Activation of RegIIIbeta/gamma and interferon gamma expression in the intestinal tract of SCID mice: an innate response to bacterial colonisation of the gut.

BACKGROUND AND AIMS: The mechanisms by which commensal bacteria provoke intestinal inflammation in animal models of inflammatory bowel disease (IBD) remain incompletely defined, leading to increasing interest in the innate immune response of the colonic mucosa to bacterial colonisation. METHODS: Using gene expression profiling of colonic RNA from C.B17.SCID germ free mice and those colonised with altered Schaedler's flora, we investigated the innate immune response to bacterial colonisation in vivo. The two most consistently induced gene groups were RegIIIbeta and gamma as well as interferon gamma (IFN-gamma) response genes. RESULTS: Using quantitative reverse transcription-polymerase chain reaction, we showed that RegIIIbeta, RegIIIgamma, and IFN-gamma were constitutively expressed in the colon of conventionally housed SCID mice compared with either germ free SCID or conventionally housed BALB/c mice. Induction of these genes was reproduced by chronic monoassociation of germ free SCID mice with either of two separate gut commensal bacterial species-segmented filamentous bacteria and Schaedler's Escherichia coli. The cellular source for IFN-gamma on monoassociation of SCID mice with Schaedler's E coli was localised to a subset of intraepithelial natural killer (IENK) cells that express asialo-GM1. In vivo IFN-gamma immunoneutralisation studies failed to demonstrate any alteration in RegIIIbeta or gamma expression. CONCLUSIONS: Thus bacterial colonisation of the colon independently activates two distinct innate immune cell types at the mucosal interface with the colonic lumen, intestinal epithelial cells, and IENK cells, a response that may be regulated by the adaptive immune system. These innate immune responses may play a role in the pathogenesis of colitis in SCID adoptive transfer models in mice and possibly in patients with IBD.

FYVE domain targets Pib1p ubiquitin ligase to endosome and vacuolar membranes.

Signaling by phosphatidylinositol 3-kinases (PI3Ks) is often mediated by proteins which bind PI3K products directly and are localized to intracellular membranes rich in PI3K products. The FYVE finger domain binds with high specificity to PtdIns3P and proteins containing this domain have been shown to be important components of diverse PI3K signaling pathways. The genome of the yeast Saccharomyces cerevisiae encodes five proteins containing FYVE domains, including Pib1p, whose function is unknown. In addition to a FYVE finger motif, the primary structure of Pib1p contains a region rich in cysteine and histidine residues that we demonstrate binds 2 mol eq of zinc, consistent with this region containing a RING structural domain. The Pib1p RING domain exhibited E2-dependent ubiquitin ligase activity in vitro, indicating that Pib1p is an E3 RING-type ubiquitin ligase. Fluorescence microscopy was used to demonstrate that a GFP-Pib1p fusion protein localized to endosomal and vacuolar membranes and deletional analysis of Pib1p domains indicated that localization of GFP-Pib1p is mediated solely by the FYVE domain. These results suggest that Pib1p mediates ubiquitination of a subset of cellular proteins localized to endosome and vacuolar membranes, and they expand the repertoire of PI3K-regulated pathways identified in eukaryotic cells.