Digestive metabolism of glucosinolates : a novel approach using urinary markers for estimating the release of glucosinolate breakdown products in the gastro-intestinal tract of mammals

Rouzaud, Gabrielle C. M.

January 2001

Glucosinolates have been implicated as a mediator of the cancer-protective properties of cruciferous vegetables. Enzymatic hydrolysis of glucosinolates by plant or microbial myrosinase yields a range of metabolites including beneficial isothiocyanates. Little is known about the fate of glucosinolates after their ingestion. Using urinary end-products of metabolism as markers, measurement of the production of isothiocyanates in the digestive tract of monogastric animals has been achieved. Initially, a range of isothiocyanates were administered to rats and their excretion as mercapturic acids was quantified. Relative recovery of different isothiocyanates was found to be consistent and predictable, allowing the use of artificial isothiocyanates as recovery standards in subsequent experiments. Subsequently, the relative influence of plant and bacterial myrosinase on isothiocyanate production was quantified in rats. A proportion of 0.80 (s. e. m. 0.076) of benzyl glucosinolate was hydrolysed to isothiocyanate by plant myrosinase. In the presence of both plant and microbial activity,, the proportion of benzyl isothiocyanate release was significantly decreased (0.50 s. e. m. 0.046, p<0.01) suggesting microbial breakdown of isothiocyanates. The approach, adapted for use with human subjects showed that the proportions of allyl isothiocyanate measured after ingestion of raw and cooked cabbage were 0.37 (s. e. m. 0.045) and 0.53 (s. e. m. 0.134) respectively in healthy male volunteers. A further experiment with rats established that isothiocyanate uptake in the distal digestive tract was significantly less than in the proximal intestine (0.12 s. e. m. 0.017 and 0.48 s. e. m. 0.029 respectively), suggesting a potential underestimation of isothiocyanate release in the distal digestive tract when using urinary markers. Finally, enhancement of bacterial fermentation by addition of inulin to the diet had little influence on isothiocyanate production in the gut. The findings suggested that the formation of the cancer-protective isothiocyanates was significant, in vivo, thereby strengthening the evidence for a beneficial effect of cruciferous vegetables for health. The newly developed method opens up possibilities of concurrently exploring the digestive fate of isothiocyanates and the toxicity of carcinogenic compounds.

572

The Development, Sensory Evaluation and Interconversion of Bioactive Isothiocyanates in a Tomato-Soy-Arugula Seed Beverage

Lee, Michelle C.

30 September 2015

No description available.

Food Science

Impact of Sodium Chloride on Liking of Cruciferous Vegetables

Balitsis, Jennifer Kathryn

24 June 2008

No description available.

Food Science

Health

Nutrition

sodium chloride

salt

bitterness suppression

cruciferous vegetables

Bactérias de solos supressivos com atividade antimicrobiana sobre Xanthomonas campestris pv. campestris / Suppressive soil bacteria with antimicrobial activity against Xanthomonas campestris pv. campestris

Silva, Rafael Salomão da

28 February 2016

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Xanthomonas campestris pv. campestris is a phytopathogenic bacterium, the causative agent of black rot in crucifers. For the control of plant pathogens diseases, there is the use of bacteria with activity antagonistic to the pathogen. Recent studies show that Bacillus species have on X. campestris a strong biological control. One of the mechanisms of this control is the production of secondary metabolites by these species. The objective of this work was to select bacteria X. campestris and antagonists to evaluate the antimicrobial activity of extracellular filtered bacteria (FEB) antagonist activity. To this, 257 bacteria isolated from a suppressive soil. They were evaluated in vitro antagonist activity by the technique of double layer. Ninety-two isolates (44.6%) were able to inhibit growth of the target pathogen (X.campestris). Of the 92 isolates selected on double layer of the test, 51 (55.43%) showed inhibition of growth of X. campestris on the inhibition assays with FEB in liquid medium. Thirteen of 50% or more inhibited the growth of the target pathogen, and the FEB-8, FEB-31-FEB 68, FEB 74-FEB-87 and were able to inhibit 100% growth of X. campestris. The FEB isolated TC-DT08, belonging to the genus Paenibacillus, it was used for in vivo tests in plant farming kale. The artificial inoculation kale with X. campestris pretreated with FEB-08 showed that the bacterium loses the ability to colonize and cause the cabbage black rot, indicating the potential use of this isolate to protect kale butter infection by X. campestris. / Xanthomonas Campestris. pv campestris é uma bactéria fitopatogênica, agente causal da podridão negra em crucíferas. Dentre os mecanismos para o controle de doenças de fitopatógenos, destaca-se o uso de bactérias com atividade antagonista ao patógeno. Estudos recentes mostram que espécies de Bacillus exercem sobre X. Campestris um forte controle biológico. Um dos mecanismos deste controle é a produção de metabólitos secundários por essas espécies. O objetivo deste trabalho foi selecionar bactérias antagonistas a X. campestris e avaliar a atividade antimicrobiana dos filtrados extracelulares das bactérias (FEB) com atividade antagonista. Para isso, 257 bactérias isoladas de solos supressivos foram avaliadas quanto a atividade antagonista in vitro pela técnica da dupla camada. Noventa e dois isolados (44,6%) foram capazes de inibir o crescimento do fitopatógeno alvo (X.campestris). Dentre os 92 isolados selecionados no teste da dupla-camada, 51 (55,43%) apresentaram inibição do crescimento da X. campestris nos ensaios de inibição com os FEB em meio líquido. Treze destes inibiram 50% ou mais do crescimento do fitopatógeno-alvo, sendo que os FEB-08, FEB-31, FEB-68, FEB-74 e FEB-87 foram capazes de inibir 100% do crescimento de Xanthomonas campestris. O FEB do isolado TC-DT08, pertencente ao gênero Paenibacillus, foi utilizado para testes in vivo em plantas de couve-manteiga, em condições de casa de vegetação. A inoculação artificial de couve-manteiga com X. campestris pré-tratada com o FEB-8 demonstrou que a bactéria perde a habilidade de colonizar a couve e causar a podridão negra, o que indica o potencial do uso deste isolado para proteger a couve-manteiga da infecção por X. campestris.

