Regulation of Th17 cell differentiation by intestinal commensal bacteria

Interleukin (IL)-17-producing CD4 T cells ('Th17 cells') are most abundant at the intestinal mucosa, and play a critical role in the maintenance of mucosal barrier function. Recent studies indicate that accumulation of intestinal Th17 cells depends on stimulation by intestinal commensal bacteria – particularly by segmented filamentous bacterium. In this review, we summarise recent advances in our understanding of the mechanisms of intestinal Th17 synthesis in mice, and discuss their relevance to infectious and inflammatory diseases.

Altered profiles of intestinal microbiota and organic acids may be the origin of symptoms in irritable bowel syndrome

BACKGROUND

The profile of intestinal organic acids in irritable bowel syndrome (IBS) and its correlation with gastrointestinal (GI) symptoms are not clear. We hypothesized in this study that altered GI microbiota contribute to IBS symptoms through increased levels of organic acids.

METHODS

Subjects were 26 IBS patients and 26 age- and sex-matched controls. Fecal samples were collected for microbiota analysis using quantitative real-time polymerase chain reaction and culture methods, and the determination of organic acid levels using high-performance liquid chromatography. Abdominal gas was quantified by image analyses of abdominal X-ray films. Subjects completed a questionnaire for GI symptoms, quality of life (QOL) and negative emotion.

KEY RESULTS

Irritable bowel syndrome patients showed significantly higher counts of Veillonella (P = 0.046) and Lactobacillus (P = 0.031) than controls. They also expressed significantly higher levels of acetic acid (P = 0.049), propionic acid (P = 0.025) and total organic acids (P = 0.014) than controls. The quantity of bowel gas was not significantly different between controls and IBS patients. Finally, IBS patients with high acetic acid or propionic acid levels presented with significantly worse GI symptoms, QOL and negative emotions than those with low acetic acid or propionic acid levels or controls.

CONCLUSIONS & INFERENCES

These results support the hypothesis that both fecal microbiota and organic acids are altered in IBS patients. A combination of Veillonella and Lactobacillus is known to produce acetic and propionic acid. High levels of acetic and propionic acid may associate with abdominal symptoms, impaired QOL and negative emotions in IBS.

Randomized placebo-controlled trial assessing the effect of bifidobacteria-fermented milk on active ulcerative colitis

BACKGROUND

Probiotics are efficacious for treating and maintaining remission of ulcerative colitis.

AIM

To conduct a randomized placebo-controlled trial of bifidobacteria-fermented milk supplementation as a dietary adjunct in treating active ulcerative colitis.

METHODS

Twenty patients with mild to moderate, active, ulcerative colitis randomly received 100 mL/day of bifidobacteria-fermented milk or placebo for 12 weeks with conventional treatment.

RESULTS

Clinical and endoscopic activity indices and histological scores were similar in the two groups before treatment. Although improvements were significant in both groups, the clinical activity index was significantly lower in the bifidobacteria-fermented milk than in the placebo group after treatment. The post-treatment endoscopic activity index and histological score were significantly reduced in the bifidobacteria-fermented milk, but not the placebo group. Increases in faecal butyrate, propionate and short-chain fatty acid concentrations were significant in the bifidobacteria-fermented milk, but not the placebo group. No adverse effects were observed in either group.

CONCLUSION

Supplementation with this bifidobacteria-fermented milk product is safe and more effective than conventional treatment alone, suggesting possible beneficial effects in managing active ulcerative colitis. This is a pilot study and further larger studies are required to confirm the result these preliminary results.

Improvement of human faecal flora-associated mouse model for evaluation of the functional foods

AIMS

Animal models are required for evaluation of the functional foods such as pro/prebiotics exerting effects through the metabolism of the intestinal microflora. The object of this study was to establish new human flora-associated mice reflecting the environment of the human intestinal tract.

METHODS AND RESULTS

We inoculated a human faecal suspension into segmented filamentous bacteria (SFB) monoassociated mice as a model system. In both human flora (HF) and SFB-associated mouse (HF-SFB mouse), intestinal characteristics such as the composition of intraepithelial lymphocytes, the expression of major histocompatibility complex (MHC) class II molecules and the number of immunoglobulin A-producing cells in the mucosa was closer to those of conventionally reared mice than was case with human flora-associated mice (HF mice) lacking SFB. Several predominant bacterial groups except lactobacilli in human flora were found in faeces of HF-SFB mice. Lactobacilli established small populations in the gut of HF-SFB mice when administered before inoculation with the human flora. Faecal enzymatic activities and organic acid concentration of HF-SFB mice proportionally reflected those of the donor subject.

CONCLUSION

We established a new human flora-associated mouse (HF-SFB mouse), in which intestinal characteristics are normally developed and their major microbial composition reflect the human.

SIGNIFICANCE AND IMPACT OF THE STUDY

HF-SFB mice are a valuable model for studying pro/prebiotic effects on the human intestine.

