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5. Supplemental calcium attenuates the colitis-related increase in diarrhea, intestinal permeability, and extracellular matrix breakdown in HLA-B27 transgenic rats

Author

Schepens, Marloes A.A., Schonewille, Arjan J., Vink, Carolien, van Schothorst, Evert M., Kramer, Evelien, Hendriks, Thijs, Brummer, Robert-Jan, Keijer, Jaap, van der Meer, Roelof, and Bovee-Oudenhoven, Ingeborg M.J.

Subjects
Colitis -- Care and treatment, Calcium, Dietary -- Usage, Calcium, Dietary -- Health aspects, Dietary supplements -- Usage, Dietary supplements -- Health aspects, Food/cooking/nutrition
Abstract

We have shown in several controlled rat and human infection studies that dietary calcium improves intestinal resistance and strengthens the mucosal barrier. Reinforcement of gut barrier function may alleviate inflammatory bowel disease (IBD). Therefore, we investigated the effect of supplemental calcium on spontaneous colitis development in an experimental rat model of IBD. HLA-B27 transgenic rats were fed a purified high-fat diet containing either a low or high calcium concentration (30 and 120 mmol [CaHPO.sub.4]/kg diet, respectively) for almost 7 wk. Inert chromium EDTA (CrEDTA) was added to the diets to quantify intestinal permeability by measuring urinary CrEDTA excretion. Relative fecal wet weight was determined to quantify diarrhea. Colonic inflammation was determined histologically and by measuring mucosal interleukin (IL)-1[beta]. In addition, colonic mucosal gene expression of individual rats was analyzed using wholegenome microarrays. The calcium diet significantly inhibited the increase in intestinal permeability and diarrhea with time in HLA-B27 rats developing colitis compared with the control transgenic rats. Mucosal IL-1[beta] levels were lower in calciumfed rats and histological colitis scores tended to be lower (P = 0.08). Supplemental calcium prevented the colitis-induced increase in the expression of extracellular matrix remodeling genes (e.g. matrix metalloproteinases, procollagens, and fibronectin), which was confirmed by quantitative real-time PCR and gelatin zymography. In conclusion, dietary calcium ameliorates several important aspects of colitis severity in HLA-B27 transgenic rats. Reduction of mucosal irritation by luminal components might be part of the mechanism. These results show promise for supplemental calcium as effective adjunct therapy for IBD. J. Nutr. 139: 1525-1533, 2009.

Published
2009

6. Missing lithotroph identified as new planctomycete

Author

Strous, Marc, Fuerst, John A., Kramer, Evelien H. M., Logemann, Susanne, Muyzer, Gerard, van de Pas-Schoonen, Katinka T., Webb, Richard, Kuenen, J. Gijs, and Jetten, Mike S. M.

Published
1999

9. Impaired barrier function by dietary fructo-oligosaccharides (FOS) in rats is accompanied by increased colonic mitochondrial gene expression

Author

Kramer Evelien, Keijer Jaap, Rodenburg Wendy, Vink Carolien, van der Meer Roelof, and Bovee-Oudenhoven Ingeborg MJ

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Dietary non-digestible carbohydrates stimulate the gut microflora and are therefore presumed to improve host resistance to intestinal infections. However, several strictly controlled rat infection studies showed that non-digestible fructo-oligosaccharides (FOS) increase, rather than decrease, translocation of Salmonella towards extra-intestinal sites. In addition, it was shown that FOS increases intestinal permeability already before infection. The mechanism responsible for this adverse effect of FOS is unclear. Possible explanations are altered mucosal integrity due to changes in tight junctions or changes in expression of defense molecules such as antimicrobials and mucins. To examine the mechanisms underlying weakening of the intestinal barrier by FOS, a controlled dietary intervention study was performed. Two groups of 12 rats were adapted to a diet with or without FOS. mRNA was collected from colonic mucosa and changes in gene expression were assessed for each individual rat using Agilent rat whole genome microarrays. Results Among the 997 FOS induced genes we observed less mucosal integrity related genes than expected with the clear permeability changes. FOS did not induce changes in tight junction genes and only 8 genes related to mucosal defense were induced by FOS. These small effects are unlikely the cause for the clear increase in intestinal permeability that is observed. FOS significantly increased expression of 177 mitochondria-related genes. More specifically, induced expression of genes involved in all five OXPHOS complexes and the TCA cycle was observed. These results indicate that dietary FOS influences intestinal mucosal energy metabolism. Furthermore, increased expression of 113 genes related to protein turnover, including proteasome genes, ribosomal genes and protein maturation related genes, was seen. FOS upregulated expression of the peptide hormone proglucagon gene, in agreement with previous studies, as well as three other peptide hormone genes; peptide YY, pancreatic polypeptide and cholecystokinin. Conclusion We conclude that altered energy metabolism may underly colonic barrier function disruption due to FOS feeding in rats.

