短暂激活 hedgehog 通路通过保护唾液干/祖细胞和副交感神经支配来挽救放疗引起的唾液分泌减少。
Transient activation of hedgehog pathway rescued irradiation-induced hyposalivation by preserving salivary stem/progenitor cells and parasympathetic innervation.
机构信息
Institute for Regenerative Medicine at Scott & White, Molecular and Cellular Medicine Department, Texas A&M Health Science Center, Temple, Texas 76502, USA.
Beijing Stomatological Hospital, Capital Medical University, Beijing 100050, China.
出版信息
Clin Cancer Res. 2014 Jan 1;20(1):140-150. doi: 10.1158/1078-0432.CCR-13-1434. Epub 2013 Oct 22.
PURPOSE
To examine the effects and mechanisms of transient activation of the Hedgehog pathway on rescuing radiotherapy-induced hyposalivation in survivors of head and neck cancer.
EXPERIMENTAL DESIGN
Mouse salivary glands and cultured human salivary epithelial cells were irradiated by a single 15-Gy dose. The Hedgehog pathway was transiently activated in mouse salivary glands, by briefly overexpressing the Sonic hedgehog (Shh) transgene or administrating smoothened agonist, and in human salivary epithelial cells, by infecting with adenovirus encoding Gli1. The activity of Hedgehog signaling was examined by the expression of the Ptch1-lacZ reporter and endogenous Hedgehog target genes. The salivary flow rate was measured following pilocarpine stimulation. Salivary stem/progenitor cells (SSPC), parasympathetic innervation, and expression of related genes were examined by flow cytometry, salisphere assay, immunohistochemistry, quantitative reverse transcription PCR, Western blotting, and ELISA.
RESULTS
Irradiation does not activate Hedgehog signaling in mouse salivary glands. Transient Shh overexpression activated the Hedgehog pathway in ductal epithelia and, after irradiation, rescued salivary function in male mice, which is related with preservation of functional SSPCs and parasympathetic innervation. The preservation of SSPCs was likely mediated by the rescue of signaling activities of the Bmi1 and Chrm1-HB-EGF pathways. The preservation of parasympathetic innervation was associated with the rescue of the expression of neurotrophic factors such as Bdnf and Nrtn. The expression of genes related with maintenance of SSPCs and parasympathetic innervation in female salivary glands and cultured human salivary epithelial cells was similarly affected by irradiation and transient Hedgehog activation.
CONCLUSIONS
These findings suggest that transient activation of the Hedgehog pathway has the potential to restore salivary gland function after irradiation-induced dysfunction.
目的
研究 Hedgehog 通路的瞬时激活对挽救头颈部癌症幸存者放疗后唾液分泌减少的作用和机制。
实验设计
用单次 15Gy 剂量照射小鼠唾液腺和体外培养的人唾液上皮细胞。通过短暂过表达 Sonic Hedgehog(Shh)转基因或给予 Smoothened 激动剂在小鼠唾液腺中瞬时激活 Hedgehog 通路,通过感染编码 Gli1 的腺病毒在人唾液上皮细胞中激活 Hedgehog 通路。通过 Ptch1-lacZ 报告基因和内源性 Hedgehog 靶基因的表达来检测 Hedgehog 信号通路的活性。用毛果芸香碱刺激后测量唾液流率。通过流式细胞术、唾液球体测定、免疫组织化学、实时定量 RT-PCR、Western blot 和 ELISA 检测唾液干/祖细胞(SSPC)、副交感神经支配和相关基因的表达。
结果
照射不会激活小鼠唾液腺中的 Hedgehog 信号通路。瞬时 Shh 过表达激活了导管上皮中的 Hedgehog 通路,并且在照射后挽救了雄性小鼠的唾液功能,这与功能性 SSPCs 和副交感神经支配的保留有关。SSPCs 的保留可能是通过 Bmi1 和 Chrm1-HB-EGF 信号通路的信号活性的挽救来介导的。副交感神经支配的保留与神经营养因子如 Bdnf 和 Nrtn 的表达的挽救有关。女性唾液腺和体外培养的人唾液上皮细胞中与 SSPCs 和副交感神经支配的维持相关的基因的表达也受到照射和瞬时 Hedgehog 激活的影响。
结论
这些发现表明,Hedgehog 通路的瞬时激活有可能恢复照射后功能失调的唾液腺功能。
Zotero 插件