Intestinal bacteria induce TSLP to promote mutualistic T-cell responses

Thymic stromal lymphopoietin (TSLP) is constitutively expressed in the intestine and is known to regulate inflammation in models of colitis. We show that steady-state TSLP expression requires intestinal bacteria and has an important role in limiting the expansion of colonic T helper type 17 (Th17) cells. Inappropriate expansion of the colonic Th17 cells occurred in response to an entirely benign intestinal microbiota, as determined following the colonization of germ-free C57BL/6 or TSLPR(-/-) mice with the altered Schaedler flora (ASF). TSLP-TSLPR (TSLP receptor) interactions also promoted the expansion of colonic Helios(-)Foxp3(+) regulatory T cells, necessary for the control of inappropriate Th17 responses following ASF bacterial colonization. In summary, these data reveal an important role for TSLP-TSLPR signaling in promoting steady-state mutualistic T-cell responses following intestinal bacterial colonization.

Microbiota-derived compounds drive steady-state granulopoiesis via MyD88/TICAM signaling.

Neutropenia is probably the strongest known predisposition to infection with otherwise harmless environmental or microbiota-derived species. Because initial swarming of neutrophils at the site of infection occurs within minutes, rather than the hours required to induce "emergency granulopoiesis," the relevance of having high numbers of these cells available at any one time is obvious. We observed that germ-free (GF) animals show delayed clearance of an apathogenic bacterium after systemic challenge. In this article, we show that the size of the bone marrow myeloid cell pool correlates strongly with the complexity of the intestinal microbiota. The effect of colonization can be recapitulated by transferring sterile heat-treated serum from colonized mice into GF wild-type mice. TLR signaling was essential for microbiota-driven myelopoiesis, as microbiota colonization or transferring serum from colonized animals had no effect in GF MyD88(-/-)TICAM1(-/-) mice. Amplification of myelopoiesis occurred in the absence of microbiota-specific IgG production. Thus, very low concentrations of microbial Ags and TLR ligands, well below the threshold required for induction of adaptive immunity, sets the bone marrow myeloid cell pool size. Coevolution of mammals with their microbiota has probably led to a reliance on microbiota-derived signals to provide tonic stimulation to the systemic innate immune system and to maintain vigilance to infection. This suggests that microbiota changes observed in dysbiosis, obesity, or antibiotic therapy may affect the cross talk between hematopoiesis and the microbiota, potentially exacerbating inflammatory or infectious states in the host.

Penetrability of the inner mucus layer: who is out there?

Large numbers of microorganisms colonise the skin and mucous membranes of animals, with their highest density in the lower gastrointestinal tract. The impact of these microbes on the host can be demonstrated by comparing animals (usually mice) housed under germ-free conditions, or colonised with different compositions of microbes. Inbreeding and embryo manipulation programs have generated a wide variety of mouse strains with a fixed germ-line (isogenic) and hygiene comparisons robustly show remarkably strong interactions between the microbiota and the host, which can be summarised in three axioms. (I) Live microbes are largely confined to their spaces at body surfaces, provided the animal is not suffering from an infection. (II) There is promiscuous molecular exchange throughout the host and its microbiota in both directions [1]. (III) Every host organ system is profoundly shaped by the presence of body surface microbes. It follows that one must draw a line between live microbial and host “spaces” (I) to understand the crosstalk (II and III) at this interesting interface of the host-microbial superorganism. Of course, since microbes can adapt to very different niches, there has to be more than one line. In this issue of EMBO Reports, Johansson and colleagues have studied mucus, which is the main physical frontier for most microbes in the intestinal tract: they report how different non-pathogenic microbiota compositions affect its permeability and the functional protection of the epithelial surface [2].

Comparison of Salmonella enterica serovar Typhimurium colitis in germfree mice and mice pretreated with streptomycin.

