Helicobacter pylori-induced mucosal inflammation is Th1 mediated and exacerbated in IL-4, but not IFN-gamma, gene-deficient mice

To elucidate the pathogenesis of Helicobacter pylori-associated gastritis, we studied immune responses of C57BL/6J wild-type (WT), SCID, and gene deficient (IFN-gamma-/- and IL-4-/-) mice following infection with a pathogenic isolate of H. pylori (SPM326). During early infection in WT mice, mononuclear and polymorphonuclear cells accumulated in the gastric lamina propria, and the numbers of cells in the inflamed mucosa expressing IFN-gamma, but not IL-4, mRNA rose significantly (p < 0.005), consistent with a local Th1 response. Splenic T cells from the same infected WT mice produced high levels of IFN-gamma, no detectable IL-4, and low amounts of IL-10 following in vitro H. pylori urease stimulation, reflecting a systemic Th1 response. Infected C57BL/6J SCID mice did not develop gastric inflammation despite colonization by many bacteria. Infected C57BL/10J and BALB/c mice also did not develop gastric inflammation and displayed a mixed Th1/Th2 splenic cytokine profile. These data imply a major role for the Th1 cytokine IFN-gamma in H. pylori-associated gastric inflammation in C57BL/6J mice. Compared with WT animals, infected IL-4-/- animals had more severe gastritis and higher levels of IFN-gamma production by urease-stimulated splenocytes (p < 0.01), whereas IFN-gamma-/- mice exhibited no gastric inflammation and higher levels of IL-4 production by stimulated splenocytes. These findings establish C57BL/6J mice as an important model for H. pylori infection and demonstrate that up-regulated production of IFN-gamma, in the absence of the opposing effects of IL-4 (and possibly IL-10), plays a pivotal role in promoting H. pylori-induced mucosal inflammation.     

Susceptibility to re-infection in C57BL/6 mice with recombinant strains of Toxoplasma gondii

This work reports results of re-infection of BALB/c and C57BL/6 mice with different recombinant strains of Toxoplasma gondii. Mice were prime-infected with the non-virulent D8 strain and challenged with virulent strains. PCR–RFLP of cS10-A6 genetic marker of T. gondii demonstrated that BALB/c mice were re-infected with the EGS strain, while C57BL/6 mice were re-infected with the EGS and CH3 strains. Levels of IFN-γ and IL-10 after D8 prime-infection were lower in C57BL/6 than in BALB/c mice. Brain inflammation after D8 prime-infection was more intense in C57BL/6 than in BALB/c mice. It was shown that re-infection depends on mice lineage and genotype of the strain used in the challenge.     

Host-specific differences in the physiology of acid secretion related to prostaglandins may play a role in gastric inflammation and injury

Immune mediators are involved in strain-specific manifestations of Helicobacter pylori infection, and the type of immune response is associated with production of PGE(2), which in turn influences gastric acid secretion. Acid secretion plays a pivotal role, not only in the pattern of H. pylori-induced gastritis and its consequences, but also in nonsteroidal anti-inflammatory drug (NSAID)-induced gastropathies. Mice and their transgenic modifications are widely used in Helicobacter and eicosanoid research. Using [(14)C]aminopyrine accumulation and pylorus ligation, we aimed to study acid secretion in gastric gland preparations from the commonly used strains of BALB/c and C57BL/6 mice. We found that PGE(2) does not inhibit acid secretion in gastric glands from C57BL/6 mice, in contrast to the expected antisecretory effect of PGE(2) observed in BALB/c mice. In BALB/c mice the effect of histamine and carbachol was reduced by PGE(2), whereas in C57BL/6 mice dose-response curves to these secretagogues were not affected. EP(3) receptors are not involved in acid secretion in C57BL/6 mice, as confirmed by significantly lower expression of mRNA for the EP(3) receptor. These contrary findings are important to the interpretation of the antisecretory role of eicosanoids in BALB/c and C57BL/6 mouse strains and the involvement of prostanoids in the etiology of Helicobacter-induced inflammation and NSAID-induced gastropathies. We propose that the lack of antisecretory effect of PGE(2) observed in C57BL/6 mice could reflect the extent of Helicobacter-induced inflammation and status of acid secretion in response to anti-inflammatory drugs.     

