The interaction of Pu.1 and cMyb in zebrafish neutrophil development.

Q3 Medicine
遗传 Pub Date : 2024-04-20 DOI:10.16288/j.yczz.23-312
Jia-Xin Hong, Song-En Xu, Wen-Qing Zhang, Wei Liu
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引用次数: 0

Abstract

Granulopoiesis is a highly ordered and precisely regulated process in which hematopoietic-related transcription factors play crucial roles. These transcription factors form complex regulatory networks through interactions with their co-factors or with each other, and anomalies in these networks can lead to the onset of leukemia. While the structures and functions of dozens of transcription factors involved in this process have been extensively studied, research on the regulatory relationships between these factors remains relatively limited. PU.1 and cMYB participate in multiple stages of neutrophil development, and their abnormalities are often associated with hematologic disorders. However, the regulatory relationship between these factors in vivo and their mode of interaction remain unclear. In this study, zebrafish models with cMyb overexpression (cmybhyper) and Pu.1 deficiency (pu.1G242D/G242D) were utilized to systematically investigate the interaction between Pu.1 and cMyb during granulopoiesis through whole-mount in situ hybridization, qRT-PCR, fluorescence reporting systems, and rescue experiments. The results showed a significant increase in cmyb expression in neutrophils of the pu.1G242D/G242D mutant, while there was no apparent change in pu.1 expression in cmybhyper. Further experiments involving injection of morpholino (MO) to decrease cmyb expression in pu.1G242D/G242D mutants, followed by SB and BrdU staining to assess neutrophil quantity and proliferation, revealed that reducing cmyb expression could rescue the abnormal proliferation phenotype of neutrophils in the pu.1G242D/G242D mutant. These findings suggest that Pu.1 negatively regulates the expression of cMyb during neutrophil development. Finally, through the construction of multi-site mutation plasmids and a fluorescent reporter system, confirmed that Pu.1 directly binds to the +72 bp site in the cmyb promoter, exerting negative regulation on its expression. In conclusion, this study delineates that Pu.1 participates in neutrophil development by regulating cmyb expression. This provides new insights into the regulatory relationship between these two factors and their roles in diseases.

斑马鱼中性粒细胞发育过程中 Pu.1 和 cMyb 的相互作用
造粒是一个高度有序和精确调控的过程,在这个过程中,与造血相关的转录因子发挥着至关重要的作用。这些转录因子通过与其辅助因子或相互之间的相互作用形成复杂的调控网络,这些网络的异常可导致白血病的发生。虽然对参与这一过程的数十种转录因子的结构和功能进行了广泛的研究,但对这些因子之间的调控关系的研究仍然相对有限。PU.1 和 cMYB 参与了中性粒细胞发育的多个阶段,它们的异常往往与血液病有关。然而,这些因子在体内的调控关系及其相互作用模式仍不清楚。本研究利用cMyb过表达(cmybhyper)和Pu.1缺乏(pu.1G242D/G242D)的斑马鱼模型,通过整型原位杂交、qRT-PCR、荧光报告系统和拯救实验,系统研究了Pu.1和cMyb在粒细胞生成过程中的相互作用。结果显示,pu.1G242D/G242D突变体的中性粒细胞中cmyb的表达明显增加,而cmybhyper中pu.1的表达没有明显变化。进一步的实验包括注射吗啉诺(MO)以降低pu.1G242D/G242D突变体中cmyb的表达,然后用SB和BrdU染色来评估中性粒细胞的数量和增殖,结果发现降低cmyb的表达可以挽救pu.1G242D/G242D突变体中性粒细胞的异常增殖表型。这些发现表明,Pu.1在中性粒细胞发育过程中负性调控cMyb的表达。最后,通过构建多位点突变质粒和荧光报告系统,证实了Pu.1直接与cmyb启动子中的+72 bp位点结合,对其表达产生负调控作用。总之,本研究发现,Pu.1 通过调控 cmyb 的表达参与了中性粒细胞的发育。这为研究这两个因子之间的调控关系及其在疾病中的作用提供了新的视角。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
遗传
遗传 Medicine-Medicine (all)
CiteScore
2.50
自引率
0.00%
发文量
6699
期刊介绍: Hereditas is a national academic journal sponsored by the Institute of Genetics and Developmental Biology of the Chinese Academy of Sciences and the Chinese Society of Genetics and published by Science Press. It is a Chinese core journal and a Chinese high-quality scientific journal. The journal mainly publishes innovative research papers in the fields of genetics, genomics, cell biology, developmental biology, biological evolution, genetic engineering and biotechnology; new technologies and new methods; monographs and reviews on hot issues in the discipline; academic debates and discussions; experience in genetics teaching; introductions to famous geneticists at home and abroad; genetic counseling; information on academic conferences at home and abroad, etc. Main columns: review, frontier focus, research report, technology and method, resources and platform, experimental operation guide, genetic resources, genetics teaching, scientific news, etc.
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