Isenmann Sandra, Cakouros Dimitrios, Zannettino Andrew, Shi Songtao, Gronthos Stan
Mesenchymal Stem Cell Group, Division of Haematology, Institute of Medical and Veterinary Science/University of Adelaide, South Australia, Australia.
J Bone Miner Res. 2007 Jun;22(6):897-906. doi: 10.1359/jbmr.070308.
Human BMSSCs lose telomerase activity in vitro, which leads to chromosomal instability and cellular senescence. We observed an inverse expression pattern between the osteogenic master regulatory gene, CBFA1, and the stem cell-associated gene, hTERT. We showed that Cbfa1 acts as a partial repressor of TERT, which may facilitate cellular differentiation.
The absence of telomerase activity by cultured human bone marrow stromal stem cells (BMSSCs) causes critical shortening of chromosomal telomeres, leading eventually to cellular senescence. Ex vivo expansion of BMSSCs correlates to an increase in osteogenic lineage associated markers such as alkaline phosphatase, bone sialoprotein, and osteocalcin that are regulated by the master regulatory transcription factor, Cbfa1 (Runx2). This study examined whether Cbfa1 was capable of regulating the promoter of the early stem cell-associated gene, telomerase reverse transcriptase (TERT).
Human BMSSCs were isolated by fluorescence-activated cell sorting. Telomerase activity was determined using the telometric repeat amplification protocol. CBFA1 and TERT gene expression was assessed by real-time PCR. The functional capacity of Cbfa1 to bind to the hTERT promoter was performed using a modified electrophoretic mobility shift assay (EMSA). Chromatin immunoprecipitation (ChIP) analysis was used to examine Cbfa1 binding to the hTERT promoter in vivo. Functional analysis of CBFA-1 wildtype and mutant DNA binding sites on TERT promoter fragments was assessed using the promoterless green fluorescence protein (GFP) reporter vector, pEGFP-1, after transfection into HOS cells.
This study showed an inverse expression pattern between the osteogenic master regulatory gene, CBFA1, and the stem cell-associated gene, hTERT. The data showed that BMSSCs undergo osteogenic commitment after the loss of hTERT expression, with concomitant elevated levels of CBFA1 transcripts. In addition, two unique Cbfa1 DNA binding sites were identified on the hTERT proximal promoter by EMSA supershift assay. Mutated forms of the putative Cbfa1 binding sites, created by site-directed mutagenesis, were able to abolish this interaction. ChIP analysis showed that Cbfa1 interacted directly with the hTERT promoter in vivo. Functional studies using GFP reporter constructs, driven by 2- and 3-kbp hTERT proximal promoter fragments, showed significantly lower levels of transcriptional activity compared with corresponding constructs with mutated Cbfa1 binding site Oligo 2.
These studies suggest that Cbfa1 may act as a repressor of early stem cell markers such as hTERT as one possible mechanism for facilitating cellular differentiation.
人骨髓间充质干细胞(BMSSCs)在体外失去端粒酶活性,这导致染色体不稳定和细胞衰老。我们观察到成骨主调控基因CBFA1与干细胞相关基因hTERT之间存在反向表达模式。我们表明Cbfa1作为TERT的部分抑制因子,这可能促进细胞分化。
培养的人骨髓基质干细胞(BMSSCs)缺乏端粒酶活性会导致染色体端粒严重缩短,最终导致细胞衰老。BMSSCs的体外扩增与成骨谱系相关标志物如碱性磷酸酶、骨唾液蛋白和骨钙素的增加相关,这些标志物受主调控转录因子Cbfa1(Runx2)调控。本研究探讨Cbfa1是否能够调控早期干细胞相关基因端粒酶逆转录酶(TERT)的启动子。
通过荧光激活细胞分选分离人BMSSCs。使用端粒重复序列扩增协议测定端粒酶活性。通过实时PCR评估CBFA1和TERT基因表达。使用改良的电泳迁移率变动分析(EMSA)检测Cbfa1与hTERT启动子结合的功能能力。染色质免疫沉淀(ChIP)分析用于检测体内Cbfa1与hTERT启动子的结合。将TERT启动子片段上的CBFA-1野生型和突变型DNA结合位点转染入HOS细胞后,使用无启动子绿色荧光蛋白(GFP)报告载体pEGFP-1评估其功能分析。
本研究显示成骨主调控基因CBFA1与干细胞相关基因hTERT之间存在反向表达模式。数据表明,BMSSCs在hTERT表达缺失后进行成骨定向分化,同时CBFA1转录水平升高。此外,通过EMSA超迁移分析在hTERT近端启动子上鉴定出两个独特的Cbfa1 DNA结合位点。通过定点诱变产生的假定Cbfa1结合位点的突变形式能够消除这种相互作用。ChIP分析表明Cbfa1在体内直接与hTERT启动子相互作用。使用由2-kbp和3-kbp hTERT近端启动子片段驱动的GFP报告构建体进行的功能研究表明,与具有突变Cbfa1结合位点Oligo 2的相应构建体相比,转录活性水平显著降低。
这些研究表明,Cbfa1可能作为早期干细胞标志物如hTERT的抑制因子,这是促进细胞分化的一种可能机制。