Published
2008
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10. Salmonella induces prominent gene expression in the rat colon

Author

Roosing Susanne, Kramer Evelien, Keijer Jaap, Rodenburg Wendy, Vink Carolien, Katan Martijn B, van der Meer Roelof, and Bovee-Oudenhoven Ingeborg MJ

Subjects
Microbiology, QR1-502
Abstract

Abstract Background Salmonella enteritidis is suggested to translocate in the small intestine. In vivo it induces gene expression changes in the ileal mucosa and Peyer's patches. Stimulation of Salmonella translocation by dietary prebiotics fermented in colon suggests involvement of the colon as well. However, effects of Salmonella on colonic gene expression in vivo are largely unknown. We aimed to characterize time dependent Salmonella-induced changes of colonic mucosal gene expression in rats using whole genome microarrays. For this, rats were orally infected with Salmonella enteritidis to mimic a foodborne infection and colonic gene expression was determined at days 1, 3 and 6 post-infection (n = 8 rats per time-point). As fructo-oligosaccharides (FOS) affect colonic physiology, we analyzed colonic mucosal gene expression of FOS-fed versus cellulose-fed rats infected with Salmonella in a separate experiment. Colonic mucosal samples were isolated at day 2 post-infection. Results Salmonella affected transport (e.g. Chloride channel calcium activated 6, H+/K+ transporting Atp-ase), antimicrobial defense (e.g. Lipopolysaccharide binding protein, Defensin 5 and phospholipase A2), inflammation (e.g. calprotectin), oxidative stress related genes (e.g. Dual oxidase 2 and Glutathione peroxidase 2) and Proteolysis (e.g. Ubiquitin D and Proteosome subunit beta type 9). Furthermore, Salmonella translocation increased serum IFNγ and many interferon-related genes in colonic mucosa. The gene most strongly induced by Salmonella infection was Pancreatitis Associated Protein (Pap), showing >100-fold induction at day 6 after oral infection. Results were confirmed by Q-PCR in individual rats. Stimulation of Salmonella translocation by dietary FOS was accompanied by enhancement of the Salmonella-induced mucosal processes, not by induction of other processes. Conclusion We conclude that the colon is a target tissue for Salmonella, considering the abundant changes in mucosal gene expression.

Published
2007
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11. Different responses of Caco-2 and MCF-7 cells to silver nanoparticles are based on highly similar mechanisms of action.

Author

van der Zande, Meike, Undas, Anna K., Kramer, Evelien, Monopoli, Marco P., Peters, Ruud J., Garry, David, Antunes Fernandes, Elsa C., Hendriksen, Peter J., Marvin, Hans J.P., Peijnenburg, Ad A., and Bouwmeester, Hans

Subjects
SILVER nanoparticles, INGESTION, EPITHELIAL cells, CANCER cells, GENE expression, CELL death
Abstract

