Infection, Inflammation and Healing in Zebrafish: Intestinal Inflammation
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- 作者:Lindsay Marjoram ; Michel Bagnat
- 关键词:Intestinal inflammation ; Zebrafish ; Inflammatory bowel disease ; Zebrafish disease models
- 刊名:Current Pathobiology Reports
- 出版年:2015
- 出版时间:June 2015
- 年:2015
- 卷:3
- 期:2
- 页码:147-153
- 全文大小:670 KB
- 参考文献:Papers of particular interest, published recently, have been highlighted as: -Of importance ?-Of major importance1.Sartor RB (2006) Mechanisms of disease: pathogenesis of Crohn’s disease and ulcerative colitis. Nat Clin Pract Gastroenterol Hepatol 3(7):390-07View Article PubMed
2.Wirtz S, Neurath MF (2007) Mouse models of inflammatory bowel disease. Adv Drug Deliv Rev 59(11):1073-083View Article PubMed
3.Paquette CE et al (2013) A retrospective study of the prevalence and classification of intestinal neoplasia in zebrafish (Danio rerio). Zebrafish 10(2):228-36View Article PubMed Central PubMed
4.Poss KD, Wilson LG, Keating MT (2002) Heart regeneration in zebrafish. Science 298(5601):2188-290View Article PubMed
5.Gemberling M et al (2013) The zebrafish as a model for complex tissue regeneration. Trends Genet 29(11):611-20View Article PubMed
6.Ingham PW (2009) The power of the zebrafish for disease analysis. Hum Mol Genet 18(R1):R107–R112View Article PubMed
7.-Ryan S et al (2013) Rapid identification of kidney cyst mutations by whole exome sequencing in zebrafish. Development 140(21):4445-451. This article provides a comprehensive approach to sequencing mutants identified from forward genetic screens using the newly developed platform SNPTrack
8.?-Schulte-Merker S, Stainier DY (2014) Out with the old, in with the new: reassessing morpholino knockdowns in light of genome editing technology. Development 141(16):3103-104. This review describes the caveats of morpholino-based knockdown experiments and highlights the strengths of TALEN and CRISPR approaches
9.Ng AN et al (2005) Formation of the digestive system in zebrafish: III. Intestinal epithelium morphogenesis. Dev Biol 286(1):114-35View Article PubMed
10.Wallace KN et al (2005) Intestinal growth and differentiation in zebrafish. Mech Dev 122(2):157-73View Article PubMed
11.Feitsma H, Cuppen E (2008) Zebrafish as a cancer model. Mol Cancer Res 6(5):685-94View Article PubMed
12.Goldsmith JR, Jobin C (2012) Think small: zebrafish as a model system of human pathology. J Biomed Biotechnol 2012:817341View Article PubMed Central PubMed
13.Strober W, Fuss I, Mannon P (2007) The fundamental basis of inflammatory bowel disease. J Clin Invest 117(3):514-21View Article PubMed Central PubMed
14.Turner JR (2009) Intestinal mucosal barrier function in health and disease. Nat Rev Immunol 9(11):799-09View Article PubMed
15.Lam SH et al (2004) Development and maturation of the immune system in zebrafish, Danio rerio: a gene expression profiling, in situ hybridization and immunological study. Dev Comp Immunol 28(1):9-8View Article PubMed
16.Oehlers SH et al (2013) Chemically induced intestinal damage models in zebrafish larvae. Zebrafish 10(2):184-93View Article PubMed
17.-Cocchiaro JL, Rawls JF (2013) Microgavage of zebrafish larvae. J Vis Exp (72):e4434. This article is a thorough methods paper that provides a written protocol and a visual demonstration of microgavage
18.Fleming A, Jankowski J, Goldsmith P (2010) In vivo analysis of gut function and disease changes in a zebrafish larvae model of inflammatory bowel disease: a feasibility study. Inflamm Bowel Dis 16(7):1162-172View Article PubMed
19.He Q et al (2013) Microbial fingerprinting detects intestinal microbiota dysbiosis in Zebrafish models with chemically-induced enterocolitis. BMC Microbiol 13:289View Article PubMed Central PubMed
20.Oehlers SH et al (2011) A chemical enterocolitis model in zebrafish larvae that is dependent on microbiota and responsive to pharmacological agents. Dev Dyn 240(1):288-98View Article PubMed
21.Crawford KC et al (2011) Zebrafish heat shock protein a4 genes in the intestinal epithelium are up-regulated during inflammation. Genesis 49(12):905-11View Article PubMed
22.Geiger BM et al (2013) Intestinal upregulation of melanin-concentrating hormone in TNBS-induced enterocolitis in adult zebrafish. PLoS One 8(12):e83194View Article PubMed Central PubMed
23.Brugman S et al (2009) Oxazolone-induced enterocolitis in zebrafish depends on the composition of the intestinal microbiota. Gastroenterology 137(5):1757-767View Article PubMed
24.Oehlers SH et al (2012) Retinoic acid suppresses intestinal mucus production and exacerbates experimental enterocolitis. Dis Model Mech 5(4):457-67View Article PubMed Central PubMed
25.Goldsmith JR et al (2013) Glafenine-induced intestinal injury in zebrafish is ameliorated by mu-opioid signaling via enhancement of Atf6-dependent cellular stress responses. Dis Model Mech 6(1):146-59View Article PubMed Central PubMed
26.Bates JM et al (2007) Intestinal alkaline phosphatase detoxifies lipopolysaccharide and prevents inflammation in zebrafish in response to the gut microbiota. Cell Host Microbe 2(6):371-82View Article PubMed Central PubMed
27.Novoa B et al (2009) LPS response and tolerance in the zebrafish (Danio rerio). Fish Shellfish I - 作者单位:Lindsay Marjoram (1)
Michel Bagnat (1)
1. Department of Cell Biology, Duke University Medical Center, Durham, NC, 27710, USA - 刊物主题:Pathology;
- 出版者:Springer US
- ISSN:2167-485X
文摘
Inflammatory bowel diseases (IBD), which include Crohn’s disease and ulcerative colitis, contribute to significant morbidity and mortality globally. Despite an increase in incidence, IBD onset is still poorly understood. Mouse models of IBD recapitulate several aspects of human disease, but limited accessibility for live imaging and the lack of forward genetics highlight the need for new model systems for disease onset characterization. Zebrafish represent a powerful platform to model IBD using forward and reverse genetics, live imaging of transgenic lines, and physiological assays. In this review, we address current models of IBD in zebrafish and newly developed reagents available for future studies.