In vivo study of toxoplasmic parasitemia using interferon-gamma-deficient mice: absolute cell number of leukocytes, parasite load and cell susceptibility

Toxoplasma gondii infection was induced in wild type (WT) C57BL/6 and BALB/c mice and same-background interferon-γ knockout (GKO) mice by peroral inoculation of Fukaya strain cysts. We studied parasitemia, absolute cell number of leukocytes, and cell susceptibility in peripheral blood leukocyte (PBL) subsets in vivo. Parasitemia was observed in both WT and GKO mice, although the pattern of the parasite load was totally different among them. After infection, the absolute number of neutrophils in peripheral blood increased in both GKO C57BL/6 and GKO BALB/c mice with statistical significance, while it rose up slightly in susceptible WT C57BL/6 mice, but declined moderately in resistant WT BALB/c mice. The absolute number of lymphocytes in both WT and GKO mice decreased significantly after infection. Although leukocyte number per μl decreased significantly in both strains of WT mice, it increased in GKO BALB/c mice. There were no differences in susceptibility of PBL subsets to T. gondii infection as assessed by quantitative competitive polymerase chain reaction in both WT and GKO mice. These results indicate that each of the PBL subsets was infected in vivo. The increase of neutrophils only among immunocompromised or susceptible strains suggests that the neutrophil may be involved in the lethal process of T. gondii infection. The lack of any difference in cell susceptibility per μg gDNA among the PBL subsets examined implies that the neutrophil may contribute to the whole body dissemination process of the parasite in vivo more than other PBL subsets through the increase in number.     

Helicobacter sp. MIT 01-6451 infection during fetal and neonatal life in laboratory mice

Helicobacter sp. MIT 01-6451 has been detected in SPF mice kept in Japan. To characterize strain MIT 01-6451, its infection route during fetal and neonatal life and effects on pregnancy were investigated using immunocompetent and immunodeficient mouse strains (BALB/c, C57BL/6, and SCID). MIT 01-6451 was detected in the uterus, vagina, and mammary glands of 50% of infected SCID mice, whereas these tissues were all negative in immunocompetent mice. No fetal infections with MIT 01-6451 were detected at 16–18 days after pregnancy in any mouse strain. In newborn mice, MIT 01-6451 was detected in intestinal tissue of C57BL/6 and SCID mice at 9–11 days after birth, but not in BALB/c mice. The IgA and IgG titers to MIT 01-6451 in sera of C57BL/6 female mice were significantly lower than those of BALB/c mice. Although no significant differences in the number of newborns per litter were observed between MIT 01-6451-infected and MIT 01-6451-free dams, the birth rate was lower in infected SCID mice than in control SCID mice. The present results indicated that MIT 01-6451 infects newborn mice after birth rather than by vertical transmission to the fetus via the placenta and that MIT 01-6451 infection shows opportunistically negative effects on the birth rate. In addition, the maternal immune response may affect infection of newborn mice with MIT 01-6451 through breast milk.     

Strain-specific effects of riboflavin supplementation on zymosan-induced peritonitis in C57BL/6J, BALB/c and CBA mice