Salmonella enterica subspecies 1 serovar Typhimurium is a common cause of bacterial enterocolitis. Mice are generally protected from Salmonella serovar Typhimurium colonization and enterocolitis by their resident intestinal microflora. This phenomenon is called "colonization resistance" (CR). Two murine Salmonella serovar Typhimurium infection models are based on the neutralization of CR: (i) in specific-pathogen-free mice pretreated with streptomycin (StrSPF mice) antibiotics disrupt the intestinal microflora; and (ii) germfree (GF) mice are raised without any intestinal microflora, but their intestines show distinct physiologic and immunologic characteristics. It has been unclear whether the same pathogenetic mechanisms trigger Salmonella serovar Typhimurium colitis in GF and StrSPF mice. In this study, we compared the two colitis models. In both of the models Salmonella serovar Typhimurium efficiently colonized the large intestine and triggered cecum and colon inflammation starting 8 h postinfection. The type III secretion system encoded in Salmonella pathogenicity island 1 was essential in both disease models. Thus, Salmonella serovar Typhimurium colitis is triggered by similar pathogenetic mechanisms in StrSPF and GF mice. This is remarkable considering the distinct physiological properties of the GF mouse gut. One obvious difference was more pronounced damage and reduced regenerative response of the cecal epithelium in GF mice. Overall, StrSPF mice and GF mice provide similar but not identical models for Salmonella serovar Typhimurium colitis.

Protection of nonobese diabetic mice from autoimmune diabetes by reduction of islet mass before insulitis.

Nonobese diabetic mice spontaneously develop diabetes that is caused by autoimmune cell-mediated destruction of pancreatic beta cells. Here we report that surgical removal of 90% of pancreatic tissue before onset of insulitis induced a long-term diabetes-free condition in nonobese diabetic mice. Pancreatectomy after development of moderate insulitis had no effect on the course of diabetes. The effect of pancreatectomy was abrogated with subsequent development of diabetes by infusion of islet-cell-specific T lymphocytes and by transplantation of pancreatic islets. Lymphocytes from pancreatectomized diabetes-free mice exhibited low response to islet cells but responded normally to alloantigens. These results suggest that the islet cell mass plays a critical role in development of autoimmune diabetes.

Prolonged Survival of Allografts Induced by Mycobacterial Hsp70 Is Dependent on CD4+CD25+Regulatory T Cells

Background: Heat shock proteins (Hsps) are stress induced proteins with immunomodulatory properties. The Hsp70 of Mycobacterium tuberculosis (TBHsp70) has been shown to have an anti-inflammatory role on rodent autoimmune arthritis models, and the protective effects were demonstrated to be dependent on interleukin-10 (IL-10). We have previously observed that TBHsp70 inhibited maturation of dendritic cells (DCs) and induced IL-10 production by these cells, as well as in synovial fluid cells. Methodology/Principal Findings: We investigated if TBHsp70 could inhibit allograft rejection in two murine allograft systems, a transplanted allogeneic melanoma and a regular skin allograft. In both systems, treatment with TBHsp70 significantly inhibited rejection of the graft, and correlated with regulatory T cells (Tregs) recruitment. This effect was not tumor mediated because injection of TBHsp70 in tumor-free mice induced an increase of Tregs in the draining lymph nodes as well as inhibition of proliferation of lymph node T cells and an increase in IL-10 production. Finally, TBHsp70 inhibited skin allograft acute rejection, and depletion of Tregs using a monoclonal antibody completely abolished this effect. Conclusions/Significance: We present the first evidence for an immunosuppressive role for this protein in a graft rejection system, using an innovative approach - immersion of the graft tissue in TBHsp70 solution instead of protein injection. Also, this is the first study that demonstrates dependence on Treg cells for the immunosuppressive role of TBHsp70. This finding is relevant for the elucidation of the immunomodulatory mechanism of TBHsp70. We propose that this protein can be used not only for chronic inflammatory diseases, but is also useful for organ transplantation management.

Desnutrição experimental: resultados anátomo-patológicos e bioquímicos da administração de dietas hipoprotéicas a ratos albinos jovens

