Innate PI3K p110δ regulates Th1/Th17 development and microbiota-dependent colitis.

The p110δ subunit of class IA PI3K modulates signaling in innate immune cells. We previously demonstrated that mice harboring a kinase-dead p110δ subunit (p110δ(KD)) develop spontaneous colitis. Macrophages contributed to the Th1/Th17 cytokine bias in p110δ(KD) mice through increased IL-12 and IL-23 expression. In this study, we show that the enteric microbiota is required for colitis development in germfree p110δ(KD) mice. Colonic tissue and macrophages from p110δ(KD) mice produce significantly less IL-10 compared with wild-type mice. p110δ(KD) APCs cocultured with naive CD4+ Ag-specific T cells also produce significantly less IL-10 and induce more IFN-γ- and IL-17A-producing CD4+ T cells compared with wild-type APCs. Illustrating the importance of APC-T cell interactions in colitis pathogenesis in vivo, Rag1(-/-)/p110δ(KD) mice develop mild colonic inflammation and produced more colonic IL-12p40 compared with Rag1(-/-) mice. However, CD4+ CD45RB(high/low) T cell Rag1(-/-)/p110δ(KD) recipient mice develop severe colitis with increased percentages of IFN-γ- and IL-17A-producing lamina propria CD3+D4+ T cells compared with Rag1(-/-) recipient mice. Intestinal tissue samples from patients with Crohn's disease reveal significantly lower expression of PIK3CD compared with intestinal samples from non-inflammatory bowel disease control subjects (p < 0.05). PIK3CD expression inversely correlates with the ratio of IL12B:IL10 expression. In conclusion, the PI3K subunit p110δ controls homeostatic APC-T cell interactions by altering the balance between IL-10 and IL-12/23. Defects in p110δ expression and/or function may underlie the pathogenesis of human inflammatory bowel disease and lead to new therapeutic strategies.

Young Investigator Perspectives. Teaching and the postdoctoral experience: impact on transition to faculty positions.

This editorial continues with our Young Investigator Perspectives series. Drs. Uno and Walton are young investigators who hold faculty positions. They completed a K12 postdoctoral program through the IRACDA (Individual Research and Career Development Award) program sponsored through the NIGMS institute at NIH. IRACDA programs exist at multiple institutions in the USA to combine postdoctoral training with formal training in academic skills and teaching at partner institutions. I thank Drs. Walton and Uno for a thoughtful perspective on how this experience shaped their career goals to combine teaching and research and inspire undergraduates to science careers. Given the current national dialog on broadening career paths and outcomes for PhD scientists, this is a timely perspective. -P. Kay Lund.

Altered macrophage function contributes to colitis in mice defective in the phosphoinositide-3 kinase subunit p110δ.

BACKGROUND & AIMS: Innate immune responses are crucial for host defense against pathogens but need to be tightly regulated to prevent chronic inflammation. Initial characterization of mice with a targeted inactivating mutation in the p110δ subunit of phosphoinositide 3-kinase (PI3K p110δ(D910A/D910A)) revealed defects in B- and T-cell signaling and chronic colitis. Here, we further characterize features of inflammatory bowel diseases in these mice and investigate underlying innate immune defects. METHODS: Colons and macrophages from PI3K p110δ(D910A/D910A) mice were evaluated for colonic inflammation and innate immune dysfunction. Colonic p110δ messenger RNA expression was examined in interleukin (IL)-10(-/-) and wild-type germ-free mice during transition to a conventional microbiota. To assess polygenic impact on development of colitis, p110δ(D910A/D910A) mice were backcrossed to IL-10(-/-) mice. RESULTS: A mild spontaneous colitis was shown in PI3K p110δ(D910A/D910A) mice at 8 weeks, with inflammation increasing with age. An inflammatory mucosal and systemic cytokine profile was characterized by expression of IL-12/23. In PI3K p110δ(D910A/D910A) macrophages, augmented toll-like receptor signaling and defective bactericidal activity were observed. Consistent with an important homeostatic role for PI3K p110δ, wild-type mice raised in a germ-free environment markedly up-regulated colonic PI3K p110δ expression with the introduction of the enteric microbiota; however, colitis-prone IL-10(-/-) mice did not. Moreover, PI3K p110δ(D910A/D910A) mice crossed to IL-10(-/-) mice developed severe colitis at an early age. CONCLUSIONS: This study describes a novel model of experimental colitis that highlights the importance of PI3K p110δ in maintaining mucosal homeostasis and could provide insight into the pathogenesis of human inflammatory bowel disease.