AimsWe investigated the effects of riboflavin (vitamin B2) on the kinetics of zymosan-induced peritonitis in three strains of mice.Main methodsPeritonitis was induced in males of C57BL/6J, BALB/c and CBA mice by intraperitoneal injection of zymosan (40 mg/kg) or zymosan supplemented with riboflavin (50 mg/kg). During the first 45 min of inflammation the pain symptoms were scored. At the selected time points (4, 6, 8, 10, 24, and 30 h) the mice were sacrificed and peritoneal exudates were retrieved. Leukocytes, among them polymorphonuclear cells (PMNs) and macrophages (Mac3⁺ cells) were counted. Levels of inducible nitric oxide synthase (iNOS) were measured in cell pellets while supernatants were used for measurements of nitric oxide, cytokine/chemokines (IL-6, IL-10, MCP-1, IFNγ, TNF-α, and IL-12p70), and matrix metalloproteinase-9 (MMP-9).Key findingA riboflavin ip injection induced pain symptoms itself, but reduced zymosan-induced pain in C57BL/6J and CBA strains of mice when coinjected with zymosan. In comparison with the mice injected with zymosan only, riboflavin coinjection prolonged inflammation in C57BL/6J mice due to prolonged macrophage accumulation; inhibited peritoneal leukocytes (PTL) accumulation in BALB/c due to inhibited influx of macrophages and PMNs; and inhibited PTL accumulation in CBA mice due to delayed PMN influx. These effects corresponded with the delayed (C57BL/6J) or inhibited (BALB/c and CBA) expression of iNOS in PTL lysates, and with the prolonged (C57BL/6) or inhibited (BALB/c) intraperitoneal accumulation of MMP-9. Moreover, cytokine accumulation was affected in a strain-specific way.SignificanceRiboflavin is antinociceptive during yeast-induced peritonitis, but its anti-inflammatory effects are strain-specific.     

The role of interleukin-17 in the Helicobacter pylori induced infection and immunity

Background: Helicobacter pylori infection is regarded as the major cause of various gastric diseases and induces the production of several cytokines including interleukin‐17 (IL‐17) recently recognized as an important player in the mammalian immune system. Objective: This review deals with the role of IL‐17 on the H. pylori‐induced infection and immunity in humans and experimental animals. Results: H. pylori infection increases IL‐17 in the gastric mucosa of humans and experimental animals. In humans, IL‐17 induces the secretion of IL‐8 by activating the ERK 1/2 MAP kinase pathway and the released IL‐8 attracts neutrophils promoting inflammation. IL‐23 is increased in patients with H. pylori‐related gastritis and regulates IL‐17 secretion via STAT3 pathway. Studies in H. pylori‐infected mice indicate that IL‐17 is primarily associated with gastric inflammation. The early events in the immune response of immunized and challenged mice include the recruitment of T cells and the production of IL‐17. Neutrophil attracting chemokines are released, and the bacterial load is considerably reduced. IL‐17 plays a dual role in infection and vaccination. In infection, T regulatory cells (Tregs) suppress the inflammatory reaction driven by IL‐17 thereby favoring bacterial persistence. Immunization produces Helicobacter‐specific memory T‐helper cells that can possibly alter the ratio between T‐helper 17 and Treg responses so that the IL‐17‐driven inflammatory reaction can overcome the Treg response leading to bacterial clearance. Conclusion: IL‐17 plays an important role in H. pylori‐related gastritis and in the reduction of Helicobacter infection in mice following immunization.     

Effects of myeloid differentiation primary response gene 88 (MyD88) activation on Helicobacter infection in vivo and induction of a Th17 response

Background:  Helicobacter pylori is a spiral‐shaped Gram‐negative microaerophilic bacterium associated with a number of gastrointestinal disorders, including gastritis, peptic ulcers, and gastric cancer. Several studies have implicated a Th17 response as a key to protective immunity against Helicobacter. Materials and Methods:  Wild type (WT) and MyD88‐deficient (MyD88^?/?) mice in the C57BL/6 background were infected with H. felis for 6 and 25 weeks and colonization density and host response evaluated. Real‐time PCR was used to determine the expression of cytokines and antimicrobial peptides in the gastric tissue of mice. Results:  mRNA expression levels of the Th17 cytokines interleukin‐17A (IL‐17A) and IL‐22 were markedly up‐regulated in WT compared with MyD88^?/? mice both at 6 and at 25 weeks in response to infection with H. felis, indicating that induction of Th17 responses depends on MyD88 signaling. Furthermore, reduction in the expression of Th17‐dependent intestinal antimicrobial peptide lipocalin‐2 was linked with increased bacterial burden in the absence of MyD88 signaling. Conclusion:  We provide evidence showing that MyD88‐dependent signaling is required for the host to induce a Th17 response for the control of Helicobacter infection.     