Na tentativa de reproduzir experimentalmente os achados morfológicos e eletroforéticos (proteínas no soro) observados na desnutrição infantil, dois grupos de experiências foram realizados em ratos albinos jovens, submetendo-os a uma dieta pobre em proteínas (2%) por períodos de 41 a 88 dias. O modelo experimental reproduz em linhas gerais os principais danos estruturais vistos na patologia humana, ficando num meio termo entre kwashiorkor e marasmo. Alterações atróficas tegumentares foram assinaladas como achado tardio. O achado mais conspícuo foi metamorfose gordurosa hepática do tipo perilobular. A regeneração hepatocelular foi abortiva, aparecendo nos estágios finais das experiências ao lado dos fenômenos regressivos. Foi possível estabelecer seqüência lesional nas alterações estruturais do pâncreas, desde mofificações da quantidade de grânulos de zimogênio nos estágios iniciais até a atrofia acinosa acentuada, subvertendo a arquitetura do órgão, nos estágios finais. As alterações intestinais culminaram com o quadro de atrofia, não comparável em intensidade com a patologia humana, correspondem à diminuição da altura do epitélio mucoso, hipocelularidade da lâmina própria, criptas pequenas, pobreza em mitoses, que encurtam as vilosidades, assemelhando-se ao padrão mucoso dos chamados animais "germ-free". Além disso, os autores chamam a atenção para a intensa dimuição das célular muco-secretoras ao nível do epitélio do intestino delgado e grosso. No modelo surpreende-se também uma depleção linfo-histiocitária, representada por atrofia das placas de Peyer, diminuição das célular de Kupffer, atrofia do timo e depleção linfóide ganglionar e esplênica. O estudo bioquímico do soro revelou baixa das proteínas totais e do colesterol. A eletroforese de proteínas demonstrou acentuada baixa da fração albumina, com inversão A/G. Entre as globulinas, as frações alfa1 e alfa2 estão aumentadas no grupo desenutrido. Estes achados podem ser atribuídos à carência protéica, porquanto os controles utilizados, mesmo aqueles com restrição calórica, não apresentaram alterações histológicas ou hipoalouminemia.