Strain gauge force transducer and its application in a pig model to evaluate the effect of probiotic on colonic motility

The aim of this study was to investigate the effect of probiotic, i.e., fermented milk prepared with Lactobacillus casei strain Shirota, on colonic motility by the strain gauge force transducer (SGFT) in a pig model. The contractions of the circular muscle layer of the cecum, upper colon, lower colon, and terminal colon in pigs were directly measured in conscious status by this method. This method was useful for quantitatively evaluating the effects of stimuli on colonic motility. Feeding significantly stimulated the motilities of the upper and lower colon. Defecation significantly stimulated the motilities of the upper and terminal colon. Two weeks' feeding of the fermented milk significantly activated the response to feeding in four portions of the large intestine. It increased motility of the terminal colon that did not promote defecation. The frequency of defecation from 9:00 to 10:00 (the period just after the morning meal) increased significantly, but from 0:00 to 1:00 (the midnight period) it decreased as a result of the ingestion of fermented milk. Such effects of the fermented milk on motility of the terminal colon are discussed in relation to the movement of digesta. The effects may relate to the stimulation of colonic fermentation as shown by a decrease in fecal pH.

Lactobacillus casei strain Shirota-fermented milk stimulates indigenous Lactobacilli in the pig intestine

The aim of this study was to determine the effect of a probiotic, i.e. fermented milk prepared with Lactobacillus casei strain Shirota, on indigenous Lactobacilli in the pig large intestine. This fermented milk was given as a probiotic to experimental pigs for 2 weeks. The fecal organic acid concentration increased with the fermented milk; acetate and propionate increased significantly (p<0.05). At the same time, lactate and butyrate tended to increase. The fecal pH was significantly reduced by the fermented milk (p<0.05). Although the number of bacteria of strain Shirota in the intestinal contents was much smaller than those of indigenous Lactobacilli, 10(4) vs 10(8) (cfu/g), the numbers of indigenous Lactobacilli and Bifidobacteria in the pig intestine appeared to increase with the fermented milk. In addition, the phenotypic diversity (phenotypic group numbers) of indigenous Lactobacilli increased from 3 to 8 with the fermented milk supplementation. Thus the fermented milk affected the indigenous Lactobacillus population and constitution.

Structure of the intestinal flora responsible for development of the gut immune system in a rodent model

The intestinal flora comprising indigenous, autochthonous bacteria is constantly present in the alimentary tract of host animals, including humans. The indigenous bacteria greatly affect the structure and functions of the intestinal mucosa. Studies involving gnotobiotic mice or rats have shown that the presence of limited kinds of intestinal bacteria is responsible for the development of the gut immune system, such as secretory IgA, major histocompatibility complex molecules and intraepithelial lymphocytes. Understanding of the structure of the intestinal flora or the organization of the microbial population in the intestine, based on evaluation of the immunological responses, may clarify its functions in the host animal.

Differential roles of segmented filamentous bacteria and clostridia in development of the intestinal immune system

The presence of microflora in the digestive tract promotes the development of the intestinal immune system. In this study, to evaluate the roles of two types of indigenous microbe, segmented filamentous bacteria (SFB) and clostridia, whose habitats are the small and large intestines, respectively, in this immunological development, we analyzed three kinds of gnotobiotic mice contaminated with SFB, clostridia, and both SFB and clostridia, respectively, in comparison with germfree (GF) or conventionalized (Cvd) mice associated with specific-pathogen-free flora. In the small intestine, the number of alpha beta T-cell receptor-bearing intraepithelial lymphocytes (alpha betaIEL) increased in SFB-associated mice (SFB-mice) but not in clostridium-associated mice (Clost-mice). There was no great difference in Vbeta usage among GF mice, Cvd mice, and these gnotobiotic mice, although the association with SFB decreased the proportion of Vbeta6(+) cells in CD8beta- subsets to some extent, compared to that in GF mice. The expression of major histocompatibility complex class II molecules on the epithelial cells was observed in SFB-mice but not in Clost-mice. On the other hand, in the large intestine, the ratio of the number of CD4(-) CD8(+) cells to that of CD4(+) CD8(-) cells in alpha betaIEL increased in Clost-mice but not in SFB-mice. On association with both SFB and clostridia, the numbers and phenotypes of IEL in the small and large intestines changed to become similar to those in Cvd mice. In particular, the ratio of the number of CD8alpha beta+ cells to that of CD8alpha alpha+ cells in alpha betaIEL, unusually elevated in the small intestines of SFB-mice, decreased to the level in Cvd mice on contamination with both SFB and clostridia. The number of immunoglobulin A (IgA)-producing cells in the lamina propria was more elevated in SFB-mice than in Clost-mice, not only in the ileum but also in the colon. The number of IgA-producing cells in the colons of Clost-mice was a little increased compared to that in GF mice. Taken together, SFB and clostridia promoted the development of both IEL and IgA-producing cells in the small intestine and that of only IEL in the large intestine, respectively, suggesting the occurrence of compartmentalization of the immunological responses to the indigenous bacteria between the small and large intestines.