Tumor necrosis factor-{alpha} downregulates intestinal NHE8 expression by reducing basal promoter activity.

NHE8 transporter is a member of the sodium/hydrogen exchanger (NHE) family. This transporter protein is expressed at the apical membrane of epithelial cells of kidney and intestine and contributes to vectorial Na(+) transport in both tissues. Although NaCl absorption has been shown to be reduced in diarrhea associated with colitis and enteritis, little is known about the role of Na(+)/H(+) exchange and the involvement of NHE isoforms in the pathogenesis of inflammatory disorders and the mechanism of inflammation-associated diarrhea. This study investigated the role of NHE8 in the setting of inflammatory states. Jejunal mucosa was harvested from trinitrobenzene sulfonic acid (TNBS) colitis rats or lipopolysaccharide (LPS) rats for RNA extraction and brush-border membrane protein purification. The human NHE8 gene promoter was cloned from human genomic DNA and characterized in Caco-2 cells. The promoter was further used to study the mechanisms of TNF-alpha-mediated NHE8 expression downregulation in Caco-2 cells. Results from Western blot and real-time PCR indicated that NHE8 protein and mRNA were significantly reduced in TNBS rats and LPS rats. In Caco-2 cells, TNF-alpha produces similar reduction levels in the endogenous NHE8 mRNA expression observed in our in vivo studies. The downregulation of NHE8 expression mediated by TNF-alpha could be blocked by transcription inhibitor actinomycin D, suggesting the involvement of transcriptional regulation. Further studies indicated that the human NHE8 gene transcription could be activated by Sp3 transcriptional factor, and TNF-alpha inhibits human NHE8 expression by reducing Sp3 interaction at the minimal promoter region of the human NHE8 gene. In conclusion, our studies suggest that TNF-alpha decreases NHE8 expression in inflammation induced by TNBS and LPS, which may contribute to the diarrhea associated with inflammation.

Abnormal mucosal immune response to altered bacterial flora following restorative proctocolectomy in patients with ulcerative colitis: serologic measures, immunogenetics, and clinical correlations.

A patient from the University of North Carolina Hospitals is presented who developed Crohn's disease of the ileal J-pouch following restorative proctocolectomy for ulcerative colitis. Inflammation of the ileal pouch in human inflammatory bowel disease (IBD) represents the best clinical example of the importance of host-enteric microbial interactions, and this case highlights rapid advances in our understanding of the role of the enteric microbiota in the immunopathogenesis of IBD, impacting on clinical care. Successful management of this patient necessitated accurate diagnosis as there are several inflammatory and non-inflammatory conditions of the pouch that present with similar symptoms. Diagnostic measures included serologic assays of response to microbial antigens, including ASCA, anti-OmpC, anti-Cbir1, and pANCA with DNAse sensitivity. Although the serologic detection of selective loss of tolerance to microbial antigens defines clinically important subgroups of inflammatory bowel disease patients, the clinical value of these serodiagnostic tests is a matter of debate. Genome wide screens have also identified NOD2/CARD15, IL23 receptor, and ATG16L1 variants as important in IBD susceptibility and pathogenesis. These genetic associations have also provided new insights into the importance of interaction between the host and microbes in the pathogenesis of IBD, but the precise mechanisms by which these gene variants contribute to disease development remain to be determined. Genetic associations and serological markers will ultimately be used to define important clinical subgroups of disease, predict natural history, and ultimately identify patient populations for early therapeutic intervention.

Protective effects of dietary curcumin in mouse model of chemically induced colitis are strain dependent.

