- 學位論文
活化素/轉化生長因子β於瓢體蟲傷口癒合與早期頭部再生之研究
Characterization of Activin/TGF-β Signaling in the Wound Healing and Early Anterior Regeneration of Aeolosoma viride
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摘要
活化素(activin)屬於轉化生長因子-β (Transforming Growth Factor-β),已知與傷口癒合、發炎反應、細胞分裂及細胞凋亡等有密切關係。過去的研究發現,activin在老鼠的傷口癒合和斑馬魚的尾鰭再生都扮演著重要的腳色,當activin被抑制的時候,老鼠的傷口無法正常的癒合,還有斑馬魚的尾鰭也無法再生。再者,近期研究發現活化素的拮抗分子follistatin在渦蟲再生過程中的角色非常重要,因此,本研究想確認activin在無脊椎動物中對於再生的重要性。我們選用的模式動物為瓢體蟲Aeolosoma viride,牠是一種水生的環節動物,能在五天再生完成失去的頭部。本篇研究中發現,在A. viride頭部再生過程中,activin會大量的表現,activin receptor會集中表現在A. viride傷口的位置。接著,以activin/TGF-β的抑制劑 SB505124處理再生中的A. viride時,傷口癒合無法正常進行,且再生會被抑制。綜合以上實驗結果,我們推測activin/TGF-β在A. viride中可能透過傷口表皮癒合來影響再生。
並列摘要
Activin, a TGFβ superfamily protein, is known to regulate cell proliferation, inflammation, apoptosis, regeneration, and wound healing. Previous researches demonstrated that activin is necessary for wound healing in mice and fin regeneration in zebrafish. Recently, follistatin has been linked to regeneration in planarians. In this research, we investigated the roles of activin in the wound healing of a small fresh water annelid, Aeolosoma viride. A.viride can fully regenerate the head within 5 days after amputation. The results showed activin expression is upregulated during regeneration and activin receptor is densely expressed at the wound site and the blastema. Furthermore, A. viride treated with a chemical inhibitor of activin/TGF-β, SB 505124, obviously inhibited wound healing and impaired regeneration. Therefore, we infer that activin/TGF-β signaling might mediate wound healing to affect anterior regeneration in A. viride.
參考文獻
Alvarado AS. 2000. Regeneration in the metazoans: why does it happen?. BioEssays 22(6): 578-590
Alvarado AS. 2006. Planarian Regeneration: Its End Is Its Beginning. Cell 124(2): 241-245
Antsiferova M and Werner S. 2012. The bright and the dark sides of activin in wound healing and cancer. J Cell Sci. 125: 3929-3937
Bely AE. 2010. Evolutionary Loss of Animal Regeneration: Pattern and Process. Integr. Comp. Biol. 50(4): 515-527
Brown KA, Pietenpol JA, Moses HL. 2007. A Tale of Two Proteins: Differential Roles and Regulation of Smad2 and Smad3 in TGF-β Signaling. J Cell Biochem 101(1): 9-33
延伸閱讀
- Chen, C. P. (2020). 類鐸受體訊息傳遞路徑參與調控瓢體蟲前端再生之研究 [doctoral dissertation, National Taiwan University]. Airiti Library. https://doi.org/10.6342/NTU202000204
- 張立昀(2018)。纖維母細胞生長因子受器與上皮細胞生長因子受器在頭頸部鱗狀細胞癌中的交互作用對細胞遷移的影響〔碩士論文,國立臺灣大學〕。華藝線上圖書館。https://doi.org/10.6342/NTU201803551
- 黃漢龍、陳忠川、陳威臣、蔡新聲(1996)。當歸組織培養之研究(Ⅰ)未熟胚培養擬胚化癒合組織之誘導及生長。中華農業研究,45(2),156-163。https://doi.org/10.29951/JARC.199606.0005
- Tuan, S. J., Hou, R. F., Kao, S. S., Lee, C. F., & Chao, Y. C. (2005). 利用早期啟動子表現昆蟲特異性神經毒以提升重組桿狀病毒對植物保護之效力. Botanical Bulletin of Academia Sinica, 46(1), 11-20. https://doi.org/10.7016/BBAS.200501.0011
- 王亭(2014)。The Promoting Effects of Andrographolide on Wound Healing Process:in vitro and in vivo Study〔碩士論文,國立臺灣大學〕。華藝線上圖書館。https://doi.org/10.6342/NTU.2014.01490