Physiological roles of gammadelta T-cell receptor intraepithelial lymphocytes in cytoproliferation and differentiation of mouse intestinal epithelial cells

In this study we aimed to elucidate the physiological role of gammadelta intraepithelial lymphocytes (IEL) in the mouse intestine. For this purpose, we used T-cell receptor (TCR) Vgamma4/Vdelta5 transgenic mice (KN 6 Tg: BALB/c background, H-2d), and compared the immunological and physiological characteristics of the intestinal tracts of KN 6 Tg and non-transgenic (non-Tg) littermates. In KN 6 Tg littermates, 95% of small intestinal (SI) and large intestinal (LI) IEL expressed gammadelta TCR, and their TCR was replaced by Tg gammadelta TCR. In these mice, class II major histocompatibility complex (MHC) expression was up-regulated in the SI epithelium, compared with the non-Tg littermates, under specific pathogen-free (SPF) conditions. Competitive reverse transcription-polymerase chain reaction (RT-PCR) analysis showed that the mRNAs of the I-Ealpha chain on the SI epithelial cells was higher in KN 6 Tg than in non-Tg littermates. However, in the LI, class II MHC molecules were not expressed in either KN 6 Tg or non-Tg littermates. The epithelial cell mitotic index in the SI, but not in the LI, was higher in KN 6 Tg than in non-Tg littermates under SPF conditions. However, differentiation markers for SI epithelial cells, such as alkaline phosphatase and disaccharidase (lactase, maltase and sucrase) activities, were similar in KN 6 Tg and non-Tg littermates. MHC class II molecule expression on the SI epithelium was absent in germ-free (GF) Tg mice, but was induced under SPF conditions, coinciding with the increase of interferon-gamma (IFN-gamma) mRNA in gammadelta TCR SI-IEL. These findings suggest that gammadelta TCR IEL regulate epithelial cell regeneration and class II MHC expression, but not cell differentiation in the SI. However, these functions were not observed in the gammadelta TCR IEL in the LI. In addition, the activation step in the gammadelta TCR SI-IEL is dependent on the presence of gut microflora.

Inflammatory bowel disease-like enteritis and caecitis in a senescence accelerated mouse P1/Yit strain

BACKGROUND

A new subline of the senescence accelerated mouse (SAM) P1/Yit strain has been established which shows spontaneous enteric inflammation under specific pathogen free (SPF) conditions.

AIMS

To elucidate the pathogenesis of enteric inflammation in this new subline.

METHODS

The SPF and germ free (GF) SAMP1/Yit strains were used. Histological, immunological, and microbiological characterisation of the mice with enteric inflammation was performed.

RESULTS

Histologically, enteritic inflammation developed as a discontinuous lesion in the terminal ileum and caecum with the infiltration of many inflammatory cells after 10 weeks of age. the activity of myeloperoxidase, and both immunolocalisation and mRNA expression of inducible nitric oxide synthase increased in the lesion. CD3-epsilon positive T cells, neutrophils, and macrophages were more numerous in the inflamed mucosa of the SAMP1/Yit strain. The GF SAMP1/Yit strain did not show any inflammation in the intestinal wall, by the age of 30 weeks, and the enteritis and caecitis developed 10 weeks after the conventionalisation of the GF SAMP1/Yit strain.

CONCLUSION

Enteric inflammation in the ileum and caecum developed in the SAMP1/Yit strain. The pathophysiological characteristics of the disease in this mouse have some similarities to those of human inflammatory bowel disease (IBD). This mouse strain should be a useful model system for elucidating the interaction between the pathogenesis of IBD and the gut microflora.

Gamma delta TCR-bearing intraepithelial lymphocytes regulate class II major histocompatibility complex molecule expression on the mouse small intestinal epithelium

Introduction of fecal bacteria into germ-free (GF) Balb/c mice induces class II major histocompatibility complex (MHC) molecules on the small intestinal epithelium. In this study, we elucidated the regulatory mechanisms for the class II MHC molecule induction on the mouse small intestinal epithelium during microbial colonisation of the gut in ex-GF mice. Intraperitoneal injection of interferon-gamma (IFN-gamma) into GF Balb/c mice induced class II MHC expression on the small intestinal epithelial cells. Induction of these molecules was inhibited by peritoneal injection of a monoclonal antibody (mAb) against IFN-gamma on the conventionalisation of GF mice. RNA reverse transcriptase-polymerase chain reaction (RT-PCR) analysis of the small intestinal epithelium indicated that the class II transactivator (CIITA), a regulatory factor for the class II MHC gene, and the I-E alpha chain, but not IFN-gamma receptor mRNA, increased during conventionalisation. The induction of class II MHC on the epithelial cells during the conventionalisation of GF C.B-17 scid mice was much lower than that in GF Balb/c mice. Immunocytochemical and RT-PCR analysis showed that both the number of IFN-gamma producing IEL and the level of the IFN-gamma mRNA in gamma delta TCR IEL were very low in the GF state, and gradually increased after microbial colonisation. After in vivo treatment with a mAb against gamma delta TCR, the number of gamma delta TCR-expressing IEL greatly decreased and the expression of class II MHC molecules on the small intestinal epithelium was repressed during the conventionalisation of GF mice. Taken together, these results suggested that gamma delta TCR-bearing IEL modulate class II MHC molecule expression on the small intestinal epithelium through the production of IFN-gamma during microbial colonisation in ex-GF mice.