BACKGROUND: Curcumin (diferulolylmethane) has been shown to have a protective role in mouse models of inflammatory bowel diseases (IBD) and to reduce the relapse rate in human ulcerative colitis (UC), thus making it a potentially viable supportive treatment option. Trinitrobenzene sulfonic acid (TNBS) colitis in NKT-deficient SJL/J mice has been described as Th1-mediated inflammation, whereas BALB/c mice are believed to exhibit a mixed Th1/Th2 response. METHODS: We therefore investigated the effect of dietary curcumin in colitis induced in these 2 strains. RESULTS: In the BALB/c mice, curcumin significantly increased survival, prevented weight loss, and normalized disease activity. In the SJL/J mice, curcumin demonstrated no protective effects. Genomewide microarray analysis of colonic gene expression was employed to define the differential effect of curcumin in these 2 strains. This analysis not only confirmed the disparate responses of the 2 strains to curcumin but also indicated different responses to TNBS. Curcumin inhibited proliferation of splenocytes from naive BALB/c mice but not SJL/J mice when nonspecifically stimulated in vitro with concanavalin A (ConA). Proliferation of CD4(+) splenocytes was inhibited in both strains, albeit with about a 2-fold higher IC(50) in SJL/J mice. Secretion of IL-4 and IL-5 by CD4(+) lymphocytes of BALB/c mice but not SJL/J mice was significantly augmented by ConA and reduced to control levels by curcumin. CONCLUSIONS: The efficacy of dietary curcumin in TNBS colitis varies in BALB/c and SJL/J mouse strains. Although the exact mechanism underlying these differences is unclear, the results suggest that the therapeutic value of dietary curcumin may differ depending on the nature of immune dysregulation in IBD.

Amelioration of chronic murine colitis by peptide-mediated transduction of the IkappaB kinase inhibitor NEMO binding domain peptide.

The NF-kappaB family of transcription factors is a central regulator of chronic inflammation. The phosphorylation of IkappaB proteins by the IkappaB kinase (IKK) complex (IKKalpha, IKKbeta, and NF-kappaB essential modulator or NEMO) is a key step in NF-kappaB activation. Peptides corresponding to the NEMO binding domain (NBD) of IKK blocks NF-kappaB activation without inhibiting basal NF-kappaB activity. In this report, we determined the effects of the IKK inhibitor peptide (NBD) in a model of spontaneously occurring chronic murine colitis, the IL-10-deficient (IL-10(-/-)) mouse. Using a novel cationic peptide transduction domain (PTD) consisting of eight lysine residues (8K), we were able to transduce the NBD peptide into cells and tissues. In a NF-kappaB reporter system, 8K-NBD dose-dependently inhibits TNF-induced NF-kappaB activation. Furthermore, 8K-NBD inhibited nuclear translocation of NF-kappaB family members. In NF-kappaB(EGFP) knock-in mice, 8K-NBD inhibited LPS-activated NF-kappaB (EGFP activity) in the ileum but did not inhibit basal NF-kappaB in Peyer's patches. IL-10(-/-) mice treated systemically with 8K-NBD demonstrate amelioration of established colitis, decreased NF-kappaB activation in the lamina propria, and a reduction in spontaneous intestinal IL-12 p40, TNF, IFN-gamma, and IL-17 production. These results demonstrate that inhibitors of IKK, in particular a PTD-NBD peptide, may be therapeutic in the treatment of inflammatory bowel disease.

Sp1 and Sp3 mediate NHE2 gene transcription in the intestinal epithelial cells.

Our previous studies have identified a minimal Sp1-driven promoter region (nt -36/+116) directing NHE2 expression in mouse renal epithelial cells. However, this minimal promoter region was not sufficient to support active transcription of NHE2 gene in the intestinal epithelial cells, suggesting the need for additional upstream regulatory elements. In the present study, we used nontransformed rat intestinal epithelial (RIE) cells as a model to identify the minimal promoter region and transcription factors necessary for the basal transcription of rat NHE2 gene in the intestinal epithelial cells. We identified a region within the rat NHE2 gene promoter located within nt -67/-43 upstream of transcription initiation site as indispensable for the promoter function in intestinal epithelial cells. Mutations at nt -56/-51 not only abolished the DNA-protein interaction in this region, but also completely abolished NHE2 gene promoter activity in RIE cells. Supershift assays revealed that Sp1 and Sp3 interact with this promoter region, but, contrary to the minimal promoter indispensable for renal expression of NHE2, both transcription factors expressed individually in Drosophila SL2 cells activated rat NHE2 gene promoter. Moreover, Sp1 was a weaker transactivator and when coexpressed in SL2 cells it reduced Sp3-mediated NHE2 basal promoter activity. Furthermore, DNase I footprinting confirmed that nt -58/-51 is protected by nuclear protein from RIE cells. We conclude that the mechanism of basal control of rat NHE2 gene promoter activity is different in the renal and intestinal epithelium, with Sp3 being the major transcriptional activator of NHE2 gene transcription in the intestinal epithelial cells.

The role of tumor necrosis factor alpha in down-regulation of osteoblast Phex gene expression in experimental murine colitis.