Dimethylnitrosamine metabolism: II. In vitro activation of dimethylnitrosamine by hepatic and renal tissues from crosses among BALB/c, DBA and C57BL mice

Crosses among BALB/c, C57BL and DBA mice were performed to investigate the genetic mechanisms involved in metabolism of DMN by renal and hepatic tissues. Liver S-9 fractions from parental strain DBA had the greatest potential to activate DMN and liver fractions from parental strain BALB/c had the lowest. No age or sex-related differences were observed within strain. Crossing of either C57BL or DBA to BALB/c mice resulted in F1 hybrids with liver microsomal enzymes that gave results similar to the BALB/c parental strain. There were no sex or age differences within crossbred strains in the potential of liver to activate DMN. In contrast male DBA and C57BL parental mice renal S-9 fractions did not differ significantly from each other but did differ significantly from male BALB/c renal fractions and from female and immature animals of all strains. Crossing of either DBA or C57BL mice with BALB/c mice resulted in male F1 hybrids whose renal S-9 fractions did not differ significantly from males of the parental BALB/c strain. In all instances, male renal S-9 fractions had a significantly greater potential to activate DMN than female or immature animals. F1 DBA X C57BL hybrids had renal S-9 fractions that did not differ significantly from the parental strains. These data suggest that the gene(s) for low DMN metabolism of BALB/c mice are apparently dominant over the genes from both DBA and C57BL. The exact genetic or physiological mechanism needs further elucidation.     

No recombinations between Tcra-V and Tcra-C gene segments in 669 backcross mice

Because T-cell receptor (Tcr) genes may possibly function as non-major histocompatibility complex (MHC) immune response genes or predispose for autoimmune diseases, it is important to know how these genes are inherited. We found that Bgl I-digested DNA of BALB/c, C3H, DBA/2, and C57BL/6 exhibited restriction enzyme fragment length polymorphisms (RFLPs) for the Tcra-V1, Tcra-V2, Tcra-V4, Tcra-V6, Tcra-V7, Tcra-V8, Tcra-V11, Tcra-122, Tcra-V13, and Tcra-C gene segments. Inheritance of these RFLPs in 669 offspring from (BALB/c × C57BL/6) × BALB/c, (BALB/c × C57BL/6) × C57BL/6, (C57BL/6 × DBA2) × DBA/2, and (C57BL/6 × C3H) × C3H backcrosses was studied. Since we did not find any recombinations in the offspring, Tcra-V and Tcra-C gene segments are tightly linked and inherited as a haplotype. A peculiar finding was that 22 out of 103 (BALB/c × C57BL/6) × BALB/c offspring, heterozygous for Tcra-C, had deleted a C57BL/6 Tcra-V1 band as well as Tcra-V2 and Tcra-V4 bands. As will be discussed, this deletion is probably caused by heterogeneity in the C57BL/6 breeding stock of a commercial supplier. In seven BXD and BXH recombinant inbred strains with known recombinations between the Tcra-C and Es-10 loci, all Tcra-V RFLPs cosegregated with the Tcra-C RFLP. This finding agrees with the conclusion from our backcross studies; namely that Tcra-V and Tcra-C gene segments are tightly linked.     

Noncoding variations in Cyp24a1 gene are associated with Klotho‐mediated aging phenotypes in different strains of mice

In mutant mice, reduced levels of Klotho promoted high levels of active vitamin D in the serum. Genetic or dietary manipulations that diminished active vitamin D alleviated aging‐related phenotypes caused by Klotho down‐regulation. The hypomorphic Klotho [kl/kl] allele that decreases Klotho expression in C3H, BALB/c, 129, and C57BL/6 genetic backgrounds substantially increases 1,25(OH)2D3 levels in the sera of susceptible C3H, BALB/c, and 129, but not C57BL/6 mice. This may be attributed to increased basal expression of Cyp24a1 in C57BL/6 mice, which promotes inactivation of 1,25(OH)2D3. Decreased expression of Cyp24a1 in susceptible strains was associated with genetic alterations in noncoding regions of Cyp24a1 gene, which were strongly reminiscent of super‐enhancers that regulate gene expression. These observations suggest that higher basal expression of an enzyme required for catabolizing vitamin D renders B6‐kl/kl mice less susceptible to changes in Klotho expression, providing a plausible explanation for the lack of aging phenotypes on C57BL/6 strain.     