A step-wise expansion of intestinal intraepithelial T lymphocytes in association with microbial colonization is defined by sensitivity to cyclosporin A

Murine intestinal intraepithelial lymphocytes (IELs) consist of T cells bearing alpha beta-antigen receptor (alpha beta-IELs) and those bearing gamma delta-IELs). Although gamma delta-IELs outnumber alpha beta-IELs in germ-free (GF) mice, oral inoculation of fecal suspension from conventional (CV) mice into GF mice induced the increase in number of alpha beta-IELs, leaving the number of gamma delta-IELs unchanged, and the number of alpha beta-IELs reached the level of CV mice by 3 weeks after conventionalization. Expansion of alpha beta-IELs and increase in their CD44+ subset in conventionalized mice were not affected until 2 weeks after beginning of daily injection of cyclosporin A (CsA). However, further expansion of alpha beta-IELs during 2-3 weeks after conventionalization was blocked by injection of CsA. Although the relative constitution of CD4- 8-, CD4+ 8-, CD4- 8 alpha alpha+, CD4- 8 alpha beta+ and CD4+ 8+ subsets among alpha beta-IELs was comparable between control and CsA-treated groups, CsA injection resulted in the decrease in ratio of high-density fraction cells to low density fraction cells in IELs. CsA completely abrogated the expansion of T cells in peripheral lymph nodes stimulated by alloantigens in vivo, and proliferation of IELs from GF mice induced by immobilized anti-alpha beta-T-cell receptor (TCR) monoclonal antibodies (mAb) in vitro was also eliminated by CsA. These results indicate that microbial colonization-induced expansion of alpha beta-IELs is subdivided into two steps: the early phase of expansion takes place via TCR-non-mediated pathway and the late phase of expansion requires TCR-mediated signal transduction.

Growth retardation and early death of beta-1,4-galactosyltransferase knockout mice with augmented proliferation and abnormal differentiation of epithelial cells

Carbohydrate chains on a glycoprotein are important not only for protein conformation, transport and stability, but also for cell-cell and cell-matrix interactions. UDP-Gal:N-acetylglucosamine beta-1,4-galactosyltransferase (GalT) (EC 2.4.1.38) is the enzyme which transfers galactose (Gal) to the terminal N-acetylglucosamine (GlcNAc) of complex-type N-glycans in the Golgi apparatus. In addition, it has also been suggested that this enzyme is involved directly in cell-cell interactions during fertilization and early embryogenesis through a subpopulation of this enzyme distributed on the cell surface. In this study, GalT-deficient mice were produced by gene targeting in order to examine the pathological effects of the deficiency. GalT-deficient mice were born normally and were fertile, but they exhibited growth retardation and semi-lethality. Epithelial cell proliferation of the skin and small intestine was enhanced, and cell differentiation in intestinal villi was abnormal. These observations suggest that GalT plays critical roles in the regulation of proliferation and differentiation of epithelial cells after birth, although this enzyme is dispensable during embryonic development.

Proliferative recruitment of intestinal intraepithelial lymphocytes after microbial colonization of germ-free mice

Intraepithelial lymphocytes (IEL), particularly alpha beta TCR-bearing IEL (alpha beta-IEL), dramatically increase in number after microbial colonization of formerly germ-free (ex-GF) mice (Umesaki et al., Immunology 1993. 79: 32). In this study, the kinetics of expansion of IEL after microbial colonization in ex-GF mice were investigated by the bromodeoxyuridine (BrdUrd) continuous labeling method. In GF mice, gamma delta- and alpha beta-IEL were gradually labeled with BrdUrd, reaching approximately 30% and 15% labeling, respectively, after 10 days of continuous BrdUrd labeling. In conventional (CV) mice, the percentage of BrdUrd-labeled alpha beta-IEL was a little higher than that for gamma delta-IEL. The maximal labeling for alpha beta-IEL and gamma delta-IEL reached 50-60% and 40%, respectively, in 10 days. In the case of conventionalized ex-GF mice, continuous labeling was started 11 days after microbial colonization of GF mice because alpha beta-IEL outnumbered gamma delta-IEL during this period. In this case, 75% of alpha beta-IEL and 67% of gamma delta-IEL were labeled with BrdUrd in 10 days. On the other hand, the apparent half lives of alpha beta-IEL and gamma delta-IEL were 10 and 20 days, respectively in CV mice. These results strongly suggest that the number of IEL, particularly alpha beta-IEL, increases after microbial colonization through recruitment into the cell cycle of a large proportion of IEL or their immediate precursors. The difference in the relative BrdUrd-labeling rate of alpha beta-IEL to that of gamma delta-IEL between germ-free and conventionalized mice indicates a preferential increase in the alpha beta-IEL subset during the course of conventionalization.