BACKGROUND & AIMS: Reduced bone mass is a common complication of inflammatory bowel disease (IBD), although the mechanisms that contribute to osteopenia are not completely understood. Tumor necrosis factor alpha (TNF-alpha) is up-regulated in patients with IBD and has detrimental effects on osteoblasts. Phex gene is expressed predominantly in osteoblasts, and its disruption results in defective bone mineralization. The aim of this study was to evaluate whether TNF-alpha regulates Phex gene expression thus contributing to the abnormal bone metabolism observed in IBD. METHODS: Phex gene expression was evaluated in calvaria of 6-7-week-old mice administered with trinitrobenzene sulfonic acid (TNBS) with or without neutralizing anti-TNF-alpha antibody, dietary curcumin, or systemically with recombinant TNF-alpha. TNF-alpha-treated UMR-106 osteoblasts were also examined. Phex promoter activity was assayed in transiently transfected TNF-alpha-treated UMR-106 cells. RESULTS: Compared with control animals, Phex messenger RNA (mRNA) expression decreased by 40%-50% in both TNBS colitis and TNF-alpha-injected mice. Dietary curcumin and anti-TNF-alpha antibody counteracted the detrimental effect of TNBS on Phex gene expression. TNF-alpha-treated UMR-106 cells showed a concentration-dependent and transcriptionally mediated decrease in Phex mRNA and gene promoter activity, with the -133 to -74 bp region of the Phex promoter likely involved in the mechanism of TNF-alpha action. Coinciding with decreased Phex protein level, TNF-alpha drastically reduced mineralization in UMR-106 osteoblasts. CONCLUSIONS: Acute colitis and TNF-alpha decrease Phex mRNA and protein expression via a transcriptional mechanism. TNF-alpha-mediated reduction in Phex protein is at least in part responsible for inhibition of osteoblast mineralization, and the described mechanism may contribute to the abnormal bone metabolism associated with IBD.

NF1 transcriptional factor(s) is required for basal promoter activation of the human intestinal NaPi-IIb cotransporter gene.

The human intestinal type IIb Na+-P(i) cotransporter (hNaPi-IIb) gene promoter lacks a TATA box and has a high GC content in the 5'-flanking region. To understand the mechanism of hNaPi-IIb gene transcription, the current study was performed to characterize the minimal promoter region and transcriptional factor(s) necessary to activate gene expression in human intestinal cells (Caco-2). With the use of progressively shorter promoter constructs, a minimal promoter extending from bp -58 to +15 was identified and shown to direct high levels of hNaPi-IIb cotransporter expression in Caco-2 cells. Gel mobility shift assays (GMSAs) indicated that two regions could be bound by nuclear proteins from Caco-2 cells: region A at bp -26/-23 and region B at bp -44/-35. The introduction of mutations in region A abolished promoter activity, whereas mutations in region B had no effect. Deletion mutants of the same regions showed identical results. Furthermore, DNase I footprinting experiments confirmed the observation made by GMSAs. Additional studies, which used a specific nuclear factor 1 (NF1) antiserum, demonstrated that NF1 protein(s) binds to the minimal promoter at region A. These results indicated that the NF1 protein(s) is required to activate the basal transcription of hNaPi-IIb gene under normal growth conditions. This study has thus identified a new target gene in the small intestinal epithelium that is directly regulated by NF1 transcriptional factor(s).

Regulation of intestinal NaPi-IIb cotransporter gene expression by estrogen.

The current experiments were designed to study the effect of beta-estradiol on type IIb sodium-coupled phosphate (NaPi-IIb) cotransporter gene expression. Uptake studies with intestinal brush-border membrane vesicles (BBMV) showed that estrogen treatment increased sodium-dependent phosphate absorption by approximately 45% in rat intestine. Northern blot analysis indicated that NaPi-IIb mRNA expression was increased by approximately 50% after estrogen treatment. Western blot analysis also detected an increase in BBMV NaPi-IIb protein expression in estrogen-treated rats. In human intestinal Caco-2 cells, NaPi-IIb mRNA abundance was increased approximately 60% after estrogen treatment, and this increase could be abolished by inhibition of gene transcription. Transfection studies with human NaPi-IIb promoter reporter constructs showed that the promoter was responsive to estrogen treatment. These studies demonstrate for the first time that estrogen stimulates intestinal sodium-dependent phosphate absorption in female rats. This stimulation is associated with increased NaPi-IIb mRNA and protein expression. Thus the effect of estrogen on intestinal Pi absorption may be partially due to activation of NaPi-IIb gene transcription.