Chemotherapy induces tumor metastasis and dormancy

Chemotherapy is widely used as a systemic treatment modality in cancer patients and provides survival benefits for a significant fraction of treated patients H However, some patients suffer from cancer relapse and rapidly progress to metastasis, suggesting that following chemotherapy their residual tumor developed a more aggressive phenotype 4 5. Although some molecular mechanisms involved in chemo-resistance and chemotherapy-induced metastatic relapse have been reported, more investigations and understanding of these processes are necessary before any translation into the clinic might be considered. By using the syngeneic metastatic 4T1 murine breast cancer model, we observed that chemotherapy treatment and selection of chemotherapy-resistant cancer cells in vitro can induces two opposite phenotypes: a dormant one and a relapsing-metastatic one. Previous studies in our laboratory demonstrated that irradiation of mammary gland promotes tumor metastasis, at least in part, by inducing the recruitment of CD11b+ cells to both the primary tumor and the lungs at a pre-metastatic stage. In this study we found that CD11b+ cells may also play important roles in chemotherapy-induced tumor metastasis and dormancy in vivo. Tumor cells expressing the stem cell marker Sca-1 were enriched by chemotherapy treatment in vitro, as well as in tumor metastasis in vivo. Furthermore, tumor-derived CD11b+ cells were capable to maintain and expand this population in vitro. These results suggest that the expansion of a tumor cell population with stem cell features might be a mechanism by which chemotherapy induces metastasis. On the other hand, the same drug treatment in vitro generated resistant cells with a dormant phenotype. Dormant tumor cells were able to induce an in vivo immune- inflammatory response in the draining lymph node, which is normally absent due to the immunosuppressive effects of tumor-recruited myeloid derived- suppressor cells (MDSCs). Genome-wide gene expression analysis revealed the enrichment of invasion and metastasis-related genes in the relapsing metastatic tumor cells and immune response-related genes in the dormant tumor cells. Interestingly, CD11b+ cells derived from the microenvironment of growing-metastatic tumors, but not CD11b+ cells derived from the spleen of tumor-free mice, were able to instigate outgrowth of dormant tumor cells in vivo. Also, dormant cells formed growing and metastatic tumors when injected into immune-compromised NGS mice. These results point to a role of chemotherapy in enabling treated tumor cells to acquire immune response-inducing capabilities, while impairing the recruitment of CD11b+ cells and their differentiation into an immune-suppressive cell. The molecular mechanisms underneath these effects are being further investigated. In conclusion, results obtained in this model indicate that chemotherapy can induce a dormant phenotype in cancer cells and that this state of dormancy can be broken by MDSCs educated by relapsing tumors. Understanding the mechanism beyond these effects, in particular unraveling the genetic or epigenetic determinants of dormancy vs relapse, might open the way to therapies aimed and maintaining residual cells escaping chemotherapy in a state of sustained dormancy. - La chimiothérapie est un traitement systémique largement utilisé chez les patients cancéreux qui donne un avantage de survie significatif pour une bonne partie de patients traités (1-3). Cependant, certains patients souffrent d'une rechute et progressent ensuite vers la métastase. Ceci suggère que leur tumeur résiduelle a développé un phénotype agressif suite à la chimiothérapie (4-5). Bien que certains mécanismes moléculaires impliqués dans la chimiorésistance et la rechute métastatique ont été identifiés, d'avantage d'études sont nécessaires afin de mieux comprendre ce phénomène et de développer des nouvelles thérapies cliniques. En utilisant un modèle syngénique de cancer du sein métastatique chez la sourie (4T1), nous avons observé que la sélection des cellules cancéreuses résistantes à la chimiothérapie in vitro peut induire deux phénotypes opposés: un phénotype de dormance et un phénotype de progression métastatique. Une étude précédente issue de notre laboratoire a démontré que l'irradiation de la glande mammaire favorise la métastase de tumeurs recourants suite au recrutement de cellules CD11b+ dans la tumeur primaire et dans les poumons pré-métastatiques. Dans notre étude nous avons constaté que les cellules CD11b+ peuvent également jouer un rôle important dans la formation de métastases induites par la chimiothérapie ainsi que dans le maintien de la dormance in vivo. Nous avons également observé un enrichissement de cellules tumorales exprimant le marqueur de cellule souche Sca-1 parmi les cellules tumorales résistantes à la chimiothérapie et dans les cellules qui on formé des métastases in vivo. Des cellules CD11b+ dérivées du microenvironnement tumorale favorisent l'expansion de la population de cellules tumorales Sca-1+ in vitro. Ces résultats suggèrent que l'expansion d'une population de cellules tumorales avec des caractéristiques de cellules souches pourrait constituer un mécanisme par lequel la chimiothérapie induit des métastases dans des tumeurs récurrentes. D'autre part le même traitement de chimiothérapie peut générer des cellules résistantes avec un phénotype dormant. Les expériences in vivo indiquent que les cellules tumorales dormantes induisent une réponse immunitaire inflammatoire dans le ganglion lymphatique de drainage, qui est normalement réprimée par des cellules myéloïdes suppressives de tumeur (MDSC). Une analyse d'expression de gènes a révélé l'enrichissement de gènes liés à l'invasion et à la métastase dans les cellules tumorales récurrentes et des gènes liés à la réponse immunitaire dans les cellules tumorales dormantes. Les cellules CD11b+ issues du microenvironnement des tumeurs récurrents ont incité la croissance des cellules tumorales dormantes in vivo, tandis que les cellules CD11b+ dérivées de la rate de souris non porteuses de tumeur ne l'étaient pas. Les mécanismes moléculaires sous-jacents restent à découvrir. En conclusion, les résultats obtenus dans ce modèle indiquent que la chimiothérapie pourrait favoriser non seulement l'induction d'une dormance cellulaire, mais également que les cellules dormantes seraient adroits de induire une réponse immunitaire capable les maintenir dans un état de dormance prolongé. Un déséquilibre dans cette réponse immunitaire pourrait des lors briser cet état de dormance et induire une progression tumorale. Comprendre les mécanismes responsables de ces effets, en particulier l'identification des déterminants génétiques ou épigénétiques liés à la dormance vs la rechute, pourraient ouvrir la voie à des nouvelles thérapies visant le maintien d'un état de dormance permanente des cellules résiduelles après chimiothérapie.

Concentrations plasmatiques et articulaires pendant l'administration de céfacétrile pour arthrite septique (6 cas) [Serum and joint levels of cefacetrile during its administration for septic arthritis]

