Emily A Verbus, Jonathan D Kenyon, Olga Sergeeva, Amad Awadallah, Lewis Yuan, Jean F Welter, Arnold I Caplan, Mark D Schluchter, Ahmad M Khalil, Zhenghong Lee
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We report the development and testing of a firefly luciferase (Luc) reporter responsive to miR-145-5p for longitudinal tracking of miR-145-5p expression throughout MSC chondrogenic differentiation. Plasmid reporter vectors containing a miR-145-5p responsive reporter (Luc reporter with a perfect complementary target sequence to the mature miR-145-5p sequence in the 3'UTR), a Luc reporter driven by a truncated Sox9 (one of the targets of miR-145-5p) promoter, or the Luc backbone (control) vector without a specific miRNA target were transfected into MSCs by electroporation. Transfected MSCs were mixed with untransfected MSC to generate chondrogenic pellets. Pellets were imaged by bioluminescent imaging (BLI) and harvested along a preset time line. The imaging signals from miR-145-5p responsive reporter and Sox9 promoter-driven reporter showed correlated time-courses (measured by BLI and normalized to Luc-control reporter; Spearman r=0.93, p=0.0002) during MSC chondrogenic differentiation. Expression analysis by qRT-PCR suggests an inverse relationship between miR-145-5p and Sox9 gene expression during MSC chondrogenic differentiation. Non-destructive cell-pellet imaging is capable of supplementing histological analyses to characterize TE cartilage. The miR-145-5p responsive reporter is relatively simple to construct and generates a consistent imaging signal responsive to miR-145-5p during MSC chondrogenesis in parallel to certain molecular and cellular events.</p>","PeriodicalId":92258,"journal":{"name":"Journal of stem cell research","volume":"1 3","pages":"1-10"},"PeriodicalIF":0.0000,"publicationDate":"2017-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5926818/pdf/nihms910597.pdf","citationCount":"0","resultStr":"{\"title\":\"Expression of miR-145-5p During Chondrogenesis of Mesenchymal Stem Cells.\",\"authors\":\"Emily A Verbus, Jonathan D Kenyon, Olga Sergeeva, Amad Awadallah, Lewis Yuan, Jean F Welter, Arnold I Caplan, Mark D Schluchter, Ahmad M Khalil, Zhenghong Lee\",\"doi\":\"\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Assessing the quality of tissue engineered (TE) cartilage has historically been performed by endpoint measurements including marker gene expression. 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Plasmid reporter vectors containing a miR-145-5p responsive reporter (Luc reporter with a perfect complementary target sequence to the mature miR-145-5p sequence in the 3'UTR), a Luc reporter driven by a truncated Sox9 (one of the targets of miR-145-5p) promoter, or the Luc backbone (control) vector without a specific miRNA target were transfected into MSCs by electroporation. Transfected MSCs were mixed with untransfected MSC to generate chondrogenic pellets. Pellets were imaged by bioluminescent imaging (BLI) and harvested along a preset time line. The imaging signals from miR-145-5p responsive reporter and Sox9 promoter-driven reporter showed correlated time-courses (measured by BLI and normalized to Luc-control reporter; Spearman r=0.93, p=0.0002) during MSC chondrogenic differentiation. Expression analysis by qRT-PCR suggests an inverse relationship between miR-145-5p and Sox9 gene expression during MSC chondrogenic differentiation. Non-destructive cell-pellet imaging is capable of supplementing histological analyses to characterize TE cartilage. 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引用次数: 0
摘要
组织工程(TE)软骨的质量评估历来是通过终点测量(包括标记基因表达)来进行的。在采用能够进行定量和实时非破坏性表达分析的启动子驱动报告构建体之前,无法对 TE 构建体进行时间基因表达评估。我们进一步利用这一技术,通过使用含有成熟 miR-145-5p 的 3' UTR 完美互补靶序列的萤火虫荧光素酶报告物(Luc)来利用 microRNA(miRNA 或 miR)。我们报告了对 miR-145-5p 有反应的萤火虫荧光素酶(Luc)报告基因的开发和测试情况,该报告基因用于纵向跟踪整个间充质干细胞软骨分化过程中 miR-145-5p 的表达。通过电穿孔将含有miR-145-5p响应报告基因(3'UTR中与成熟miR-145-5p序列具有完美互补靶序列的Luc报告基因)、由截短的Sox9(miR-145-5p的靶标之一)启动子驱动的Luc报告基因或没有特定miRNA靶标的Luc骨架(对照)载体的质粒报告载体转染到间充质干细胞中。转染的间充质干细胞与未转染的间充质干细胞混合生成软骨颗粒。通过生物发光成像(BLI)对颗粒进行成像,并按照预设的时间线进行收获。在间充质干细胞软骨分化过程中,miR-145-5p 反应物和 Sox9 启动子驱动的反应物的成像信号显示出相关的时间序列(通过 BLI 测量并与 Luc 对照反应物归一化;Spearman r=0.93,p=0.0002)。通过 qRT-PCR 进行的表达分析表明,在间充质干细胞软骨源分化过程中,miR-145-5p 与 Sox9 基因表达之间存在反向关系。非破坏性的细胞颗粒成像可作为组织学分析的补充,用于描述 TE 软骨的特征。miR-145-5p响应报告物的构建相对简单,在间充质干细胞软骨形成过程中,它能产生与某些分子和细胞事件平行的一致的miR-145-5p响应成像信号。
Expression of miR-145-5p During Chondrogenesis of Mesenchymal Stem Cells.
Assessing the quality of tissue engineered (TE) cartilage has historically been performed by endpoint measurements including marker gene expression. Until the adoption of promoter-driven reporter constructs capable of quantitative and real time non-destructive expression analysis, temporal gene expression assessments along a timeline could not be performed on TE constructs. We further exploit this technique to utilize microRNA (miRNA or miR) through the use of firefly luciferase reporter (Luc) containing a 3' UTR perfect complementary target sequence to the mature miR-145-5p. We report the development and testing of a firefly luciferase (Luc) reporter responsive to miR-145-5p for longitudinal tracking of miR-145-5p expression throughout MSC chondrogenic differentiation. Plasmid reporter vectors containing a miR-145-5p responsive reporter (Luc reporter with a perfect complementary target sequence to the mature miR-145-5p sequence in the 3'UTR), a Luc reporter driven by a truncated Sox9 (one of the targets of miR-145-5p) promoter, or the Luc backbone (control) vector without a specific miRNA target were transfected into MSCs by electroporation. Transfected MSCs were mixed with untransfected MSC to generate chondrogenic pellets. Pellets were imaged by bioluminescent imaging (BLI) and harvested along a preset time line. The imaging signals from miR-145-5p responsive reporter and Sox9 promoter-driven reporter showed correlated time-courses (measured by BLI and normalized to Luc-control reporter; Spearman r=0.93, p=0.0002) during MSC chondrogenic differentiation. Expression analysis by qRT-PCR suggests an inverse relationship between miR-145-5p and Sox9 gene expression during MSC chondrogenic differentiation. Non-destructive cell-pellet imaging is capable of supplementing histological analyses to characterize TE cartilage. The miR-145-5p responsive reporter is relatively simple to construct and generates a consistent imaging signal responsive to miR-145-5p during MSC chondrogenesis in parallel to certain molecular and cellular events.
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