Carter Richard, Jain Kunoor, Sykes Virginia, Lanning David
Department of Surgery, Division of Pediatric Surgery, Virginia Commonwealth University Health System, Richmond, VA 23298-0015, USA.
J Surg Res. 2009 Sep;156(1):90-4. doi: 10.1016/j.jss.2009.03.056. Epub 2009 May 3.
Previously, we have shown that cutaneous wounds in mid-gestational (E15) mice heal in a scarless manner with decreased procollagen 1 and increased procollagen 3 production compared with wounds in late-gestational (E18) mice, which heal with scars. The aim of the current work was to determine whether E15 and E18 fibroblasts respond to stimulation in culture with differential procollagen expression, suggesting they may preserve their phenotype in vitro. Further, we wanted to determine if fetal fibroblast gene expression patterns persisted in tissue culture. We measured expression of procollagen types 1alpha1 and 3 in response to TGF-beta1 stimulation. We theorized that E15 fibroblasts would respond with a pattern of procollagen that would contribute to a more easily remodeled collagen.
Mid- and late-gestational fetal fibroblasts were obtained from dorsal skin harvested from fetuses of time-dated CD-1 mice. Cells were grown to confluence in culture plates overnight. Cell monolayers were treated with 0.01% bovine serum albumin (BSA) plus 10 ng/well of TGF-beta1. Cells were harvested at 6 and 24 h following treatment. Additional groups were treated with BSA alone (vehicle controls) and collected at 6 and 24 h. Another group without treatment was harvested after reaching confluence (0 time point). In a separate experiment to determine if gene expression patterns persisted, cells were treated with 0.01% BSA plus 10 ng/well of TGF- beta1 for 24 h, then harvested. A second group of cells were treated again at 24 h and harvested at 48 h. Additional cells were treated with BSA alone for 24 and 48 h, and another group without treatment was harvested after reaching confluence (0 time point). Cells were processed to obtain mRNA, cDNA was made, and then samples analyzed by QPCR. Results were analyzed by ANOVA and Holm-Sidak method.
Procollagen 1alpha1 gene expression was decreased in E15 cells at 6 and 24 h following TGF-beta1 treatment, P<0.05. In contrast, procollagen 1alpha1 was increased in E18 cells, P<0.05. Procollagen 3 gene expression was decreased in E18 cells at 6 and 24 h following treatment with TGF-beta1, P<0.05, whereas levels in E15 cells were unchanged at 6 h, and only trended lower at 24 h. We evaluated whether this differential expression of procollagen 3 persisted at 24 and 48 h. At 24 and 48 h, E15 control groups had increased procollagen 3 expression compared with E18 groups, P<0.05. E15 and E18 cells in TGF-beta1-treated groups had decreased procollagen 3 at 48h compared with their respective BSA control groups, P<0.05. However, the degree of difference appeared to be greater in the E15 group than the E18 group.
Our results from this in vitro work demonstrate a differential pattern of gene expression for procollagen 1alpha1 and 3 in E15 and E18 fibroblasts in response to TGF-beta1. E15 cells showed decreased expression of procollagen 1alpha1, while E18 cells showed increased procollagen 1alpha1 and decreased procollagen 3 expression. These patterns of expression in E15 cells are suggestive of increased type 3 to 1 collagen ratio seen in scarless fetal wounds. Interestingly, treatment of either E15 or E18 cells with TGF-beta1 significantly decreased procollagen 3 expression by 48 h, yet this was more profound in E15 groups. This suggests that after 24 h, E15 cells may transition towards an E18 phenotype and corresponding signaling.
此前,我们已经表明,与妊娠晚期(E18)小鼠的伤口会形成瘢痕不同,妊娠中期(E15)小鼠的皮肤伤口能以无瘢痕的方式愈合,其前胶原1生成减少,前胶原3生成增加。当前研究的目的是确定E15和E18成纤维细胞在体外培养中对刺激的反应是否存在前胶原表达差异,这表明它们在体外可能保持其表型。此外,我们想确定胎儿成纤维细胞的基因表达模式在组织培养中是否持续存在。我们测量了1α1型和3型前胶原对转化生长因子-β1(TGF-β1)刺激的反应表达。我们推测,E15成纤维细胞对前胶原的反应模式将有助于形成更易于重塑的胶原蛋白。
从定时交配的CD-1小鼠胎儿的背部皮肤获取妊娠中期和晚期的胎儿成纤维细胞。细胞在培养板中生长至汇合过夜。细胞单层用0.01%牛血清白蛋白(BSA)加每孔10 ng的TGF-β1处理。处理后6小时和24小时收获细胞。其他组仅用BSA处理(溶剂对照组),并在6小时和24小时收集。另一组未处理的细胞在达到汇合后收获(0时间点)。在一项单独的实验中,为了确定基因表达模式是否持续存在,细胞用0.01% BSA加每孔10 ng的TGF-β1处理24小时,然后收获。第二组细胞在24小时时再次处理,并在48小时时收获。另外的细胞仅用BSA处理24小时和48小时,另一组未处理的细胞在达到汇合后收获(0时间点)。对细胞进行处理以获得mRNA,制备cDNA,然后通过实时定量聚合酶链反应(QPCR)分析样品。结果通过方差分析和霍尔姆-西达克方法进行分析。
TGF-β1处理后6小时和24小时,E15细胞中的1α1型前胶原基因表达降低,P<0.05。相比之下,E18细胞中的1α1型前胶原增加,P<0.05。TGF-β1处理后6小时和24小时,E18细胞中的3型前胶原基因表达降低,P<0.05,而E15细胞中的水平在6小时时未改变,仅在24小时时呈下降趋势。我们评估了这种3型前胶原的差异表达在24小时和48小时是否持续存在。在24小时和48小时时,E15对照组的3型前胶原表达高于E18组,P<0.05。与各自的BSA对照组相比,TGF-β1处理组中的E15和E18细胞在48小时时3型前胶原减少,P<0.05。然而,E15组的差异程度似乎比E18组更大。
我们这项体外研究的结果表明,E15和E18成纤维细胞中1α1型和3型前胶原对TGF-β1的基因表达模式存在差异。E15细胞显示1α1型前胶原表达降低,而E18细胞显示1α1型前胶原增加,3型前胶原表达降低。E15细胞中的这些表达模式提示在无瘢痕胎儿伤口中3型与1型胶原比例增加。有趣的是,用TGF-β1处理E15或E18细胞48小时后,3型前胶原表达均显著降低,但E15组更明显。这表明24小时后,E15细胞可能向E18表型及相应信号转导转变。