Six patients, five of whom had normal and one impaired renal function, and all suffering from purulent arthritis caused by cephalosporin-sensitive germs, were given a seven-day course of 8 g cephacetrile daily. On the first day, 6 g were administered by continuous intravenous infusion at the rate of 500 mg/h, followed by 2 g over a further 45 min. On days 2 to 7, the patients received 2 short infusions of 4 g each at an interval of 12 h. In four patients with normal renal function, serum half-life ranged from 0.8 to 1.4 h, serum levels during continuous infusion from 19 to 31 microgram/ml, and total clearances from 265 to 434 ml/min. In one patients, these values were 1.6 h, 70 microgram/ml and 131 ml/min respectively (small volume of distribution). The concentrations in the synovial fluid varied from 2 to 29 mcirogram/ml; they were generally lower than the serum levels, but clearly exceeded the minimum inhibitory concentrations for germs commonly present in purulent arthritis. In five patients, the synovial fluid became germ-free and the arthritis was clinically cured. In the case presenting with renal insufficiency, the serum half-life was 5.8 h. During continuous administration, a steady state was not attained; peak serum levels amo9nted to 75 microgram/ml and the total clearance to 61 ml/min. The cephacetrile concentrations in the synovial fluid were very high (26 and 67 microgram/ml). In this case, in which the renal insufficiency associated with mycosis fungoides was present before the treatment, renal function deteriorated futher during treatment while the arthritis improved.

In pancreatic carcinoma, dual EGFR/HER2 targeting with cetuximab/trastuzumab is more effective than treatment with trastuzumab/erlotinib or lapatinib alone: implication of receptors' down-regulation and dimers' disruption.

We previously demonstrated the synergistic therapeutic effect of the cetuximab (anti-epidermal growth factor receptor [EGFR] monoclonal antibody, mAb)-trastuzumab (anti-HER2 mAb) combination (2mAbs therapy) in HER2(low) human pancreatic carcinoma xenografts. Here, we compared the 2mAbs therapy, the erlotinib (EGFR tyrosine kinase inhibitor [TKI])-trastuzumab combination and lapatinib alone (dual HER2/EGFR TKI) and explored their possible mechanisms of action. The effects on tumor growth and animal survival of the three therapies were assessed in nude mice xenografted with the human pancreatic carcinoma cell lines Capan-1 and BxPC-3. After therapy, EGFR and HER2 expression and AKT phosphorylation in tumor cells were analyzed by Western blot analysis. EGFR/HER2 heterodimerization was quantified in BxPC-3 cells by time-resolved FRET. In K-ras-mutated Capan-1 xenografts, the 2mAbs therapy gave significantly higher inhibition of tumor growth than the erlotinib/trastuzumab combination, whereas in BxPC-3 (wild-type K-ras) xenografts, the erlotinib/trastuzumab combination showed similar growth inhibition but fewer tumor-free mice. Lapatinib showed no antitumor effect in both types of xenografts. The efficacy of the 2mAbs therapy was partly Fc-independent because F(ab')(2) fragments of the two mAbs significantly inhibited BxPC-3 growth, although with a time-limited therapeutic effect. The 2mAbs therapy was associated with a reduction of EGFR and HER2 expression and AKT phosphorylation. BxPC-3 cells preincubated with the two mAbs showed 50% less EGFR/HER2 heterodimers than controls. In pancreatic carcinoma xenografts, the 2mAbs therapy is more effective than treatments involving dual EGFR/HER2 TKIs. The mechanism of action may involve decreased AKT phosphorylation and/or disruption of EGFR/HER2 heterodimerization.

Influence du microbiote intestinal sur le métabolisme et la virulence des Escherichia coli entérohémorragiques

