Guts! Dietary modulation of innate defense

Necrotizing enterocolitis (NEC) is the most common gastro-intestinal emergency in the neonatal intensive care. The incidence of NEC ranges from 0.3 to 2.4 infants per 1000 live births, with nearly 70% of cases occurring in infants born at less than 36 weeks of gestation. The incidence of NEC varies, affecting 2-5% of all premature infants.[1] The overall mortality for NEC ranges from 10% to 50%.[2] Despite optimal medical and surgical management of NEC, infants that recover from the disease suffer from substantial morbidity, such as intestinal obstruction as a consequence of scarring, liver failure due to a prolonged requirement for total parenteral nutrition, short bowel syndrome with intestinal failure and associated nutritional deficiencies, and associated defects in growth and development.[3-4] Length of hospital stay in infants with surgical NEC and medically treated NEC exceeds those of controls by 60 days and 22 days respectively. Based on length of stay, the estimated total hospital charges for infants with surgical NEC in the USA averaged $186 200 in excess of those for controls and$73 700 more for infants with medical NEC. The yearly additional hospital charges for NEC were $216 666 per survivor.[5] Hence, NEC is a significant and growing health concern for prematurely born infants. The costs in the Netherlands are not exactly known, but will not be very different. As the number of preterm births has almost doubled over the past two decades in the Netherlands (Perinatale Registratie Nederland) and the United States (National Vital Statistics Report 2003), this burden will continue to increase. In addition, recently the national policy has changed into a more liberal approach to the lower limit of viability. More very immature infants (from a gestational age of 24 weeks onwards) will be given a chance to survive, with consequently more risk of developing NEC

Mucin Muc2 Deficiency and Weaning Influences the Expression of the Innate Defense Genes Reg3β, Reg3γ and Angiogenin-4

Background Mucin Muc2 is the structural component of the intestinal mucus layer. Absence of Muc2 leads to loss of this layer allowing direct bacterial-epithelial interactions. We hypothesized that absence of the mucus layer leads to increased expression of innate defense peptides. Specifically, we aimed to study the consequence of Muc2 deficiency (Muc2-/-) on the expression of regenerating islet-derived protein 3 beta (Reg3ß), regenerating islet-derived protein 3 gamma (Reg3¿), and angiogenin-4 (Ang4) in the intestine shortly before and after weaning. Methods Intestinal tissues of Muc2-/- and wild-type (WT) mice were collected at postnatal day 14 (P14, i.e. pre-weaning) and P28 (i.e. post-weaning). Reg3ß, Reg3¿, and Ang4 expression was studied by quantitative real-time PCR, Western-blot, in situ hybridization, and immunohistochemistry. Results Reg3ß and Reg3¿ were expressed by diverging epithelial cell types; namely enterocytes, Paneth cells, and goblet cells. Additionally, Ang4 expression was confined to Paneth cells and goblet cells. Expression of Reg3ß, Reg3¿, and Ang4 differed between WT and Muc2-/- mice before and after weaning. Interestingly, absence of Muc2 strongly increased Reg3ß and Reg3¿ expression in the small intestine and colon. Finally, morphological signs of colitis were only observed in the distal colon of Muc2-/- mice at P28, where and when expression levels of Reg3ß, Reg3¿, and Ang4 were the lowest. Conclusions Expression of Reg3 proteins and Ang4 by goblet cells point to an important role for goblet cells in innate defense. Absence of Muc2 results in up-regulation of Reg3ß and Reg3¿ expression, suggesting altered bacterial-epithelial signaling and an innate defense response in Muc2-/- mice. The inverse correlation between colitis development and Reg3ß, Reg3¿, and Ang4 expression levels might point toward a role for these innate defense peptides in regulating intestinal inflammatio

Colonic gene expression patterns of mucin muc2 knockout mice reveal various phases in colitis development

BACKGROUND:: Mucin Muc2 knockout (Muc2(-/-)) mice spontaneously develop colitis. METHODS:: To identify genes and biological responses which play a pivotal role during colitis development in Muc2(-/-) mice, gene expression profiles of colonic tissues from 2- and 4-week-old Muc2(-/-) and wildtype mice were determined using microarrays. RESULTS:: The majority of highly upregulated genes in 2-week-old as well as 4-week-old Muc2(-/-) mice were primarily involved in immune responses related to antigen processing/presentation, B-cell and T-cell receptor signaling, leukocyte transendothelial migration, and Jak-STAT signaling. Specifically, Muc2(-/-) mice expressed high levels of immunoglobulins, murine histocompatibility-2, proinflammatory cytokines, chemokines, and antimicrobial proteins. Additionally, in 4-week-old Muc2(-/-) mice, expression of genes involved in cell structure related pathways was significantly altered. Particularly, the tight junction-associated gene claudin-10 was upregulated, whereas claudin-1 and claudin-5 were downregulated. Furthermore, 4-week-old Muc2(-/-) mice showed increased expression of genes regulating cell growth in conjunction with increased crypt length and increased epithelial proliferation. CONCLUSIONS:: Muc2-deficiency leads to an active inflammatory response in 2- and 4-week-old Muc2(-/-) mice as demonstrated by the altered expression in immune response related genes. In addition, 4-week-old Muc2(-/-) mice also showed a decrease in epithelial barrier function and an increase in epithelial proliferation as indicated by, respectively, the altered expression in tight junction-related genes and upregulation of genes stimulating cell growth. Remarkably, upregulation of genes stimulating cell growth correlated with increased crypt length and increased epithelial proliferation in 4-week-old Muc2(-/-) mice. Together, these data demonstrate that there are distinct phases in colitis development in 2-4-week-old Muc2(-/-) mice. (Inflamm Bowel Dis 2011;