The mode of action of silver nanoparticles (AgNPs) is suggested to be exerted through both Ag+and AgNP dependent mechanisms. Ingestion is one of the major NP exposure routes, and potential effects are often studied using Caco-2 cells, a well-established model for the gut epithelium. MCF-7 cells are epithelial breast cancer cells with extensive well-characterized toxicogenomics profiles. In the present study, we aimed to gain a deeper understanding of the cellular molecular responses in Caco-2 and MCF-7 cells after AgNP exposure in order to evaluate whether epithelial cells derived from different tissues demonstrated similar responses. These insights could possibly reduce the size of cell panels for NP hazard identification screening purposes. AgNPs of 20, 30, 60, and 110 nm, and AgNO3were exposed for 6 h and 24 h. AgNPs were shown to be taken up and dissolve intracellularly. Compared with MCF-7 cells, Caco-2 cells showed a higher sensitivity to AgNPs, slower gene expression kinetics and absence of NP size-dependent responses. However, on a molecular level, no significant differences were observed between the two cell types. Transcriptomic analysis showed that Ag(NP) exposure caused (oxidative) stress responses, possibly leading to cell death in both cell lines. There was no indication for effects specifically induced by AgNPs. Responses to AgNPs appeared to be induced by silver ions released from the AgNPs. In conclusion, differences in mRNA responses to AgNPs between Caco-2 and MCF-7 cells were mainly related to timing and magnitude, but not to a different underlying mechanism. [ABSTRACT FROM AUTHOR]

Published
2016
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12. In vitro gastrointestinal digestion increases the translocation of polystyrene nanoparticles in an in vitro intestinal co-culture model.

Author

Walczak, Agata P., Kramer, Evelien, Hendriksen, Peter J. M., Helsdingen, Richard, van der Zande, Meike, Rietjens, Ivonne M. C. M., and Bouwmeester, Hans

Subjects
*GASTROINTESTINAL system, *NANOPARTICLES, *BIOAVAILABILITY, *CYTOLOGICAL research, *INGESTION
Abstract

The conditions of the gastrointestinal tract may change the physicochemical properties of nanoparticles (NPs) and therewith the bioavailability of orally taken NPs. Therefore, we assessed the impact ofin vitrogastrointestinal digestion on the protein corona of polystyrene NPs (PS-NPs) and their subsequent translocation across anin vitrointestinal barrier. A co-culture of intestinal Caco-2 and HT29-MTX cells was exposed to 50 nm PS-NPs of different charges (positive and negative) in two forms: pristine and digested in anin vitrogastrointestinal digestion model.In vitrodigestion significantly increased the translocation of all, except the “neutral”, PS-NPs. Uponin vitrodigestion, translocation was 4-fold higher for positively charged NPs and 80- and 1.7-fold higher for two types of negatively charged NPs. Digestion significantly reduced the amount of protein in the corona of three out of four types of NPs. This reduction of proteins was 4.8-fold for “neutral”, 3.5-fold for positively charged and 1.8-fold for one type of negatively charged PS-NPs.In vitrodigestion also affected the composition of the protein corona of PS-NPs by decreasing the presence of higher molecular weight proteins and shifting the protein content of the corona to low molecular weight proteins. These findings are the first to report thatin vitrogastrointestinal digestion significantly affects the protein corona and significantly increases thein vitrotranslocation of differently charged PS-NPs. These findings stress the importance of including thein vitrodigestion in futurein vitrointestinal translocation screening studies for risk assessment of orally taken NPs. [ABSTRACT FROM PUBLISHER]

Published
2015
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13. Translocation of differently sized and charged polystyrene nanoparticles in in vitro intestinal cell models of increasing complexity.

Author

Walczak, Agata P., Kramer, Evelien, Hendriksen, Peter J. M., Tromp, Peter, Helsper, Johannes P. F. G., van der Zande, Meike, Rietjens, Ivonne M. C. M., and Bouwmeester, Hans

Subjects
*NANOPARTICLES, *DRUG bioavailability, *SURFACE chemistry, *POLYSTYRENE, *CELL culture, *HEALTH risk assessment
Abstract