Les Escherichia coli entérohémorragiques (EHEC) représentent un problème majeur de santé publique dans les pays développés. Les EHEC sont régulièrement responsables de toxi-infections alimentaires graves chez l’humain et causent des colites hémorragiques et le symptôme hémolytique et urémique, mortel chez les enfants en bas âge. Les EHEC les plus virulents appartiennent au sérotype O157:H7 et le bovin constitue leur réservoir naturel. À ce jour il n’existe aucun traitement pour éviter l’apparition des symptômes liés à une infection à EHEC. Par conséquent, il est important d’augmenter nos connaissances sur les mécanismes employés par le pathogène pour réguler sa virulence et coloniser efficacement la niche intestinale. Dans un premier temps, l’adaptation de la souche EHEC O157:H7 EDL933 à l’activité métabolique du microbiote intestinal a été étudiée au niveau transcriptionnel. Pour se faire, EDL933 a été cultivée dans les contenus caecaux de rats axéniques (milieu GFC) et dans ceux provenant de rats colonisés par le microbiote intestinal humain (milieu HMC). Le HMC est un milieu cécal conditionné in vivo par le microbiote. Dans le HMC par rapport au GFC, EDL933 change drastiquement de profile métabolique en réponse à l’activité du microbiote et cela se traduit par une diminution de l’expression des voies de la glycolyse et une activation des voies de l’anaplérose (voies métaboliques dont le rôle est d’approvisionner le cycle TCA en intermédiaires métaboliques). Ces résultats, couplés avec une analyse métabolomique ciblée sur plusieurs composés, ont révélé la carence en nutriments rencontrée par le pathogène dans le HMC et les stratégies métaboliques utilisées pour s’adapter au microbiote intestinal. De plus, l’expression des gènes de virulence incluant les gènes du locus d’effacement des entérocytes (LEE) codant pour le système de sécrétion de type III sont réprimés dans le HMC par rapport au GFC indiquant la capacité du microbiote intestinal à réprimer la virulence des EHEC. L’influence de plusieurs composés intestinaux présents dans les contenus caecaux de rats sur l’expression des gènes de virulence d’EDL933 a ensuite été étudiée. Ces résultats ont démontré que deux composés, l’acide N-acétylneuraminique (Neu5Ac) et le N-acétylglucosamine (GlcNAc) répriment l’expression des gènes du LEE. La répression induite par ces composés s’effectue via NagC, le senseur du GlcNAc-6-P intracellulaire et le régulateur du catabolisme du GlcNAc et du galactose chez E. coli. NagC est un régulateur transcriptionnel inactivé en présence de GlcNAc-6-P qui dérive du catabolisme du Neu5Ac et du transport GlcNAc. Ce travail nous a permis d’identifier NagC comme un activateur des gènes du LEE et de mettre à jour un nouveau mécanisme qui permet la synchronisation de la virulence avec le métabolisme chez les EHEC O157:H7. La concentration du Neu5Ac et du GlcNAc est augmentée in vivo chez le rat par le symbiote humain Bacteroides thetaiotaomicron, indiquant la capacité de certaines espèces du microbiote intestinal à relâcher les composés répresseurs de la virulence des pathogènes. Ce travail a permis l’identification des adaptations métaboliques des EHEC O157:H7 en réponse au microbiote intestinal ainsi que la découverte d’un nouveau mécanisme de régulation de la virulence en réponse au métabolisme. Ces données peuvent contribuer à l’élaboration de nouvelles approches visant à limiter les infections à EHEC.

Systemic gut microbial modulation of bile acid metabolism in host tissue compartments

We elucidate the detailed effects of gut microbial depletion on the bile acid sub-metabolome of multiple body compartments (liver, kidney, heart, and blood plasma) in rats. We use a targeted ultraperformance liquid chromatography with time of flight mass-spectrometry assay to characterize the differential primary and secondary bile acid profiles in each tissue and show a major increase in the proportion of taurine-conjugated bile acids in germ-free (GF) and antibiotic (streptomycin/penicillin)-treated rats.Although conjugated bile acids dominate the hepatic profile (97.0 ± 1.5%) of conventional animals, unconjugated bile acids comprise the largest proportion of the total measured bile acid profile in kidney (60.0±10.4%) andheart (53.0 ± 18.5%) tissues. In contrast, in the GF animal, taurine-conjugated bile acids (especially taurocholic acid and tauro-β-muricholic acid) dominated the bile acid profiles (liver: 96.0 ± 14.5%; kidney: 96 ± 1%; heart: 93 ± 1%; plasma: 93.0 ± 2.3%), with unconjugated and glycine-conjugated species representing a small proportion of the profile. Higher free taurine levels were found in GF livers compared with the conventional liver (5.1-fold; P < 0.001). Bile acid diversity was also lower in GF and antibiotic-treated tissues compared with conventional animals. Because bile acids perform important signaling functions, it is clear that these chemical communication networks are strongly influencedbymicrobial activitiesormodulation, as evidenced by farnesoid X receptor-regulated pathway transcripts. The presence of specific microbial bile acid co-metabolite patterns in peripheral tissues (including heart and kidney) implies a broader signaling role for these compounds and emphasizes the extent of symbiotic microbial influences in mammalian homeostasis.