Submucosal gland distribution in the mouse has a genetic determination localized on Chromosome 9

Submucosal glands (SMG) are important secretory glands that are present in the major airways and bronchioles of humans. In mice the structure, cellular composition, and density of SMG are similar to those seen in humans, but the glands are present only in the trachea. Characterization of SMG is important as they secrete bacteriocidal products such as lactoferrin, lysozyme, and defensins believed to be of importance in the innate defense system. Serous cells in SMG are the primary site of cystic fibrosis transmembrane conductance regulator (CFTR) gene expression and the initial site of histological abnormality in cystic fibrosis (CF) individuals. In this study, we examined four inbred strains of mice (A/J, C57BL/6N, FVB/N, and BALB/CAnN) and revealed that the extent to which glands descend in the mouse trachea varied between inbred strains. In particular, the A/J and C57BL/6N strains exhibited few SMG extending further than the first or second intercartilaginous space (mean depth of 0.4 ± 0.11 and 1.5 ± 0.32 tracheal rings respectively) in the trachea, whereas the FVB/N and BALB/CAnN strains had SMG extending beyond the fourth space (mean depths of 3.3 ± 0.46 and 5.6 ± 0.45 rings respectively). We have previously shown that in congenic C57Bl/6N Cftr mutant mice (CF mice), the SMG are distributed more distally than in wild-type C57Bl/6N but are indistinguishable from BALB/CAnN wild-type or CF mice. The implication that SMG distribution is influenced by Cftr gene expression (or a gene closely linked to Cftr) led us to investigate the genetic difference between C57Bl6/N and BALB/CAnN mice. In recombinant inbred strain (RIS) analysis (with BALB/CJ and C57BL/6J progenitors), two loci were identified as being linked to the SMG phenotype (peak likelihood statistic levels of 8.8 and 9.9 on Chrs 9 and 10 respectively, indicating suggestive linkage). A subsequent segregation analysis of an F₂ intercross between the C57BL/6N and BALB/CAnN mice indicated that there were at least two major genetic factors responsible for SMG distribution. The loci indicated in the RI analysis were included in a targeted genome scan involving 235 F₂ intercross animals (C57BL/6N and BALB/CAnN strain intercross). The genome scan confirmed the locus on Chr 9 (between genetic markers D9Mit11 and D9Mit182), designated Smgd1, as significantly linked to the SMG distribution phenotype (peak LOD score 5.8) within a 95% confidence interval of 12 cM. Received: 26 June 2000 / Accepted: 18 September 2000     

Colonization and tissue tropism of Helicobacter pylori and a novel urease-negative Helicobacter species in ICR mice are independent of route of exposure