Intestinal translocation is a key factor for determining bioavailability of nanoparticles (NPs) after oral uptake. Therefore, we evaluated threein vitrointestinal cell models of increasing complexity which might affect the translocation of NPs: a mono-culture (Caco-2 cells), a co-culture with mucus secreting HT29-MTX cells and a tri-culture with M-cells. Cell models were exposed to well characterized differently sized (50 and 100 nm) and charged (neutral, positively and negatively) polystyrene NPs. In addition, two types of negatively charged NPs with different surface chemistries were used. Size strongly affected the translocation of NPs, ranging up to 7.8% for the 50 nm NPs and 0.8% for the 100 nm NPs. Surface charge of NPs affected the translocation, however, surface chemistry seems more important, as the two types of negatively charged 50 nm NPs had an over 30-fold difference in translocation. Compared with the Caco-2 mono-culture, presence of mucus significantly reduced the translocation of neutral 50 nm NPs, but significantly increased the translocation of one type of negatively charged NPs. Incorporation of M-cells shifted the translocation rates for both NPs closer to those in the mono-culture model. The relative pattern of NP translocation in all three models was similar, but the absolute amounts of translocated NPs differed per model. We conclude that for comparing the relative translocation of different NPs, using one intestinal model is sufficient. To choose the most representative model for risk assessment,in vivoexperiments are now needed to determine thein vivotranslocation rates of the used NPs. [ABSTRACT FROM PUBLISHER]

Published
2015
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14. Sub-chronic toxicity study in rats orally exposed to nanostructured silica.

Author

van der Zande, Meike, Vandebriel, Rob J., Groot, Maria J., Kramer, Evelien, Rivera, Zahira E. Herrera, Rasmussen, Kirsten, Ossenkoppele, Jan S., Tromp, Peter, Gremmer, Eric R., Peters, Ruud J. B., Hendriksen, Peter J., Marvin, Hans J. P., Hoogenboom, Ron L. A. P, Peijnenburg, Ad A. C. M, and Bouwmeester, Hans

Subjects
SILICA, NANOSTRUCTURED materials, PULMONARY fibrosis, MINERAL toxicity, TOXICITY testing, BIOMARKERS
Abstract

Background Synthetic Amorphous Silica (SAS) is commonly used in food and drugs. Recently, a consumer intake of silica from food was estimated at 9.4 mg/kg bw/day, of which 1.8 mg/kg bw/day was estimated to be in the nano-size range. Food products containing SAS have been shown to contain silica in the nanometer size range (i.e. 5 - 200 nm) up to 43% of the total silica content. Concerns have been raised about the possible adverse effects of chronic exposure to nanostructured silica. Methods Rats were orally exposed to 100, 1000 or 2500 mg/kg bw/day of SAS, or to 100, 500 or 1000 mg/kg bw/day of NM-202 (a representative nanostructured silica for OECD testing) for 28 days, or to the highest dose of SAS or NM-202 for 84 days. Results SAS and NM-202 were extensively characterized as pristine materials, but also in the feed matrix and gut content of the animals, and after in vitro digestion. The latter indicated that the intestinal content of the mid/high-dose groups had stronger gel-like properties than the lowdose groups, implying low gelation and high bioaccessibility of silica in the human intestine at realistic consumer exposure levels. Exposure to SAS or NM-202 did not result in clearly elevated tissue silica levels after 28-days of exposure. However, after 84-days of exposure to SAS, but not to NM-202, silica accumulated in the spleen. Biochemical and immunological markers in blood and isolated cells did not indicate toxicity, but histopathological analysis, showed an increased incidence of liver fibrosis after 84-days of exposure, which only reached significance in the NM-202 treated animals. This observation was accompanied by a moderate, but significant increase in the expression of fibrosis-related genes in liver samples. Conclusions Although only few adverse effects were observed, additional studies are warranted to further evaluate the biological relevance of observed fibrosis in liver and possible accumulation of silica in the spleen in the NM-202 and SAS exposed animals respectively. In these studies, dose-effect relations should be studied at lower dosages, more representative of the current exposure of consumers, since only the highest dosages were used for the present 84-day exposure study. [ABSTRACT FROM AUTHOR]

Published
2014
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15. Beta-Carotene Reduces Body Adiposity of Mice via BCMO1.