Segmented filamentous bacteria are indigenous intestinal bacteria that activate intraepithelial lymphocytes and induce MHC class II molecules and fucosyl asialo GM1 glycolipids on the small intestinal epithelial cells in the ex-germ-free mouse

In ex-germ-free mice conventionalized by association with fecal microorganisms, the induction fo major histocompatibility complex class II molecules and fucosylation of asialo GM1 glycolipid occur in the small intestinal epithelial cells (IEC). The intestinal intraepithelial lymphocytes (IEL), especially alpha beta T-cell receptor-bearing ones, also remarkably expand and show cytolytic activity. In this study, we investigated the immunological and physiological characteristics of the small intestine induced by a kind of indigenous bacteria of the small intestine, segmental filamentous bacteria (SFB), among chloroform-resistant intestinal bacteria. Monoassociation of SFB with germ-free mice was confirmed by the determination of the base sequences of polymerase chain reaction products of 16S rRNA genes of the fecal bacteria of these mice and in situ hybridization using fluorescein-labeled probes based on them. SFB increased the number of alpha beta TCR-bearing IEL and induced Thy-1 expression and cytolytic activity of IEL. The induction of MHC class II molecules and fucosyl asialo GM1 glycolipids and the increases in the mitotic activity and the ratio of the number of columnar cells to those of goblet cells also occurred in the small intestinal epithelial cells on monoassociation of these bacteria. SFB are important indigenous bacteria for the development of the mucosal architecture and immune system in the small intestine, at least in mice.

Effects of fecal microorganisms and their chloroform-resistant variants derived from mice, rats, and humans on immunological and physiological characteristics of the intestines of ex-germfree mice

In order to elucidate the nature of intestinal flora affecting the immunological and physiological parameters of the intestine, we produced several kinds of ex-germfree mice associated with fecal organisms and their chloroform-resistant variants derived from mice, rats, and humans. The phenotypes of intraepithelial lymphocytes were changed to those in conventional mice, particularly the increased positive percentage of alpha beta T-cell-receptor and Thy-1-bearing T cells, on association of the microorganisms (MF) and their chloroform resistant variants (MChl) derived from mice, but not rats and humans, with germfree mice. The cytolytic activity of intraepithelial lymphocytes was expressed only in the MF and MChl groups. The induction of the synthesis of fucosyl asialo GM1 glycolipid, the expression of major histocompatibility complex class II molecule, an increase in the mitotic indices of colonic epithelial cells, and a decrease in lactase activity of the small intestinal epithelial cells also occurred only in the two groups. On the other hand, the cecal size (cecal weight/body weight ratio) was reduced in the mice of all groups examined here, there being approximately the same amount and composition of organic acids, such as acetic acid, butyric acid, and propionic acid, in the cecal contents. Taken together, the results suggest that mouse-specific and chloroform-resistant microorganisms, which are difficult to cultivate at present, may contribute to alteration of the immunological and epithelial characteristics of the mouse intestine. Another factor derived from the intestinal flora, for example, bacterial metabolites such as organic acids, may also affect the cecal size.

Cytolytic activity of intestinal intraepithelial lymphocytes in germ-free mice is strain dependent and determined by T cells expressing gamma delta T-cell antigen receptors

We have compared the cytolytic activities and the cellular compositions of the intestinal intraepithelial lymphocyte (i-IEL) populations in three different combinations of conventional (CV) and germ-free (GF) mice. Cytolytic activity of i-IELs expressing gamma delta T-cell antigen receptors (TCRs) is strain dependent in CV mice (high vs. low), and this strain-dependent variability is unaltered in the GF condition. Although absolute numbers of gamma delta i-IELs are slightly decreased, the composition of CD8 alpha alpha+ and CD4-CD8- subsets and the usage of TCR gamma- and delta-chain variable gene segments by gamma delta i-IELs remain the same in GF mice. By contrast, cytolytic activity of alpha beta TCR-expressing i-IELs is uniformly high in CV mice but attenuated sharply in the GF condition. A conspicuous decrease in the total numbers of alpha beta i-IELs is also noted, and CD8 alpha beta+ and CD4+CD8+ subsets are reduced, whereas the CD8 alpha alpha+ subset is expanded in GF mice. These results indicate that microbial deprivation preferentially influences the alpha beta i-IEL population to decrease and become noncytolytic but has little effect on the pool size or characteristics of gamma delta i-IELs. Consequently, cytolytic activity of freshly isolated i-IELs from GF mice is determined by T cells expressing gamma delta TCRs and is found to be strain dependent.