Background. In humans, Helicobacter pylori is known to colonize the stomach and to induce persistent gastritis; selected reports also suggest it causes extragastric disease, including hepatitis. H. pylori and a novel urease-negative Helicobacter sp. induce gastritis and typhlocolitis, respectively, when inoculated orally into mice. Experimental typhlocolitis and hepatitis have been caused by intraperitoneal (IP) injection of H. hepaticus, H. bilis, and the novel Helicobacter spp. However, the route by which IP-inoculated organisms localize to specific areas of the gastrointestinal system is unknown. Materials and Methods. To determine whether Helicobacter spp. can be isolated from blood, can preferentially colonize specific tissues, and can cause pathological changes, we inoculated 6-week-old outbred mice orally or intraperitoneally with H. pylori or a novel Helicobacter sp. Results. When these mice were inoculated by the IP route, H. pylori was cultured from lungs, spleen, liver, cecum, and stomach on day 1 after inoculation, from liver and stomach mucosa on day 3 after inoculation, and from the stomach on day 30 after inoculation, suggesting preferential colonization of the stomach. After inoculation by the IP route, the novel intestinal Helicobacter sp. was cultured from the blood, lungs, spleen, liver, kidneys, cecum, and feces but not from stomach mucosa on day 1 after inoculation. By day 30 after inoculation, the novel Helicobacter sp. was cultured from cecum and feces only, suggesting that it had preferentially colonized the lower bowel. By the IP route, the novel Helicobacter sp. induced hepatitis that persisted for 30 days after inoculation. Though mice inoculated intraperitoneally with H. pylori developed an acute hepatitis, the liver lesion began to resolve 30 days after inoculation. Mice inoculated orally with either H. pylori or the novel Helicobacter sp. did not have hepatitis on day 30 after inoculation but developed 100% colonization of stomach and cecum, respectively. Conclusion. The isolation of H. pylori and the novel Helicobacter sp. from multiple tissues infers that a transient helicobacter bacteremia occurs when Helicobacter spp. are injected intraperitoneally, but organisms are cleared rapidly from nontarget tissues and preferentially colonize specific regions of the gastrointestinal tract.     

Importance of the host genetic background on immune responses to Helicobacter pylori infection and therapeutic vaccine efficacy

In order to investigate the role of host factors in Helicobacter pylori infection and immunity, two different strains of inbred mice, C57BL/6 and BALB/c, were infected with a standard H. pylori strain, SS1. A month later, infected mice were immunized orally with whole-cell lysates of H. pylori SS1 and cholera toxin on days 1, 3, 6, 30, and 54. Ten days after the last immunization, mice were sacrificed and the stomach was collected to assess H. pylori colonization density by quantitative culture. H. pylori SS1 colonization was significantly greater in C57BL/6 than in BALB/c (P<0.02 and P<0.003 at 2 and 13 weeks post-inoculation, respectively). Colonization in C57BL/6 persisted at equivalent levels for 13 weeks but the colonization density in BALB/c decreased significantly during this period. In contrast to the pattern of bacterial colonization, antibody responses following H. pylori SS1 infection were greater in BALB/c than in C57BL/6, suggesting that host factors may modulate the immune responses to H. pylori infection. Following therapeutic immunization, H. pylori colonization in BALB/c mice was also significantly reduced (P<0.03), while no significant differences in bacterial density were observed in C57BL/6. These observations collectively demonstrate the great importance of host factors in H. pylori infection and the development of effective immune responses.     

Gastric Pit Cell Hyperplasia and Glandular Atrophy in Carbonic Anhydrase IX Knockout Mice: Studies on Two Strains C57/BL6 and BALB/C

Carbonic anhydrase (CA) isoenzyme IX is a hypoxia-inducible enzyme, which is expressed in the human and rodent gastrointestinal tract and overexpressed in several different tumors. Functionally, it has probably an effect on proliferation and differentiation of gastrointestinal epithelial cells. It may also participate in gastric morphogenesis, since a recent study has shown gastric pit cell hyperplasia and glandular atrophy in CA IX-knockout mice. However, it is not known whether CA IX produces morphological changes in the gastric mucosa, which can turn into a dysplasia or malignancy in the presence of some carcinogenic factors. High-salt diet is considered such a factor which has been shown to modulate Helicobacter pylori-associated carcinogenesis. We produced two strains of CA IX-knockout mice, C57/BL6 and BALB/c, and the mice ate either standard or high-salt feed for 20 weeks. Stomach samples were collected from 40 Car9^−/− knockout mice and 37 wildtype littermates, and the tissue sections were examined for histology. CA IX-deficiency caused gastric pit cell hyperplasia and glandular atrophy in both BALB/c and C57/BL6 strains. Excess dietary salt had no significant effect on the severity of pit cell hyperplasia. No dysplasia was found in any of the groups. In C57/BL6 mice, CA IX-deficiency was associated with gastric submucosal inflammation. The results indicate that CA IX-deficiency provides a useful model to study the mechanisms of gastric morphogenesis and epithelial integrity. Further studies are needed to see whether CA IX has a role in the regulation of immune response. The findings suggest that although CA IX-deficiency is not a tumor-promoting factor per se, it induces glandular atrophy in the body mucosa, a lesion which is considered to be a preneoplastic alteration in the stomach.     