Author

Amengual, Jaume, Gouranton, Erwan, van Helden, Yvonne G. J., Hessel, Susanne, Ribot, Joan, Kramer, Evelien, Kiec-Wilk, Beata, Razny, Ursula, Lietz, Georg, Wyss, Adrian, Dembinska-Kiec, Aldona, Palou, Andreu, Keijer, Jaap, Landrier, Jean François, Bonet, M. Luisa, and von Lintig, Johannes

Subjects
OBESITY, BETA carotene, CELL culture, CELLULAR signal transduction, NUCLEAR receptors (Biochemistry), OXYGENASES, ENZYME metabolism, LABORATORY mice
Abstract

Evidence from cell culture studies indicates that &bgr;-carotene-(BC)-derived apocarotenoid signaling molecules can modulate the activities of nuclear receptors that regulate many aspects of adipocyte physiology. Two BC metabolizing enzymes, the BC- 15,159-oxygenase (Bcmo1) and the BC-99,109-oxygenase (Bcdo2) are expressed in adipocytes. Bcmo1 catalyzes the conversion of BC into retinaldehyde and Bcdo2 into &bgr;-109-apocarotenal and &ggr;-ionone. Here we analyzed the impact of BC on body adiposity of mice. To genetically dissect the roles of Bcmo1 and Bcdo2 in this process, we used wild-type and Bcmo1-/- mice for this study. In wild-type mice, BC was converted into retinoids. In contrast, Bcmo1-/- mice showed increased expression of Bcdo2 in adipocytes and &bgr;-10'-apocarotenol accumulated as the major BC derivative. In wild-type mice, BC significantly reduced body adiposity (by 28%), leptinemia and adipocyte size. Genome wide microarray analysis of inguinal white adipose tissue revealed a generalized decrease of mRNA expression of peroxisome proliferator-activated receptor &ggr;(PPAR&ggr;) target genes. Consistently, the expression of this key transcription factor for lipogenesis was significantly reduced both on the mRNA and protein levels. Despite &bgr;-10'-apocarotenoid production, this effect of BC was absent in Bcmo1-/- mice, demonstrating that it was dependent on the Bcmo1-mediated production of retinoids. Our study evidences an important role of BC for the control of body adiposity in mice and identifies Bcmo1 as critical molecular player for the regulation of PPAR&ggr; activity in adipocytes [ABSTRACT FROM AUTHOR]

Published
2011
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16. Knockout of the Bcmo1 gene results in an inflammatory response in female lung, which is suppressed by dietary beta-carotene.

Author

Heil, Sandra G., Van Schooten, Frederik J., Kramer, Evelien, Hessel, Susanne, Amengual, Jaume, Ribot, Joan, Teerds, Katja, Wyss, Adrian, Lietz, Georg, Bonet, M. Luisa, Von Lintig, Johannes, Godschalk, Roger W. L., Keijer, Jaap, and Van Helden, Yvonne G. J.

Subjects
BETA carotene, MONOOXYGENASES, INFLAMMATION, GENE expression, GENETIC polymorphisms
Abstract

Beta- carotene 15,15′- monooxygenase 1 knockout ( Bcmo1−/−) mice accumulate beta-carotene (BC) similarly to humans, whereas wild-type ( Bcmo1+/+) mice efficiently cleave BC. Bcmo1− /− mice are therefore suitable to investigate BC-induced alterations in gene expression in lung, assessed by microarray analysis. Bcmo1− /− mice receiving control diet had increased expression of inflammatory genes as compared to BC-supplemented Bcmo1− /− mice and Bcmo1+/+ mice that received either control or BC-supplemented diets. Differential gene expression in Bcmo1− /− mice was confirmed by real-time quantitative PCR. Histochemical analysis indeed showed an increase in inflammatory cells in lungs of control Bcmo1− /− mice. Supported by metabolite and gene-expression data, we hypothesize that the increased inflammatory response is due to an altered BC metabolism, resulting in an increased vitamin A requirement in Bcmo1−/− mice. This suggests that effects of BC may depend on inter-individual variations in BC-metabolizing enzymes, such as the frequently occurring human polymorphisms in BCMO1. [ABSTRACT FROM AUTHOR]

Published
2010
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17. Impaired barrier function by dietary fructo-oligosaccharides (FOS) in rats is accompanied by increased colonic mitochondrial gene expression.