Expansion of alpha beta T-cell receptor-bearing intestinal intraepithelial lymphocytes after microbial colonization in germ-free mice and its independence from thymus

A large proportion of intestinal intraepithelial lymphocytes (IEL) comprises alpha beta and gamma delta T-cell receptor (TcR)-bearing T cells. The numbers of alpha beta and gamma delta IEL are reported to be very different between germ-free and conventional microbial conditions. In this study, we investigated the kinetics of both types of TcR-bearing cells after microbial colonization in germ-free mice and the influence of thymus deprivation on IEL populations during the microbial association process. Immediately after association with microbes in germ-free animals, the number of alpha beta TcR-bearing IEL gradually increased. Fourteen days after microbial association the number of alpha beta IEL equalled that of gamma delta TcR-bearing IEL. Approximately 1 month after microbial association, the number of alpha beta IEL was several times greater than that of gamma delta IEL, having almost reached the level in conventional mice reared in a conventional animal room after birth. On the other hand the number of gamma delta IEL hardly changed throughout this microbial association process. Two-colour analysis involving anti-alpha beta TcR and anti-Lyt-2 or Lyt-3 antibodies showed that the major fraction of IEL that increased after microbial association comprised alpha beta TcR-bearing T cells expressing CD8 antigen composed of a homodimer of alpha-chains, which was not detected in other gut associated-lymphoid tissues (GALT) such as Peyer's patch, mesenteric lymph node and lamina propria tissue. The number of alpha beta T cells in these GALT increased within 1 week more quickly than that of IEL. The increase in alpha beta IEL after microbial association was not prevented by thymectomy. These results strongly suggest that the progenitors of alpha beta TcR-bearing IEL expand outside the thymus in response to microbial colonization in germ-free mice.

Differential induction of major histocompatibility complex molecules on mouse intestine by bacterial colonization

The aim of this study was to determine what factors induce major histocompatibility complex (MHC) molecules on the mouse small intestinal epithelium by using immunohistochemical methods. In germ-free mice, although MHC class I molecules such as H-2K and thymus leukemia antigen (TLa) were expressed on the small intestinal epithelium, class II molecules were absent. The introduction of microorganisms into germ-free mice induced characteristic MHC molecules on the small intestinal epithelial cells. The I-A molecule was induced on the villus tip and crypt epithelial cells 7 days after conventionalization, and the I-E molecule was induced on the mid villus and crypt epithelial cells 14 days after conventionalization. The staining intensity of the H-2K molecules was increased 4 days after conventionalization. In contrast, TLa did not change during conventionalization of germ-free mice. These results suggest that the expression of MHC molecules, except for the TLa, is greatly dependent on the presence of intestinal microorganisms.

Immune responses of mice to orally administered asialo GM1-specific rabbit IgG in the presence or absence of cholera toxin

Cholera toxin (CT) has been shown to be a most potent mucosal immunogen and an adjuvant to orally administered unrelated antigens. We investigated the effect of the oral administration of substances with the ability to bind to intestinal epithelial cells on the immune responses against themselves in the presence or absence of CT. Mice were fed non-specific rabbit IgG (RGG) or rabbit IgG (a-GA1) specific to asialo GM1 glycolipid, a major component of the apical membrane of mouse small intestinal epithelial cells, with or without CT. Oral administration of a-GA1 evoked stronger antibody responses than that of RGG in both the serum and intestinal fluid in the presence of CT. However, when the antigens were administered singly without CT, no significant antibody response was detected. In this case, oral administration of RGG induced severe suppression of the systemic antibody response to a subsequent intraperitoneal injection of RGG. In contrast, a-GA1 could not induce oral tolerance. Together these findings suggest that substances with the ability to bind to intestinal epithelial cells are strong immunogens in the presence of CT and weak tolerogens in the absence of CT.

Factors regulating the expression of the neutral glycolipids in the mouse small intestinal mucosa

GDP-fucose:asialo GM1 alpha(1-2)fucosyltransferase (FT) is induced in the small intestinal mucosa after microbial contamination of germ-free mice (Umesaki, Y., Sakata, T. and Yajima, T. (1982) Biochem. Biophys. Res. Commun. 105, 439-443). As a result, asialo GM1 glycolipid, a major component of the epithelial cell membrane, drastically converted into fucosyl asialo GM1. There were many other examples in which FT was induced. One was the weaning period for conventional mice. Others included injuries of the small intestine by punctures or administration of cytosine arabinoside, and the injection of protein synthesis inhibitors, such as cycloheximide or emetine, or the soluble fraction of the small intestinal homogenate (SISF). The induction of FT was more rapid after injection of cycloheximide or SISF than after injury, mechanical puncturing or after administration of cytosine arabinoside. The changes in the neutral glycolipids of the small intestine by injection of cycloheximide or SISF were analyzed in detail. FT activity started to increase after approx. 5 h and reached the maximum 10-12 h after injection of cycloheximide or SISF, and rapidly declined thereafter. The conversion of asialo GM1 into fucosyl asialo GM1 started after about 10 h and reached the maximal value 24 h after the treatment. Fucosyl asialo GM1 persisted for a few days, although the FT activity fell to near the basal level. On the other hand, the amount of glucosyl ceramide was constant after these treatments. There was little difference in the time-courses of both the FT activity and the glycolipid conversion between these treatments. In the case of co-injection of cycloheximide and SISF, the effect of both materials on FT activity induction was synergistic. The distribution of FT activity and immunohistochemical staining using anti-fucosyl asialo GM1 antibody along the crypt-villus axis showed a stronger expression of fucosyl asialo GM1 in villus portion, the post-mitotic cell zone, than in the crypt portion. Asialo GM1 was converted into fucosyl asialo GM1 after the induction of FT by the various treatments mentioned above. Especially the effects of cycloheximide and/or SISF on FT induction suggest at least the presence of a regulatory protein(s) which controls the glycolipid expression in the small intestine.