Presence of gastric Helicobacter species in children suffering from gastric disorders in Southern Turkey

Background

Infections with gastric Helicobacter spp. are associated with gastritis, peptic ulceration, and malignancies. Helicobacter pylori is the most prevalent Helicobacter species colonizing the human stomach. Other gastric non‐H. pylori helicobacters (NHPHs) have been described in 0.2%‐6% of human patients with gastric disorders. Nevertheless, due to difficulties in the diagnosis of NHPH infections and lack of routine screening, this is most likely an underestimation of their true prevalence. To the best of our knowledge, no studies have been performed in the presence of Helicobacter spp. in children suffering from gastric disorders in Southern Turkey.

Materials and methods

In total, 110 children with gastric complaints were examined at the Cukurova University Balcali hospital, Turkey. Gastroscopy was performed to evaluate the presence of gastric mucosal lesions. Biopsies of the pyloric gland zone were taken for histopathological analysis, rapid urease testing, and presence of Helicobacter spp. DNA by PCR.

Results

Based on the PCR results, the prevalence of Helicobacter spp. was 32.7% (36/110). H. pylori was found in 30.9% (34/110), H. suis in 1.8% (2/110), and H. heilmannii/H. ailurogastricus in 0.9% (1/110) of the human patients. A mixed infection with H. pylori and H. suis was present in one patient. The presence of mucosal abnormalities, such as nodular inflammation, ulceration, and hyperemia, as well as gastritis, was significantly higher in Helicobacter spp. positive patients.

Conclusion

Helicobacter pylori, H. suis, and H. heilmannii/H. ailurogastricus were present in children with gastric complaints. Infection with these pathogens may be involved in the development of gastritis and ulceration.     

Influence of long-term treatment with pravastatin on the survival, evolution of cutaneous lesion and weight of animals infected by Leishmania amazonensis

The high toxicity of current drugs for treatment of leishmaniasis is a major hindrance for controlling the disease. Pravastatin is a well-known drug with anti-inflammatory and immunomodulatory properties that may modulate host defense mechanisms against Leishmania. We evaluated the influence of prolonged pravastatin treatment on the survival of Leishmania amazonensis-infected animals (BALB/c, C57BL6 mice and Syrian hamsters), including weekly measurement of cutaneous lesions (footpad thickness) and weight. Pravastatin improved survival of Leishmania-infected BALB/c mice but not of infected C57BL6 mice or hamsters. On the 50th week of follow-up, 71% of pravastatin-treated Leishmania-infected BALB/c mice were alive against 29% of control group (p < 0.01). Low footpad thickness was found on BALB/c pravastatin treated mice from the 14th week (p < 0.05), and 20th week onward for C57BL6 treated mice. Pravastatin treatment decreased weight loss in Leishmania-infected C57BL6 mice and Syrian hamsters, but not infected BALB/c mice. Our results points to beneficial effects of pravastatin on the evolution of the disease in the murine leishmaniasis model.     

The immunoglobulin <Emphasis Type="Italic">IGHD</Emphasis> gene locus in C57BL/6 mice

Four immunoglobulin heavy chain diversity (IGHD) gene subgroups (DFL16, DSP2, DQ52, and DST4) have been identified previously in BALB/c mice. Although the locations of most IGHD genes have been established based on restriction map and Southern blot analysis, a complete mouse IGHD gene locus map at the sequence level is still not available. In addition, a previous restriction fragment length polymorphism study suggested that significant difference in the IGHD gene locus exists between C57BL/6 and BALB/c mice. The author has now analyzed the C57BL/6 mouse genomic data and established a complete map of the IGHD gene locus. All four IGHD subgroups previously identified in BALB/c mice were found to be present in C57BL/6 mice. However, unlike the BALB/c mice, which have at least 13 IGHD genes, the C57BL/6 genome contains only ten IGHD genes, which include one DFL16, six DSP2, one DQ52, and two DST4 genes. There are also differences in the coding regions of the DST4 and DQ52 genes between the two mouse strains.     