Solos

Solos supressivos

Bactérias

Podridão negra

Biologia do solo

Xanthomonas campestris

Atividade antagonista

Controle biológico

Crucíferas

Antagonist activity

Black rot

Biocontrol

Cruciferous

CIENCIAS AGRARIAS

Indole-3-Carbinol Inhibition of Herpes Simplex Virus Replication

Stoner, Terri Dorene

03 December 2008

No description available.

Biomedical Research

Indole-3-Carbinol

Herpes Simplex Virus

antiviral

broccoli

G1/S

I3C

cell cycle

cyclin dependent kinase

cyclin

MRC-5 cells

HSV

cruciferous

phytocompound

Chemopreventative and chemotherapeutic properties of whole cruciferous vegetables and phytochemical components in acute T-cell lymphoblastic leukemia/lymphoma

Shorey, Lyndsey E.

24 May 2012

Acute lymphoblastic leukemia (ALL) encompasses a spectrum of lymphoid progenitors that have undergone malignant transformation and clonal proliferation at various stages of differentiation. Some cases of ALL have been documented to have prenatal origins and in particular neonatal exposure to various environmental pollutants is associated with increased disease risk, including childhood lymphoma and leukemia. Dibenzo[def,p]chrysene (DBC) is a polycyclic aromatic hydrocarbon (PAH) and in our laboratory has been established as a transplacental carcinogen in mice, producing aggressive T-cell lymphoblastic lymphomas, lung, liver, uterine, ovarian, and testicular lesions, depending on timing and dose of exposure. Investigation of the transplacental and translactational transfer of DBC was warranted following a cross-foster experiment demonstrating the greatest tumorigenic response occurred in offspring both gestating in and nursed by an exposed female. [¹⁴C]-DBC (GD17) dosing was utilized to examine time-dependent alterations of [¹⁴C] in maternal and fetal tissues, excreta, and residual levels at weaning. Fetal tissue levels of [¹⁴C]-DBC equivalents were 10-fold lower than maternal tissue, and after weaning the residual body burden was roughly equivalent in offspring exposed only in utero or only via lactation. Certain bioactive food components, including indole-3-carbinol (I3C), 3,3'-diindolylmethane (DIM), and sulforaphane (SFN) from cruciferous vegetables have been shown to target cellular pathways regulating carcinogenesis. In the above mentioned DBC initiated model of carcinogenesis, I3C is an effective transplacental chemopreventive agent. We sought to extend our chemoprevention studies in mice to a human neoplasm in cell culture, analogous to the observed murine T-cell lymphomas. Treatment of the human T-ALL cell line CCRF-CEM (CEM) with I3C reduced cell proliferation and viability only at supraphysiologic concentrations whereas DIM, the primary acid condensation product of I3C, had a marked effect at low micromolar concentrations in vitro and reduced growth of CEM xenografts in vivo. Additional T-ALL lines, selected to represent the heterogeneity of the disease, (CCRF-HSB2, Jurkat, and SUP-T1) responded similarly in vitro, demonstrating a potential therapeutic value of DIM in T-ALL. Given that epigenetic reprograming is especially active during fetal development and that DNA hypermethylation contributes to the etiology of T-ALL we examined genome-wide DNA methylation in CEM. Differential methylation analysis revealed that DIM and I3C alter CpG methylation in unique, yet overlapping, gene targets. DIM treated cells exhibited a dose-dependent decrease in hypermethylation, an observation consistent with an epigenetic mechanism of cancer suppression. Pyroseqencing and RTPCR technologies were utilized to validate changes in DNA methylation and to compare these patterns with a transcriptional response in both novel targets and candidate genes selected from the literature. Collectively, these studies merited returning to the murine transplacental model for further investigation of genetic and epigenetic changes upon maternal dietary intervention with I3C. More importantly we incorporated whole cruciferous vegetable diets (10% broccoli sprouts or 10% Brussels sprouts), SFN diet, or the combination of SFN and I3C, in order to examine matrix and mixture effects. Preliminary analysis suggests a worse prognosis for those animals exposed in utero to SFN or the whole foods, especially males. As this is the first study to administer SFN or whole cruciferous vegetables in a transplacental model of carcinogenesis, our results warrant further study on the concentration dependent influence of these potent phytochemicals during the perinatal window. / Graduation date: 2012

Acute lymphoblastic leukemia

ALL

cruciferous vegetables

phytochemicals

transplacental chemopreventive agent

Lymphoblastic leukemia -- Chemotherapy

Cruciferae -- Health aspects

Phytochemicals -- Health aspects