Influence of plant and bacterial myrosinase activity on the metabolic fate of glucosinolates in gnotobiotic rats

The breakdown of glucosinolates, a group of thioglucoside compounds found in cruciferous plants, is catalysed by dietary or microbial myrosinase. This hydrolysis releases a range of breakdown products among which are the isothiocyanates, which have been implicated in the cancer-protective effects of cruciferous vegetables. The respective involvement of plant myrosinase and gut bacterial myrosinase in the conversion, in vivo, of glucosinolates into isothiocyanates was investigated in sixteen Fischer 344 rats. Glucosinolate hydrolysis in gnotobiotic rats harbouring a whole human faecal flora (Flora+) was compared with that in germ-free rats (Flora-). Rats were offered a diet where plant myrosinase was either active (Myro+) or inactive (Myro-). The conversion of prop-2-enyl glucosinolate and benzyl glucosinolate to their related isothiocyanates, allyl isothiocyanate and benzyl isothiocyanate, was estimated using urinary mercapturic acids, which are endproducts of isothiocyanate metabolism. The highest excretion of urinary mercapturic acids was found when only plant myrosinase was active (Flora-, Myro+ treatment). Lower excretion was observed when both plant and microbial myrosinases were active (Flora+, Myro+ treatment). Excretion of urinary mercapturic acids when only microbial myrosinase was active (Flora+, Myro- treatment) was low and comparable with the levels in the absence of myrosinase (Flora-, Myro- treatment). No intact glucosinolates were detected in the faeces of rats from the Flora+ treatments confirming the strong capacity of the microflora to break down glucosinolates. The results confirm that plant myrosinase can catalyse substantial release of isothiocyanates in vivo. The results also suggest that the human microflora may, in some circumstances, reduce the proportion of isothiocyanates available for intestinal absorption.

Gut microbiome modulates the toxicity of hydrazine: a metabonomic study

The influence of gut microbiota on the toxicity and metabolism of hydrazine has been investigated in germ-free and ‘conventional’ Sprague Dawley rats using 1H NMR based metabonomic analysis of urine and plasma. Toxicity was more severe in germ-free rats compared with conventional rats for equivalent exposures indicating that bacterial presence altered the nature or extent of response to hydrazine and that the toxic response can vary markedly in the absence of a functional microbiome.

Experimental toxoplasmosis in broiler chicks

To evaluate chicken toxoplasmosis both as an economic and a public health subject, 84 broiler chicks of a commercial strain, 30 days old, were distributed into seven groups of 12 birds (three replications of four chicks) experimentally infected with three developing T. gondii stages of the P strain as follows: tachyzoites. intravenous (two groups: 5.0 x 10(5) and 5.0 x 10(6)), cysts, per os (two groups: 1.0 x 10(2) and 1.0 x 10(3)) and oocysts, per os (three groups: 5.0 x 10(2), 5.0 x 10(3) and 5.0 x 10(4)). Twelve chicks received only a placebo (control group). During the next 30 days the following parameters were estimated: productivity (weight gain and feed conversion), clinical signs, including rectal temperature and parasitemia (bioassay). No clinical signs suggesting toxoplasmosis were seen and no statistical differences on productivity standards were found in comparison between inoculated and control chicks. However, fowls inoculated with tachyzoites and oocysts occasionally showed hyperthermia. Some haematological changes were detected in fowls inoculated with T. gondii. Anatomo-histopathological changes were not observed. From 14 parasitemias detected, 35.7% appeared on the 5th day after inoculation and 57.1% of them resulted from oocysts inoculation. After 30-35 days all birds were slaughtered: fragments from 12 organs or tissues from each of them were subjected to artificial peptic digestion and after that injected into T. gondii antibody-free mice (IIFR). T. gondii was detected in brain (12), pancreas (five), spleen (five), retina (five), kidney (two), heart (four), proventriculus (three), liver (two), intestine (two), lung (one), and skeletal muscle (one). Similar to observations with parasitemia, from 42 T. gondii isolations, 59.5% came from chicks which had received oocysts. It can thus be inferred that the developing form, expelled by cats, is the most important for T. gondii chicken infection and that brain is the most infected organ in birds. Attention must be paid to the potential importance of chicken meat in public health, since T. gondii was isolated from skeletal and heart muscles. (C) 1997 Elsevier B.V. B.V.