IL‐17 is Involved in Helicobacter pylori‐Induced Gastric Inflammatory Responses in a Mouse Model

Background: Helicobacter pylori (H. pylori) is the major cause of chronic active gastritis and peptic ulcer disease. Recent studies have shown that H. pylori produces various cytokines that are related to neutrophil or mononuclear cell accumulation. Interleukin‐17 (IL‐17) is the founding member of an emerging family of inflammatory cytokines whose biological activities remain incompletely defined. In this study, the contributions of IL‐17 to the induction of gastric inflammation and to the protection from H. pylori infection were investigated using IL‐17 gene‐knockout (IL‐17^?/–) mice. Materials and Methods: IL‐17^?/–and wild‐type C57BL/6 mice were challenged with H. pylori CPY2052 (2 × 10⁸ CFU/mL) and the histological and microbiological evaluation were carried out at specified times. IL‐17 and myeloperoxidase (MPO) protein levels in tissues were assayed in duplicate using ELISA kits. Results: In wild‐type mice, IL‐17 was undetected at baseline; however, the protein expression of IL‐17 was induced after infection with H. pylori. A severe infiltration of neutrophils appeared in the submucosa and the lamina propria in wild‐type mice. In contrast, the degree of neutrophil infiltration in IL‐17^?/– mice was significantly lower than that in wild‐type mice. Although wild‐type mice infected with H. pylori showed drastically higher MPO activity compared with uninfected wild‐type mice, any significant increase in the enzyme activity was not revealed in infected IL‐17^?/– mice. The number of H. pylori colonized in the stomach of IL‐17^?/– mice was significantly lower than that of wild‐type mice from 1 to 6 months after infection. Conclusions: These results suggest that IL‐17 may play an important role in the inflammatory response to the H. pylori infection and ultimately influence the outcome of the H. pylori‐associated disease.     

Helicobacter suis causes severe gastric pathology in mouse and mongolian gerbil models of human gastric disease

Background

“Helicobacter (H.) heilmannii” type 1 is the most prevalent gastric non-H. pylori Helicobacter species in humans suffering from gastric disease. It has been shown to be identical to H. suis, a bacterium which is mainly associated with pigs. To obtain better insights into the long-term pathogenesis of infections with this micro-organism, experimental infections were carried out in different rodent models.

Methodology/Principal Findings

Mongolian gerbils and mice of two strains (BALB/c and C57BL/6) were infected with H. suis and sacrificed at 3 weeks, 9 weeks and 8 months after infection. Gastric tissue samples were collected for PCR analysis, histological and ultrastructural examination. In gerbils, bacteria mainly colonized the antrum and a narrow zone in the fundus near the forestomach/stomach transition zone. In both mice strains, bacteria colonized the entire glandular stomach. Colonization with H. suis was associated with necrosis of parietal cells in all three animal strains. From 9 weeks after infection onwards, an increased proliferation rate of mucosal epithelial cells was detected in the stomach regions colonized with H. suis. Most gerbils showed a marked lymphocytic infiltration in the antrum and in the forestomach/stomach transition zone, becoming more pronounced in the course of time. At 8 months post infection, severe destruction of the normal antral architecture at the inflamed sites and development of mucosa-associated lymphoid tissue (MALT) lymphoma-like lesions were observed in some gerbils. In mice, the inflammatory response was less pronounced than in gerbils, consisting mainly of mononuclear cell infiltration and being most severe in the fundus.

Conclusions/Significance

H. suis causes death of parietal cells, epithelial cell hyperproliferation and severe inflammation in mice and Mongolian gerbil models of human gastric disease. Moreover, MALT lymphoma-like lesions were induced in H. suis-infected Mongolian gerbils. Therefore, the possible involvement of this micro-organism in human gastric disease should not be neglected.