Your search keyword '"Baggio, Cristiane H."' showing total 4 results

1. Protease-activated receptor 2 drives migration in a colon cancer cell line but not in noncancerous human epithelial cells

Author

Périco, Larissa Lucena, primary, Vegso, Andrew J., additional, Baggio, Cristiane H., additional, and MacNaughton, Wallace K., additional

Published

2024

2. Enteric tuft cells coordinate timely expulsion of the tapeworm Hymenolepis diminuta from the murine host by coordinating local but not systemic immunity.

Author

Rajeev, Sruthi, Li, ShuHua, Leon-Coria, Aralia, Wang, Arthur, Kraemer, Lucas, Wang, Susan Joanne, Boim, Annaliese, Flannigan, Kyle, Shute, Adam, Baggio, Cristiane H., Callejas, Blanca E., MacNaughton, Wallace K., Finney, Constance A. M., and McKay, Derek M.

Subjects

TAPEWORM infections, NEMATODE infections, INTESTINAL infections, SMALL intestine, PROTOZOAN diseases, TAPEWORMS

Abstract

Recognizing that enteric tuft cells can signal the presence of nematode parasites, we investigated whether tuft cells are required for the expulsion of the cestode, Hymenolepis diminuta, from the non-permissive mouse host, and in concomitant anti-helminthic responses. BALB/c and C57BL/6 mice infected with H. diminuta expelled the worms by 11 days post-infection (dpi) and displayed DCLK1+ (doublecortin-like kinase 1) tuft cell hyperplasia in the small intestine (not the colon) at 11 dpi. This tuft cell hyperplasia was dependent on IL-4Rα signalling and adaptive immunity, but not the microbiota. Expulsion of H. diminuta was slowed until at least 14 dpi, but not negated, in tuft cell-deficient Pou2f3-/- mice and was accompanied by delayed goblet cell hyperplasia and slowed small bowel transit. Worm antigen and mitogen evoked production of IL-4 and IL-10 by splenocytes from wild-type and Pou2f3-/- mice was not appreciably different, suggesting similar systemic immune reactivity to infection with H. diminuta. Wild-type and Pou2f3-/- mice infected with H. diminuta displayed partial protection against subsequent infection with the nematode Heligmosomoides bakeri. We speculate that, with respect to H. diminuta, enteric tuft cells are important for local immune events driving the rapidity of H. diminuta expulsion but are not critical in initiating or sustaining systemic Th2 responses that provide concomitant immunity against secondary infection with H. bakeri. Author summary: The small intestinal tuft cell is emerging as a versatile sentinel cell type in a variety of infections involving protozoans, nematodes, and certain bacteria. Whether the tuft cell responds to enteric cestode infections and the extent of its involvement in mediating the anti-helminth response is not yet characterized. Using mice infected with Hymenolepis diminuta, we show that tuft cells help accelerate expulsion of this lumen-dwelling cestode, by coordinating local events that form an integral part of the classical "weep and sweep" anti-helminthic response. We further show that although infection with H. diminuta induces both tuft cell hyperplasia as well as protection from subsequent infection with the nematode Heligmosmoides bakeri, the tuft cell is not solely responsible for mediating systemic and other local Th2 responses against H. diminuta. Our work reveals subtle roles for the tuft cell in initiating and coordinating host anti-parasitic activity in cestode infections. At the same time, we show that redundancies exist in the host's mucosal arsenal that ultimately mediate worm expulsion in tuft cell deficient mice. [ABSTRACT FROM AUTHOR]

Published

2024

3. Sex-specific post-inflammatory dysbiosis mediates chronic visceral pain in colitis

Author

Arzamendi, Maria J., Habibyan, Yasaman B., Defaye, Manon, Shute, Adam, Baggio, Cristiane H., Chan, Ronald, Ohland, Christina, Bihan, Dominique G., Lewis, Ian A., Sharkey, Keith A., McCoy, Kathy D., Altier, Christophe, Geuking, Markus B., and Nasser, Yasmin

