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本文引用的文献

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Simultaneous intravital imaging of macrophage and neutrophil behaviour during inflammation using a novel transgenic zebrafish.利用新型转基因斑马鱼同时对炎症过程中巨噬细胞和中性粒细胞行为进行活体成像。
Thromb Haemost. 2011 May;105(5):811-9. doi: 10.1160/TH10-08-0525. Epub 2011 Jan 12.
2
Notch/Delta4 signaling inhibits human megakaryocytic terminal differentiation.Notch/Delta4 信号通路抑制人巨核细胞的终末分化。
Blood. 2010 Dec 16;116(25):5670-8. doi: 10.1182/blood-2010-05-285957. Epub 2010 Sep 9.
3
Notch1 deficiency results in decreased inflammation during wound healing and regulates vascular endothelial growth factor receptor-1 and inflammatory cytokine expression in macrophages.Notch1缺乏导致伤口愈合过程中炎症反应减轻,并调节巨噬细胞中血管内皮生长因子受体-1和炎性细胞因子的表达。
J Immunol. 2010 Oct 1;185(7):4363-73. doi: 10.4049/jimmunol.1000720. Epub 2010 Aug 25.
4
Dose-dependent induction of distinct phenotypic responses to Notch pathway activation in mammary epithelial cells. Notch 通路激活在乳腺上皮细胞中诱导依赖剂量的不同表型反应。
Proc Natl Acad Sci U S A. 2010 Mar 16;107(11):5012-7. doi: 10.1073/pnas.1000896107. Epub 2010 Mar 1.
5
Functions of notch signaling in the immune system: consensus and controversies.Notch 信号在免疫系统中的功能:共识与争议。
Annu Rev Immunol. 2010;28:343-65. doi: 10.1146/annurev.immunol.021908.132719.
6
Notch signaling in the immune system. Notch 信号在免疫系统中的作用。
Immunity. 2010 Jan 29;32(1):14-27. doi: 10.1016/j.immuni.2010.01.004.
7
Notch signaling distinguishes 2 waves of definitive hematopoiesis in the zebrafish embryo.Notch 信号通路在斑马鱼胚胎中区分了 2 波定型造血。
Blood. 2010 Apr 8;115(14):2777-83. doi: 10.1182/blood-2009-09-244590. Epub 2010 Jan 27.
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Notch1 upregulates LPS-induced macrophage activation by increasing NF-kappaB activity.Notch1通过增加NF-κB活性上调脂多糖诱导的巨噬细胞活化。
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Identification of phagocytic cells, NK-like cytotoxic cell activity and the production of cellular exudates in the coelomic cavity of adult zebrafish.成年斑马鱼体腔中吞噬细胞的鉴定、自然杀伤样细胞毒性活性及细胞渗出物的产生
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10
Defective Notch activation in microenvironment leads to myeloproliferative disease.微环境中Notch激活缺陷导致骨髓增殖性疾病。
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NOTCH 通路有助于髓系造血中的细胞命运决定。

The NOTCH pathway contributes to cell fate decision in myelopoiesis.

机构信息

Imperial College London, London, SW7 2AZ, UK.

出版信息

Haematologica. 2011 Dec;96(12):1753-60. doi: 10.3324/haematol.2011.044115. Epub 2011 Sep 20.

DOI:10.3324/haematol.2011.044115
PMID:21933862
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3232256/
Abstract

BACKGROUND

Controversy persists regarding the role of Notch signaling in myelopoiesis. We have used genetic approaches, employing two Notch zebrafish mutants deadly seven (DES) and beamter (BEA) with disrupted function of notch1a and deltaC, respectively, and Notch1a morphants to analyze the development of leukocyte populations in embryonic and mature fish.

DESIGN AND METHODS

Myelomonocytes were quantified in early embryos by in situ hybridization using a myeloper-oxidase (mpx) probe. Morpholinos were used to knock down expression of Notch1a or DeltaC. Wound healing assays and/or flow cytometry were used to quantify myelomonocytes in 5-day post-fertilization (dpf) Notch mutants (BEA and DES), morphants or pu.1:GFP, mpx:GFP and fms:RFP transgenic embryos. Flow cytometry was performed on 2-3 month old mutant fish.

RESULTS

The number of mpx(+) cells in embryos was reduced at 48 hpf (but not at 26 hpf) in DES compared to WT. At 5 dpf this was reflected by a reduction in the number of myelomonocytic cells found at the wound site in mutants and in Notch1a morphants. This was due to a reduced number of myelomonocytes developing rather than a deficit in the migratory ability since transient inhibition of Notch signaling using DAPT had no effect. The early deficit in myelopoiesis was maintained into later life, 2-3 month old BEA and DES fish having a decreased proportion of myelomonocytes in both the hematopoietic organ (kidney marrow) and the periphery (coelomic cavity).

CONCLUSIONS

Our results indicate that defects in Notch signaling affect definitive hematopoiesis, altering myelopoiesis from the early stages of development into the adult.

摘要

背景

Notch 信号在髓系发生中的作用仍存在争议。我们使用了遗传方法,利用 Notch 斑马鱼突变体 deadly seven (DES) 和 beamter (BEA),分别破坏 notch1a 和 deltaC 的功能,以及 Notch1a 形态发生素来分析胚胎和成熟鱼中白细胞群体的发育。

设计和方法

通过使用髓过氧化物酶 (mpx) 探针进行原位杂交,在早期胚胎中定量髓单核细胞。使用 morpholinos 敲低 Notch1a 或 DeltaC 的表达。伤口愈合测定和/或流式细胞术用于量化 5 天受精后 (dpf) Notch 突变体 (BEA 和 DES)、形态发生体或 pu.1:GFP、mpx:GFP 和 fms:RFP 转基因胚胎中的髓单核细胞。对 2-3 月龄的突变鱼进行流式细胞术分析。

结果

与 WT 相比,DES 胚胎中的 mpx(+)细胞数量在 48 hpf 时减少(但在 26 hpf 时没有减少)。在 5 dpf 时,这反映在突变体和 Notch1a 形态发生体中在伤口部位发现的髓单核细胞数量减少。这是由于发育中的髓单核细胞数量减少,而不是迁移能力缺陷所致,因为使用 DAPT 短暂抑制 Notch 信号没有影响。早期的髓系发生缺陷持续到后期生命,2-3 月龄的 BEA 和 DES 鱼在造血器官(骨髓)和外周(体腔)中的髓单核细胞比例均降低。

结论

我们的结果表明,Notch 信号传导缺陷会影响定型造血,从而改变从早期发育到成年的髓系发生。