrate that removal of the male prior to parturition extends the fostering period to yield Helicobacter-free mice. In a second experiment, the effects of time of infection, housing strategy, and sex on fecal H. hepaticus shedding and cecal colonization were evaluated. Neither time nor housing strategy affected bacterial shedding. In contrast, fecal and cecal bacterial loads were higher in male mice versus female mice. A novel predictive algorithm was developed to predict cecal bacterial colonization levels in light of fecal bacterial loads. Our findings likely will prove useful in Helicobacter eradication efforts and in studies designed to further elucidate the role of H. hepaticus in disease.