Structural and compositional difference in the neutral glycolipids between epithelial and non-epithelial tissue of the mouse small intestine

Five major neutral glycolipids, GL-1-GL-5, were isolated from the mouse small intestine. Their structures and distribution were determined by permethylation analysis, sequential degradation with exoglycosidases and/or immunohistochemistry. The molar ratio of GL-1, GL-2, GL-3, GL-4 and Gl-5 in the whole small intestine was 1:0.04:0.03:0.42:0.02. The structures of GL-1 and GL-4 present in epithelial cells were reported previously to be glucosyl ceramide and asialo GM1, respectively (Umesaki, Y., Suzuki, A., Kasama, T., Tohyama, K., Mutai, M. and Yamakawa, T. (1981) J. Biochem. 90, 1731-1738). GL-5, also present in the epithelial cells, was fucosyl asialo GM1, and fucose was shown to be linked to terminal galactose of asialo GM1 in the manner of alpha(1-2) bond. GL-2 and GL-3, present in the residual tissue after scraping the mucosa, were determined to be globoside and Forssman glycolipid, respectively. Both globoside and Forssman glycolipid of the non-epithelial tissue had non-hydroxy fatty acid (C16-C24) in combination with sphingosine (C18) as the ceramide components, in contrast with the ceramide structures of the epithelial glycolipids, which contained alpha-hydroxy fatty acids in combination with phytosphingosine. Immunohistochemical staining using anti-glycolipid antibodies confirmed the distribution of asialo GM1 and fucosyl asialo GM1, and Forssman glycolipid in the epithelial and non-epithelial tissue, respectively.

Immunohistochemical and biochemical demonstration of the change in glycolipid composition of the intestinal epithelial cell surface in mice in relation to epithelial cell differentiation and bacterial association

We have previously demonstrated the appearance of fucosyl asialo-GM1 (FGA1) in the small-intestinal epithelial cells of germ-free mice via the induction of GDP-fucose: asialo-GM1 (GA1) alpha(1 leads to 2) fucosyltransferase (FT) after the conventionalization of these animals (Umesaki Y, Sakata T, Yajima T: Biochem Biophys Res Commun 105:439, 1982). The present study, based on this earlier work, demonstrates the changes in the glycolipid antigens of the small-intestinal epithelial-cell membrane as shown immunohistochemically with specific antibodies raised against asialo GM1 (GA1) and FGA1. In germ-free mice, GA1 was localized both in the villus cells and in the crypt cells. In the process of conventionalization, FGA1 appeared in the villus cells while the GA1 content of these cells was decreased. Four to 5 days after the conventionalization procedure, the fluorescence produced by anti-FGA1 was strongest in the villus cells, while that produced by anti-GA1 was detected only in the crypt cells. At this same time the FT activity of the small-intestinal mucosa was highest, with most of the GA1 apparently being converted into FGA1, as shown in the paper cited above. Thereafter, the GA1 content of both the villus and crypt cells again increased greatly. On the other hand, the fluorescence produced with anti-FGA1 decreased, and could no longer be detected 14 days after conventionalization. The activity of FT, measured biochemically in epithelial cells differentially isolated from the villus tip to the crypt, was greater in the villus than in the crypt region. This confirmed the intense staining with anti-FGA1 that was seen in villus cells. The fluorescence produced by the two anti-glycolipid antibodies used in the study distributed not only in the microvillus membrane but also to some extent in the basolateral membrane. The localization of the respective glycolipids contrasted with that of the glycoprotein sucrase--isomaltase enzyme complex, the fluorescence of which was exclusively confined to the microvillus-membrane side of the villus cells.

Biosynthesis of microvillus membrane-associated glycoproteins of small intestinal epithelial cells in germ-free and conventionalized mice

We studied the effect of intestinal microorganisms on the synthesis of membrane-associated glycoproteins in the upper small intestine by intraperitoneally administering L-[3H]fucose, D-[14C]glucosamine, or L-[3H]leucine to germ-free mice and mice exposed to microorganisms for 4 weeks (conventionalized). The incorporation of the labeled compounds into sucrase-isomaltase complex and maltase was determined by immunoprecipitating Triton X-100-solubilized microvillus membranes with their antibodies. Purified microvillus membranes from germ-free and conventionalized mice differed in the activities of some marker enzymes but not in the number and mobility of the components on SDS-polyacrylamide gel electrophoresis. Maximal incorporation of [3H]fucose and [14C]glucosamine into the microvillus membrane and two enzymes was reached 2-3 h post-injection in both groups, however, the amounts incorporated were larger in conventionalized mice. There was little difference in [3H]leucine incorporation into the total glycoproteins of microvillus membranes between the two groups. Our results suggest that the introduction of microorganisms stimulates the synthesis of sugar chains of microvillus membrane-associated glycoproteins. The enhanced in vitro fucosyltransferase activity in conventionalized mice partly supports this suggestion.

