Beiersdorf AG, R&D, Skin Research Center, Unnastrasse 48, Hamburg, Germany.
J Dermatol Sci. 2012 Jul;67(1):44-50. doi: 10.1016/j.jdermsci.2012.03.001. Epub 2012 Mar 14.
It has been shown for various organisms that expression of tropoelastin (TE) is high during fetal and neonatal growth and that it is reduced in adulthood by an unknown mechanism.
To highlight the process of TE mRNA repression in vivo, total RNA from human skin biopsies was analyzed and TE mRNA expression was compared in fetal and adult donors.
TaqMan Real-Time PCR, Poly(A) tail length assay, immunoblot.
In this study a more than 30-fold reduction of mature TE mRNA was detected whereas the decline on pre-mRNA level was not pronounced. This finding supports the hypothesis that the repression of mature TE mRNA is for the most part due to posttranscriptional mechanisms. Since deadenylation-dependent mRNA destabilization is the major decay pathway for most mRNAs, poly(A) tail length of mature TE mRNA was analyzed in fetal and adult human skin, lung and uterus, showing a profound reduction of poly(A) tail length in the adult samples. While TE mRNA is repressed in adult tissues in vivo, TGF-ß(1) has been shown to induce expression of TE mRNA in vitro on the posttranscriptional level. To analyze the underlying mechanism, TE mRNA poly(A) tail length was analyzed in human dermal fibroblasts after treatment with TGF-ß(1)in vitro. Besides the expected increase in TE expression, TGF-ß(1) treatment resulted in a significant stabilization of TE mRNA poly(A) tail length.
Our findings correlate for the first time TE expression level with poly(A) tail length and suggest that maintenance of poly(A) tail and deadenylation of TE mRNA might be general mechanisms involved in the regulation of TE expression.
已有研究表明,各种生物体中的原肌球蛋白(TE)在胎儿和新生儿生长过程中表达水平较高,而在成年后其表达水平会被一种未知机制下调。
为了阐明 TE mRNA 在体内被抑制的过程,我们分析了来自人皮肤活检的总 RNA,并比较了胎儿和成年供体中的 TE mRNA 表达。
TaqMan 实时 PCR、多聚(A)尾长度测定、免疫印迹。
本研究发现,成熟 TE mRNA 的水平降低了 30 多倍,而前体 mRNA 水平的下降并不明显。这一发现支持了这样一种假说,即成熟 TE mRNA 的抑制在很大程度上是由于转录后机制。由于多聚腺苷酸化依赖性 mRNA 降解是大多数 mRNA 的主要降解途径,因此我们分析了胎儿和成年供体的人皮肤、肺和子宫中成熟 TE mRNA 的多聚(A)尾长度,结果显示成年样本中的多聚(A)尾长度明显缩短。虽然 TE mRNA 在体内的成年组织中被抑制,但 TGF-β1 已被证明可在体外通过转录后水平诱导 TE mRNA 的表达。为了分析潜在的机制,我们在体外用 TGF-β1 处理人真皮成纤维细胞后分析了 TE mRNA 的多聚(A)尾长度。除了 TE 表达的预期增加外,TGF-β1 处理还导致 TE mRNA 多聚(A)尾长度的显著稳定。
我们的研究结果首次将 TE 表达水平与多聚(A)尾长度相关联,并表明多聚(A)尾的维持和 TE mRNA 的去腺苷酸化可能是参与 TE 表达调控的一般机制。
