Drosophila ML-DmD17-c3 cells respond robustly to Dpp and exhibit complex transcriptional feedback on BMP signaling components.

Q2 Biochemistry, Genetics and Molecular Biology BMC Developmental Biology Pub Date : 2019-01-22 DOI:10.1186/s12861-019-0181-0
Scott J Neal, Darin Dolezal, Nisveta Jusić, Francesca Pignoni
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引用次数: 4

Abstract

Background: BMP signaling is involved in myriad metazoan developmental processes, and study of this pathway in Drosophila has contributed greatly to our understanding of its molecular and genetic mechanisms. These studies have benefited not only from Drosophila's advanced genetic tools, but from complimentary in vitro culture systems. However, the commonly-used S2 cell line is not intrinsically sensitive to the major BMP ligand Dpp and must therefore be augmented with exogenous pathway components for most experiments.

Results: Herein we identify and characterize the responses of Drosophila ML-DmD17-c3 cells, which are sensitive to Dpp stimulation and exhibit characteristic regulation of BMP target genes including Dad and brk. Dpp signaling in ML-DmD17-c3 cells is primarily mediated by the receptors Put and Tkv, with additional contributions from Wit and Sax. Furthermore, we report complex regulatory feedback on core pathway genes in this system.

Conclusions: Native ML-DmD17-c3 cells exhibit robust transcriptional responses to BMP pathway induction. We propose that ML-DmD17-c3 cells are well-suited for future BMP pathway analyses.

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果蝇ML-DmD17-c3细胞对Dpp反应强烈,并对BMP信号成分表现出复杂的转录反馈。
背景:BMP信号参与了许多后生动物的发育过程,对果蝇这一通路的研究有助于我们对其分子和遗传机制的理解。这些研究不仅得益于果蝇先进的遗传工具,还得益于互补的体外培养系统。然而,常用的S2细胞系对BMP的主要配体Dpp本身并不敏感,因此在大多数实验中必须添加外源性途径成分。结果:我们鉴定并表征了果蝇ML-DmD17-c3细胞的反应,该细胞对Dpp刺激敏感,并表现出对BMP靶基因包括Dad和brk的特征性调控。ML-DmD17-c3细胞中的Dpp信号主要由受体Put和Tkv介导,Wit和Sax也有额外的作用。此外,我们还报道了该系统中核心通路基因的复杂调控反馈。结论:天然ML-DmD17-c3细胞对BMP通路的诱导表现出强大的转录反应。我们认为ML-DmD17-c3细胞非常适合未来的BMP通路分析。
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来源期刊
BMC Developmental Biology
BMC Developmental Biology 生物-发育生物学
自引率
0.00%
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审稿时长
>12 weeks
期刊介绍: BMC Developmental Biology is an open access, peer-reviewed journal that considers articles on the development, growth, differentiation and regeneration of multicellular organisms, including molecular, cellular, tissue, organ and whole organism research.
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