The regulation of intestinal mucin MUC2 expression by short-chain fatty acids: implications for epithelial protection

SCFAs (short-chain fatty acids), fermentation products of bacteria, influence epithelial-specific gene expression. We hypothesize that SCFAs affect goblet-cell-specific mucin MUC2 expression and thereby alter epithelial protection. In the present study, our aim was to investigate the mechanisms that regulate butyrate-mediated effects on MUC2 synthesis. Human goblet cell-like LS174T cells were treated with SCFAs, after which MUC2 mRNA levels and stability, and MUC2 protein expression were analysed. SCFA-responsive regions and cis-elements within the MUC2 promoter were identified by transfection and gel-shift assays. The effects of butyrate on histone H3/H4 status at the MUC2 promoter were established by chromatin immunoprecipitation. Butyrate (at 1 mM), as well as propionate, induced an increase in MUC2 mRNA levels. MUC2 mRNA levels returned to basal levels after incubation with 5-15 mM butyrate. Interestingly, this decrease was not due to loss of RNA stability. In contrast, at concentrations of 5-15 mM propionate, MUC2 mRNA levels remained increased. Promoter-regulation studies revealed an active butyrate-responsive region at -947/-371 within the MUC2 promoter. In this region we identified an active AP1 (c-Fos/c-Jun) cis-element at -818/-808 that mediates butyrate-induced activation of the promoter. Finally, MUC2 regulation by butyrate at 10-15 mM was associated with increased acetylation of histone H3 and H4 and methylation of H3 at the MUC2 promoter. In conclusion, 1 mM butyrate and 1-15 mM propionate increase MUC2 expression. The effects of butyrate on MUC2 mRNA are mediated via AP-1 and acetylation/methylation of histones at the MUC2 promote

Colitis development during the suckling-weaning transition in mucin Muc2-deficient mice

The mucin Muc2 is the structural component of the colonic mucus layer. Adult Muc2 knockout (Muc2(-/-)) mice suffer from severe colitis. We hypothesized that Muc2 deficiency induces inflammation before weaning of mother's milk [postnatal day (P) 14] with aggravation of colitis after weaning (P28). Muc2(-/-) and wild-type mice were killed at embryonic day 18.5 and P1.5, P7.5, P14, P21, and P28. Colonic morphology, influx of T cells, and goblet cell-specific protein expression was investigated by (immuno)histochemistry. Cytokine and Toll-like receptor (TLR) profiles in the colon were analyzed by quantitative RT-PCR. Muc2(-/-) mice showed an increased and persistent influx of Cd3ε-positive T cells in the colonic mucosa as of P1.5. This was accompanied by mucosal damage at P28 in the distal colon but not in the proximal colon. At P14, the proinflammatory immune response [i.e., increased interleukin (IL)-12 p35, IL-12 p40, and tumor necrosis factor-α, expression] in the distal colon of Muc2(-/-) mice presented with an immune suppressive response [i.e., increased Foxp3, transforming growth factor (TGF)-β1, IL-10, and Ebi3 expression]. In contrast, at P28, a proinflammatory response remained in the distal colon, whereas the immune suppressive response (i.e., Foxp3 and TGF-β1 expression) declined. The proximal colon of Muc2(-/-) mice did not show morphological damage and was dominated by an immune suppressive response at P14 and P28. Interestingly, changes in expression of TLRs and TLR-related molecules were observed in the distal colon at P14 and P28 and in the proximal colon only at P28. Colitis in Muc2(-/-) mice is limited before weaning by immune suppressive responses and exacerbates in the distal colon after weaning because of the decline in the immune suppressive respons

Localization of Reg3β protein in the proximal colon.

<p>Reg3β (A, B, E, F) and Reg3γ (C, D, G, H) expression in the proximal colon at P14 (A–D) and P28 (E–H). Note, in WT mice Reg3β and Reg3γ were only expressed by enterocytes, whereas in Muc2^−/− mice these proteins were expressed by enterocytes and putative ‘goblet’ cells. Bar represents 50 µm.</p