Abstract

ABSTRACTBackgroundDespite achieving endoscopic remission, over 20% of inflammatory bowel disease (IBD) patients experience chronic abdominal pain. Visceral pain and the microbiome exhibit sex-dependent interactions, while visceral pain in IBD shows a sex bias. Our aim was to evaluate whether post-inflammatory microbial perturbations contribute to visceral hypersensitivity in a sex-dependent manner.MethodsMales, cycling females, ovariectomized, and sham-operated females were given dextran sodium sulfate to induce colitis and allowed to recover. Germ-free recipients received sex-appropriate and cross-sex fecal microbial transplants (FMT) from post-inflammatory donor mice. Visceral sensitivity was assessed by recording visceromotor responses to colorectal distention. The composition of the microbiota was evaluated via 16S rRNA gene V4 amplicon sequencing, while the metabolome was assessed using targeted (short chain fatty acids – SCFA) and semi-targeted mass spectrometry.ResultsPost-inflammatory cycling females developed visceral hyperalgesia when compared to males. This effect was reversed by ovariectomy. Both post-inflammatory males and females exhibited increased SCFA-producing species, but only males had elevated fecal SCFA content. FMT from post-inflammatory females transferred visceral hyperalgesia to both males and females, while FMT from post-inflammatory males could only transfer visceral hyperalgesia to males.ConclusionsFemale sex, hormonal status as well as the gut microbiota play a role in pain modulation. Our data highlight the importance of considering biological sex in the evaluation of visceral pain.

Published

2024

4. The dietary fibre rhamnogalacturonan improves intestinal epithelial barrier function in a microbiota‐independent manner.

Author

Baggio, Cristiane H., Shang, Judie, Gordon, Marilyn H., Stephens, Matthew, von der Weid, Pierre Yves, Nascimento, Adamara M., Román, Yony, Cipriani, Thales R., and MacNaughton, Wallace K.

Subjects

*INFLAMMATORY bowel diseases, *INTESTINES, *TIGHT junctions, *FLUORESCEIN isothiocyanate, *INTESTINAL mucosa, *CELLULAR signal transduction

Abstract

Background and Purpose: Dietary fibre comprises a complex group of polysaccharides that are indigestible but are fermented by gut microbiota, promoting beneficial effects to the intestinal mucosa indirectly through the production of short chain fatty acids. We found that a polysaccharide, rhamnogalacturonan (RGal), from the plant Acmella oleracea, has direct effects on intestinal epithelial barrier function. Our objective was to determine the mechanism whereby RGal enhances epithelial barrier function. Experimental Approach Monolayers of colonic epithelial cell lines (Caco‐2, T84) and of human primary cells from organoids were mounted in Ussing chambers to assess barrier function. The cellular mechanism of RGal effects on barrier function was determined using inhibitors of TLR‐4 and PKC isoforms. Key Results: Apically applied RGal (1000 μg ml−1) significantly enhanced barrier function as shown by increased transepithelial electrical resistance (TER) and reduced fluorescein isothiocyanate (FITC)‐dextran flux in Caco‐2, T84 and human primary cell monolayers, and accelerated tight junction reassembly in Caco‐2 cells in a calcium switch assay. RGal also reversed the barrier‐damaging effects of inflammatory cytokines on FITC‐dextran flux and preserved the tight junction distribution of occludin. RGal activated TLR4 in TLR4‐expressing HEK reporter cells, an effect that was inhibited by the TLR4 inhibitor, C34. The effect of RGal was also dependent on PKC, specifically the isoforms PKCδ and PKCζ. Conclusion and Implications: RGal enhances intestinal epithelial barrier function through activation of TLR4 and PKC signalling pathways. Elucidation of RGal mechanisms of action could lead to new, dietary approaches to enhance mucosal healing in inflammatory bowel diseases. [ABSTRACT FROM AUTHOR]

Published

2022