Author

Rodenburg, Wendy, Keijer, Jaap, Kramer, Evelien, Vink, Carolien, van der Meer, Roelof, and Bovee-Oudenhoven, Ingeborg M. J.

Subjects
FRUCTOSE, OLIGOSACCHARIDES, MITOCHONDRIA, GENE expression, CHROMOSOMAL translocation, SALMONELLA, ENERGY metabolism, LABORATORY rats
Abstract

Background: Dietary non-digestible carbohydrates stimulate the gut microflora and are therefore presumed to improve host resistance to intestinal infections. However, several strictly controlled rat infection studies showed that non-digestible fructo-oligosaccharides (FOS) increase, rather than decrease, translocation of Salmonella towards extra-intestinal sites. In addition, it was shown that FOS increases intestinal permeability already before infection. The mechanism responsible for this adverse effect of FOS is unclear. Possible explanations are altered mucosal integrity due to changes in tight junctions or changes in expression of defense molecules such as antimicrobials and mucins. To examine the mechanisms underlying weakening of the intestinal barrier by FOS, a controlled dietary intervention study was performed. Two groups of 12 rats were adapted to a diet with or without FOS. mRNA was collected from colonic mucosa and changes in gene expression were assessed for each individual rat using Agilent rat whole genome microarrays. Results: Among the 997 FOS induced genes we observed less mucosal integrity related genes than expected with the clear permeability changes. FOS did not induce changes in tight junction genes and only 8 genes related to mucosal defense were induced by FOS. These small effects are unlikely the cause for the clear increase in intestinal permeability that is observed. FOS significantly increased expression of 177 mitochondria-related genes. More specifically, induced expression of genes involved in all five OXPHOS complexes and the TCA cycle was observed. These results indicate that dietary FOS influences intestinal mucosal energy metabolism. Furthermore, increased expression of 113 genes related to protein turnover, including proteasome genes, ribosomal genes and protein maturation related genes, was seen. FOS upregulated expression of the peptide hormone proglucagon gene, in agreement with previous studies, as well as three other peptide hormone genes; peptide YY, pancreatic polypeptide and cholecystokinin. Conclusion: We conclude that altered energy metabolism may underly colonic barrier function disruption due to FOS feeding in rats. [ABSTRACT FROM AUTHOR]

Published
2008
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18. Dietary modulation and structure prediction of rat mucosal pentraxin (Mptx) protein and loss of function in humans.

Author

Meer-van Kraaij, Cindy, Siezen, Roland, Kramer, Evelien, Reinders, Marjolein, Blokzijl, Hans, Meer, Roelof, and Keijer, Jaap

Abstract

Mucosal pentraxin (Mptx), identified in rats, is a short pentraxin of unknown function. Other subfamily members are Serum amyloid P component (SAP), C-reactive protein (CRP) and Jeltraxin. Rat Mptx mRNA is predominantly expressed in colon and in vivo is strongly (30-fold) regulated by dietary heme and calcium, modulators of colon cancer risk. This renders Mptx a potential nutrient sensitive biomarker of gut health. To support a role as biomarker, we examined whether the pentraxin protein structure is conserved, whether Mptx protein is nutrient-sensitively expressed and whether Mptx is expressed in mouse and human. Sequence comparison and 3D modelling showed that rat Mptx is highly homologous to the other pentraxins. The calcium-binding site and subunit interaction sites are highly conserved, while a loop deletion and charged residues contribute to a distinctive “top” face of the pentamer. In accordance with mRNA expression, Mptx protein is strongly down-regulated in rat colon mucosa in response to high dietary heme intake. Mptx mRNA is expressed in rat and mouse colon, but not in human colon. A stop codon at the beginning of human exon two indicates loss of function, which may be related to differences in intestinal cell turnover between man and rodents. [ABSTRACT FROM AUTHOR]

Published
2007
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19. Gene expression response of the rat small intestine following oral Salmonella infection.

