Smad7作為轉化生長因數-β信號通路中的負性調節因子為人所知,異常的Smad7表達通常會引發癌症及組織纖維化等疾病。而目前對於其在骨重建及其相關疾病中的作用尚未有研究。本研究利用Smad7部分敲除小鼠來探索Smad7在骨重建,骨質疏鬆以及間充質幹細胞分化等方面的作用。 / 本研究所用的Smad7部分敲除小鼠模型來源於已有報導過的Smad7ΔE1(KO)小鼠。該小鼠體內Smad7基因組外顯子I的翻譯區被替換,導致部分蛋白失及其功能破壞。研究結果表明,KO小鼠在6、12、24周齡時股骨遠端幹骺端均有不同程度下降的骨小梁數目、厚度,骨礦化率,骨密度,骨體積分數,及其上升的骨小梁間隙和破骨細胞表面。骨髓來源間充質幹細胞的多向分化實驗表明,KO組呈現出抑制性的成骨能力,表現為鈣結節形成減少,鹼性磷酸酶活性下降,早晚期成骨標記基因表達下降。該組亦表現出促進性的成脂能力,有較多及較早的脂滴形成,成脂標記基因表達上升。而對於骨髓來源巨噬細胞的體外破骨誘導實驗表明,KO組有更多且更大的破骨細胞形成,較大的骨吸收面積,以及上升的破骨標記基因表達。卵巢切除小鼠模型的研究表明,術後4、8、16周,KO组的股骨遠端幹骺端对比野生组有更大程度下降的骨形态学参数,以及明顯升高的破骨細胞融合標記蛋白的表達。體外實驗表明KO组有更多且更大的破骨細胞形成,以及更大面積的骨吸收。積雪草酸曾被證實在肝纖維化模型中誘導Smad7 基因的表達,也在本實驗中用以研究對骨質疏鬆疾病的作用。卵巢切除動物模型連續給藥8周後,骨質疏鬆的現象有明顯逆轉,表現為升高的骨形态学参数,及下降的股骨內破骨細胞融合標記蛋白的表達。 / 總結,本研究證實了Smad7在骨骼發育重建及骨疾病的病理機理等方面的研究提供了突破性的見解。部分敲除Smad7可以導致抑制性的成骨能力,促進性的破骨能力,以及損傷性的骨重建,亦會加速骨質疏鬆的進程,并可作為全新的藥物治療靶點,提示Smad7 本身對於骨重建及骨代謝的保護性作用,為代謝性骨疾病的研究及其臨床藥物開發提供了更廣泛的前景。 / Smad7 has been well documented as a negative regulator of TGF-β signaling, and its altered expression often leads to human diseases such as cancer and fibrosis. However, the role of Smad7 in regulating bone remodeling and related diseases remains unclear. We performed both in vivo and in vitro experiments as well as disease model and drug therapy studies using both wild-type (WT) and Smad7ΔE1 (KO) mice to investigate the functional role of Smad7 in bone remodeling, osteoporosis, and MSCs differentiation. / The Smad7ΔE1 mice were generated by replacing part of the exon1 of Smad7 gene as reported, which resulted in truncated protein and partial loss of Smad7 function. Mice were genotyped by PCR. The μ-CT, histological assays and bone histomorphometric assays in metaphysic region of the femurs showed lower trabecular number (TbN), trabecular thickness (TbTh), mineral apposition rate (MAR), higher trabecular separation (TbSp) and Osteoclast Surface (Oc.S/BS & Oc.N/BS) in the KO mice at 6, 12, to 24 weeks old; as well as lower bone mineral density (BMD) and bone volume fraction (BV/TV) at 24 weeks old in the KO mice. The in vitro BM-MSCs multi-lineage differentiation studies showed the suppressed osteogenic potential in the KO group with fewer mineralized nodules, lower ALP activity and expression of Col1A1, Runx2 and OCN; while the adipogenic potential was elevated with more lipid droplets formation and higher expression of Adipsin and C/EBPα. The osteoclastogenic potential of KO mice BMMs was also elevated, showing higher osteoclasts activity and larger resorptive areas, as well as elevated expression of TRAP and CTR. Both in vivo and in vitro studies of the osteoporotic models showed that the KO mice had lower BMD, TbTh, and higher TbSp compared to the WT mice at 4, 8, 16 weeks after OVX, similar results of lower BV/TV and TbN were observed at 4 weeks after OVX in the KO mice. The RANKL-induced osteoclastogenesis potential was elevated compared to WT mice, with more and bigger osteoclasts, larger resorptive areas, as well as elevated expression of TRAP and CTR. The osteoclastic cell fusion was also enhanced. Treatment of Asiatic acid (one traditional Chinese medicine that has been proved to induce the expression of Smad7 as reported) in the OVX mice reversed the osteoporotic process with increase BMD, BV/TV, TbN, TbTh, and decreased TbSp compared to the untreated group. The osteoclastic cell fusion was suppressed after AA treatment. / Partial loss of Smad7 function leads to impaired bone remodeling in vivo, reduced osteogenesis and enhanced osteoclastogenesis in vitro, and also accelerates the osteoporotic development and osteoclastic cell fusion. Asiatic acid may be a novel potential drug for prevention of osteoporosis. Our findings provide new evidences for a better understanding of the biological functions of Smad7 in bone remodeling and its therapeutic potential for metabolic bone diseases. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Li, Nan. / Thesis (Ph.D.) Chinese University of Hong Kong, 2014. / Includes bibliographical references (leaves 131-153). / Abstracts also in Chinese.
Identifer | oai:union.ndltd.org:cuhk.edu.hk/oai:cuhk-dr:cuhk_1077729 |
Date | January 2014 |
Contributors | Li, Nan (author.), Li, Gang (thesis advisor.), Chinese University of Hong Kong Graduate School. Division of Biomedical Sciences, (degree granting institution.) |
Source Sets | The Chinese University of Hong Kong |
Language | English, Chinese |
Detected Language | English |
Type | Text, bibliography, text |
Format | electronic resource, electronic resource, remote, 1 online resource (xxii, 153 leaves) : illustrations (some color), computer, online resource |
Rights | Use of this resource is governed by the terms and conditions of the Creative Commons “Attribution-NonCommercial-NoDerivatives 4.0 International” License (http://creativecommons.org/licenses/by-nc-nd/4.0/) |
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