Presence of asialo GM1 and glucosylceramide in the intestinal mucosa of mice and induction of fucosyl asialo GM1 by conventionalization of germ-free mice

Two major neutral glycolipids of the intestinal mucosa were purified by a series of column chromatographies and the structures were determined to be glucosylceramide and asialo GM1 by gas liquid chromatography. The carbohydrate structure of asialo GM1 was also confirmed from the reactivity of the glycolipid to rabbit anti-asialo GM1 antibody by an enzyme linked-immunosorbent antibody. The ceramide portion of both glycolipids had an extremely hydrophilic nature and more than 90% of the ceramide was composed of phytosphingosine and alpha-hydroxy fatty acids. In the previous paper we reported that the induction of a fucolipid in the microvillus membrane of mouse intestinal mucosa by conventionalization was observed on monitoring the incorporation of radiolabeled fucose in vivo. A fucoglycolipid having the same mobility on an autoradiogram as the fucolipid labeled in vivo was produced by in vitro incubation of intestinal asialo GM1 and GDP-[14C]fucose with the mucosal homogenates. Moreover, asialo GM1 prepared from brain gangliosides exhibited a similar ability to accept fucose and it was converted to fucosyl asialo GM1 which moved faster than the product from intestinal asialo GM1. The difference is considered to be due to the ceramide composition. These results suggest that conventionalization can induce the fucosyl asialo GM1 in the microvillus membrane probably through the induction of fucosyltransferase. Understanding the molecular mechanism of interaction between the physiological flora and host is the matter of further study.

Appearance of fucolipid after conventionalization of germ-free mice

Incorporation of [6-3H]fucose and [1-14C]glucosamine into the lipid fraction of microvillus membrane (MVM) was studied in germ-free and conventionalized mice after intraperitoneal injection of the radioactive precursors. Incorporation of [6-3H]fucose was clearly detected in conventionalized mice but not detectable in germ-free mice. There was no difference in the incorporation of [1-14C]glucosamine between the two groups. The lipid fraction of MVM labeled with [6-3H]fucose showed a spot of slower mobility than asialo GM1 on TLC with autoradiography and it was confirmed to be a fucolipid on abolishing the radiolabeled original spot by alpha-L-fucosidase treatment. These results suggest that the synthesis of the fucolipid is induced by conventionalization of germ-free mice.

Characterization of acetate uptake by the colonic epithelial cells of the rat

The characteristics of acetate uptake by colonic epithelial cells of the rat were studied. Clear saturation kinetics of acetate uptake were not observed in these experiments at either 0 degrees C or 30 degrees C. A decrease in the pH of the medium markedly increased the acetate uptake. The activation energy for acetate uptake derived from an Arrhenius plot was about 6.1 kcal/mole. Among the inhibitors tested, no effective inhibition of acetate uptake at 0 degrees C was observed. Metabolic inhibitors severely inhibited transport at 30 degrees C. Inhibition of acetate uptake by other short chain fatty acids, which was non-competitive, was observed. The finding that efflux from the cells was stimulated in the presence of compounds such as pyruvate and bicarbonate supported the notion of a close interrelationship between weak electrolyte transports in vivo. Although the H+ gradient across the cell membrane is suggested to be one of the factors determining the uptake rate, it seems difficult to explain all the results in this way.

Effect of organic acid absorption on bicarbonate transport in rat colon

The absorption of organic anions and the influence of these anions on the movement of HCO3- were studied in vivo in rat colon using a perfusion technique. The absorption of short chain fatty acids (SCFA's) such as acetate, propionate, and butyrate was much greater than that of succinate or lactate. With increasing initial concentration of SCFA up to 100 mmol . 1-1, SCFA absorption increased linearly in correspondence with HCO3- appearance. Final pCO2 level of the perfusion solution with SCFA was the same as the plasma level. Among the SCFA's, no significant differences in absorption or their effects on HCO3- appearance were observed. The presence of Na+ stimulated SCFA absorption, and the maximum value was obtained at more than 100 mmol . 1-1 of Na+. These results suggest that a specific system for HCO3- secretion activated by SCFA exists in the colon, and that this system may control the intraluminal pH by the alkalization of intestinal contents.

Effect of Tween 80 on glucosyltransferase production in Streptococcus mutans

Glucan production from sucrose by Streptococcus mutans OMZ 176 was stimulated approximately threefold in the presence of 0.1% Tween 80. When OMZ 176 was grown in a medium containing glucose, the glucosyltransferase level in the medium was also increased about fivefold in the presence of 0.1% Tween 80. The glucosyltransferase level increased in proportion to the logarithm of the concentration of Tween 80 in the glucose medium. Tween 80 affected neither bacterial growth nor the activity of glucosyltransferase. The appearance of glucosyltransferase in the glucose medium was inhibited immediately by chloramphenicol and actinomycin D and, after a lag, by rifampin as well. It was observed that the fatty acid composition of the cells grown with Tween 80 was altered. These results suggest that Tween 80 stimulates glucosyltransferase synthesis either directly, or indirectly by promoting glucosyltransferase secretion.