Author

Rodenburg, Wendy, Bovee-Oudenhoven, Ingeborg M. J., Kramer, Evelien, van der Meer, Roelof, and Keijer, Jaap

Abstract

Data on the molecular response of the intestine to the food-borne pathogen Salmonella are derived from in vitro studies, whereas in vivo data are lacking. We performed an oral S. enteritidis infection study in Wistar rats to obtain insight in the in vivo response in time. Expression profiles of ileal mucosa (IM) and Peyer's patches (PP) were generated using DNA microarrays at days 1, 3, and 6 postinfection. An overview of Salmonella-regulated processes was obtained and confirmed by quantitative real-time PCR on pooled and individual samples. Salmonella-induced gene expression responses in vivo are fewer and smaller than observed in vitro, and the response develops over a longer period of time. Few effects are seen at day 1 and mainly occur in IM, suggesting the mucosa as the primary site of invasion. Later, a bigger response is observed, especially in PP. Decreased expression of anti-microbial peptides genes (in IM at day 1) suggests inhibition of this process by Salmonella. Newly identified target processes are carbohydrate transport (increased expression in IM at day 1) and phase I and phase II detoxification (decreased expression at days 3 and 6). Increase of cytokine and chemokine expression occurs at later time points, both in PP and IM. Pancreatitis-associated protein, lipocalin 2, and calprotectin, potential inflammatory marker proteins, showed induced expression from day 3 onward. We conclude that the in vivo gene expression response of the ileum to Salmonella differs to a large extent from the response seen in vitro. [ABSTRACT FROM AUTHOR]

Published
2007
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21. Identification ofcat sequences required for intron-dependent gene expression in maize cells.

Author

Rethmeier, Nikki, Kramer, Evelien, va, Marc, Montagu, n, and Cornelissen, Marc

Subjects
*NUCLEOTIDE sequence, *GENE expression in plants, CORN genetics
Abstract

Summary: Transgene expression in maize cells changed from intron-independent to intron-dependent by an exact exchange of the bar coding region for that of cat. By deletion mapping an approximately 100 nucleotide sequence element at the 5′ end of the cat coding region was identified that, when inserted at the translation start site of the bar gene, impaired expression. Successive inclusion of the salT intron in the 5′ untranslated region (UTR) restored expression near to wild-type bar expression levels. A chimeric gfp gene, but not nptII gene, behaved similarly. These observations are in agreement with the view that intron-mediated enhancement of transgene expression does not enhance, but rather restores expression of an impaired gene. [ABSTRACT FROM AUTHOR]

Published
1998
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22. Assessment of representational difference analysis (RDA) to construct informative cDNA microarrays for gene expression analysis of species with limited transcriptome information, using red and green tomatoes as a model

Author

Kok, Esther J., Franssen-van Hal, Nicole L.W., Winnubst, Lies N.W., Kramer, Evelien H.M., Dijksma, Wilko T.P., Kuiper, Harry A., and Keijer, Jaap

Subjects
*GENE expression, *MESSENGER RNA, *SPECIES hybridization, *GENETIC regulation
Abstract

Summary: Microarray technology makes it feasible to analyse the expression of thousands of different gene elements in a single experiment. Most informative are ‘whole genome’ arrays, where all gene expression products of a single species or variety are represented. Such arrays are now available for a limited number of model species. However, for other, less well-documented species other routes are still necessary to obtain informative arrays. This includes the use of cDNA libraries. To enhance the amount of information that can be obtained from cDNA libraries, redundancy needs to be minimised, and the number of cDNAs relevant for the conditions of interest needs to be increased. Here, we used representational difference analysis (RDA), a mRNA subtraction procedure, as a tool to enhance the efficiency of cDNA libraries to be used to generate microarrays. Tomato was chosen as a model system for a less well-documented species. cDNA libraries for two distinct physiological conditions of tomato fruits, red and green, were made. The libraries were characterized by sequencing and hybridisation analysis. The RDA procedure was shown to be effective in selecting for genes of relevance for the physiological conditions under investigation, and against constitutively expressed genes. At the same time, redundancy was reduced, but complete normalisation was not obtained, and subsequent sequence analysis will be required to obtain non-redundant arrays. Further, known and putative ripening-related cDNAs were identified in hybridisation experiments on the basis of RNA populations as isolated from the green and red stage of ripening. [Copyright &y& Elsevier]

Published
2007
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