An Hsp70 promoter-based mouse for heat shock-induced gene modulation.

IF 4.8 3区医学 Q1 GENETICS & HEREDITY

Journal of Molecular Medicine-Jmm Pub Date : 2024-05-01 Epub Date: 2024-03-16 DOI:10.1007/s00109-024-02433-9

Hangang Chen, Yangli Xie, Mei Zhang, Junlan Huang, Wanling Jiang, Ruobin Zhang, Can Li, Xiaolan Du, Hua Chen, Qiang Nie, Sen Liang, Qiaoyan Tan, Jing Yang, Min Jin, Shuo Huang, Liang Kuang, Nan Su, Huabing Qi, Xiaoqing Luo, Xiaoling Xu, Chuxia Deng, Lin Chen, Fengtao Luo

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引用次数: 0

Abstract

Physical therapy is extensively employed in clinical settings. Nevertheless, the absence of suitable animal models has resulted in an incomplete understanding of the in vivo mechanisms and cellular distribution that respond to physical stimuli. The objective of this research was to create a mouse model capable of indicating the cells affected by physical stimuli. In this study, we successfully established a mouse line based on the heat shock protein 70 (Hsp70) promoter, wherein the expression of CreERT2 can be induced by physical stimuli. Following stimulation of the mouse tail, ear, or cultured calvarias with heat shock (generated by heating, ultrasound, or laser), a distinct Cre-mediated excision was observed in cells stimulated by these physical factors with minimal occurrence of leaky reporter expression. The application of heat shock to Hsp70-CreERT2; FGFR2-P253R double transgenic mice or Hsp70-CreERT2 mice infected with AAV-BMP4 at calvarias induced the activation of Cre-dependent mutant FGFR2-P253R or BMP4 respectively, thereby facilitating the premature closure of cranial sutures or the repair of calvarial defects. This novel mouse line holds significant potential for investigating the underlying mechanisms of physical therapy, tissue repair and regeneration, lineage tracing, and targeted modulation of gene expression of cells in local tissue stimulated by physical factor at the interested time points. KEY MESSAGES: In the study, an Hsp70-CreERT2 transgenic mouse was generated for heat shock-induced gene modulation. Heat shock, ultrasound, and laser stimulation effectively activated Cre expression in Hsp70-CreERT2; reporter mice, which leads to deletion of floxed DNA sequence in the tail, ear, and cultured calvaria tissues of mice. Local laser stimuli on cultured calvarias effectively induce Fgfr2-P253R expression in Hsp70-mTmG-Fgfr2-P253R mice and result in accelerated premature closure of cranial suture. Heat shock activated AAV9-FLEX-BMP4 expression and subsequently promoted the repair of calvarial defect of Hsp70-CreERT2; Rosa26-mTmG mice.

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基于 Hsp70 启动子的热休克诱导基因调控小鼠。

物理疗法被广泛应用于临床。然而，由于缺乏合适的动物模型，人们对物理刺激的体内机制和细胞分布的了解并不全面。本研究的目的是创建一种能够显示受物理刺激影响的细胞的小鼠模型。在这项研究中，我们成功地建立了一个基于热休克蛋白70（Hsp70）启动子的小鼠品系，物理刺激可诱导CreERT2的表达。用热休克（由加热、超声波或激光产生）刺激小鼠尾部、耳部或培养的钙化细胞后，在这些物理因素刺激下的细胞中观察到了明显的Cre介导的切除，而漏报表达极少发生。对Hsp70-CreERT2; FGFR2-P253R双转基因小鼠或在犊鼻处感染AAV-BMP4的Hsp70-CreERT2小鼠施加热休克，可分别诱导Cre依赖性突变体FGFR2-P253R或BMP4的激活，从而促进颅缝过早闭合或犊鼻缺损的修复。这种新型小鼠品系在研究物理治疗的基本机制、组织修复和再生、品系追踪以及在感兴趣的时间点有针对性地调节受物理因子刺激的局部组织细胞的基因表达方面具有重大潜力。关键信息：该研究生成了一种 Hsp70-CreERT2 转基因小鼠，用于热休克诱导的基因调控。热冲击、超声波和激光刺激可有效激活 Hsp70-CreERT2 报告基因小鼠体内 Cre 的表达，从而导致小鼠尾部、耳部和培养盏组织中的浮点 DNA 序列缺失。局部激光刺激可有效诱导 Hsp70-mTmG-Fgfr2-P253R 小鼠的钙化组织表达 Fgfr2-P253R，并导致颅缝提前闭合。热休克激活了AAV9-FLEX-BMP4的表达，随后促进了Hsp70-CreERT2; Rosa26-mTmG小鼠颅骨缺损的修复。

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

Journal of Molecular Medicine-Jmm 医学-医学：研究与实验

CiteScore

9.30

自引率

0.00%

发文量

100

审稿时长

1.3 months

期刊介绍： The Journal of Molecular Medicine publishes original research articles and review articles that range from basic findings in mechanisms of disease pathogenesis to therapy. The focus includes all human diseases, including but not limited to: Aging, angiogenesis, autoimmune diseases as well as other inflammatory diseases, cancer, cardiovascular diseases, development and differentiation, endocrinology, gastrointestinal diseases and hepatology, genetics and epigenetics, hematology, hypoxia research, immunology, infectious diseases, metabolic disorders, neuroscience of diseases, -omics based disease research, regenerative medicine, and stem cell research. Studies solely based on cell lines will not be considered. Studies that are based on model organisms will be considered as long as they are directly relevant to human disease.