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    請使用永久網址來引用或連結此文件: http://ir.lib.ncu.edu.tw/handle/987654321/84923


    題名: 人體皮膚致電微生物組通過調節鐵和自由基來減輕紫外線B引起的皮膚損傷。;The Electrogenic Human Skin Microbiome Attenuates Ultraviolet-B Induced Skin Damage via Regulation of Irons and Free Radicals
    作者: 巴艾倫;Balasubramaniam, Arun
    貢獻者: 生醫科學與工程學系
    關鍵詞: 皮?;微生物?;紫外?;癌症;益生菌;?科;Skin;Microbiome;Ultraviolet rays;Cancer;Probiotics;Prebiotics
    日期: 2020-12-30
    上傳時間: 2021-03-18 16:51:57 (UTC+8)
    出版者: 國立中央大學
    摘要: 人類皮膚中豐富的微生物組精通細胞外電子轉移 (EET),並且天生就從事不同的分子任務。眾所周知,紫外線B (UV-B) 輻射會造成深層組織移位並減弱免疫反應。微生物影響之重要性對於紫外線引起之皮膚損傷是無庸置疑的。近年來,腸道微生物組藉由膜上電子傳遞蛋白產生電已經被證明,然而皮膚微生物組中的致電細菌表徵似乎完全沒有被表明。本研究藉由ferric-ferrozine方法概述了皮膚表皮葡萄球菌 (S. epidermidis) 是一種致電細菌菌株。甘油對於S. epidermidis的發酵之產電能力至關重要,在燃料電池中 (MFC) 通過測量電壓變化得知藉由5-甲基糠醛 (5-MF) 抑制顯著的減少了細菌產電量。本研究為了瞭解UV-B對S. epidermidis發電以及抗性的影響,開發了一個具有陽極和陰極的培養環境。儘管UV-B照射減少了細菌產電量,但長時間的甘油孵育會導致表S. epidermidis發酵,並增加產電量以抵消UV-B的影響。因此,人類皮膚原有之細菌群也許能作為生物標誌物即時的藉由產生之電量描繪出紫外線輻射。
      皮膚益生元對皮膚益生菌的探究尚未明確,也許能通過對現有皮膚護理之化合物進行改造與激發來適應新的症狀。利用四種已被國際化妝品成分命名法 (INCI) 註冊的化合物,研究其誘導S. epidermidis (一種在人體皮膚中富集的細菌) 發酵的能力。 最初用作於潤膚劑的Liquid coco-caprylate/caprate (LCC)有效地引發了S. epidermidis的發酵,產生短鏈脂肪酸 (SCFA) 並激發了強勁的電力。LCC加S. epidermidis在小鼠皮膚上的施用可顯著減少UV-B誘導的損傷,可通過形成之4-羥基壬烯醛(4-HNE) 、環丁烷嘧啶二聚體 (CPD) 和皮膚損傷來評估。研究發現,具有低表達丙酮酸脫氫? (pdh) 和磷酸乙?基轉移? (pta) 基因之S. epidermidis S2的電原性很差。當將S. epidermidis S2以及LCC應用於小鼠皮膚時,S. epidermidis加LCC對UV-B誘導皮膚損傷的保護作用被大大抑制。探索LCC促進S. epidermidis抵抗UV-B的新適應症,提供了將INCI註冊化合物重新用作皮膚益生元的例子,使人類可以從皮膚微生物組普遍存在的細菌中受益。S. epidermidis加甘油在小鼠皮膚上的局部施用減輕了UV-B誘導的不穩定亞鐵離子(Fe2 +)、4-HNE和CPD的產生,表明 細菌產生的電能減弱由UV-B引起的氧化損傷。在S. epidermidis中存在的親環蛋白A中,調節EET系統中II型NADH氫化? (ndh2) 的基因表達和脫甲基甲??-8 (DMK-8)的產生至關重要。抑制親環蛋白A消除了電子生成,並大大降低了S. epidermidis發酵的抗UV活性。本研究中我們首次證明了致電皮膚細菌可促進親環蛋白A介導的途徑產電,從而抵禦紫外線輻射問題。
    ;A vibrant range of microbiome has been annexed in the skin that are proficient in extracellular electron transfer (EET) and beyond innately engaged in different molecular tasks. Ultraviolet-B (UV-B) radiation was indeed known to trigger deeper tissue shift as well as to attenuate the immune reaction. The importance of the microbiome was hardly debated in UV-induced skin insults. Bacteria have been using electron transport proteins throughout the membrane to generate electricity in the intestinal microbiome that has been identified recently. Although, the characterization of electrogenic bacteria in the skin microbiome seems to be almost completely unmapped. We have outlined the skin Staphylococcus epidermidis (S. epidermidis) as an electrogenic bacterial strain using a ferric-ferrozine investigation. The fermentation of glycerol is vital for the production of electricity in S. epidermidis while inhibition of 5-methyl furfural (5-MF) significantly reduced the bacterial electricity measured in a fuel cell by voltage changes (MFC). In order to investigate the impact of UV-B on electricity generation and UV-B bacterial resistance in S. epidermidis bacteria, a small-scale chamber with both anode and cathode was developed. Though UV-B decreased bacterial electricity, prolonged glycerol incubation led to fermentation of S. epidermidis and increased electricity to counteract UV-B effect. Electricity produced by human skin-based bacteria may be used as an adaptive biomarker to depict ultraviolet radiation in live time.
    The exploration of skin prebiotics for skin probiotics have not been well defined and may be instigated by retrofitting existing skincare compounds for new indications. Four compounds that have been registered by the International Nomenclature of Cosmetic Ingredients (INCI) were included to study their abilities to induce the fermentation of Staphylococcus epidermidis (S. epidermidis), a bacterial species abundant in the human skin. Liquid coco-caprylate/caprate (LCC), originally used as an emollient, effectively initiated the fermentation of S. epidermidis, produced short-chain fatty acids (SCFAs), and provoked robust electricity. Application of LCC plus S. epidermidis on mouse skin significantly reduced ultraviolet B (UV-B)-induced injuries which were evaluated by the formation of 4-hydroxynonenal (4-HNE), cyclobutane pyrimidine dimers (CPD), and skin lesions. An S. epidermidis S2 isolate with low expressions of genes encoding pyruvate dehydrogenase (pdh), and phosphate acetyltransferase (pta) was found to be poorly electrogenic. The protective action of S. epidermidis plus LCC against UV-B-induced skin injuries was considerably suppressed when mouse skin was applied with LCC in combination with the S. epidermidis S2 isolate. Exploring new indication of LCC for promoting S. epidermidis against UV-B provided an example of repurposing INCI-registered compounds as skin prebiotics.
    The host may benefit from the prevalent bacteria present in the skin microbiome. Topical application of S. epidermidis plus glycerol onto mouse skin mitigated the UV-B-induced production of labile ferrous ion (Fe2+), 4-HNE (4-hydroxy-2-nonenal), and cyclobutene pyrimidine dimers (CPD), demonstrating that bacterial electricity acts to attenuate oxidative damage caused by UV-B. The regulation of gene expression of Type II NADH hydrogenase gene (ndh2) and production of demethylmenaquinone-8 (DMK-8) in EET systems for the production of electricity was critical in Cyclophilin A present in S. epidermidis. Suppression of cyclophilin A axed electron generation and considerably reduced the anti-UV activity of S. epidermidis fermentation. Cumulatively, we demonstrate for the first time that electrogenic skin bacteria facilitate a cyclophilin A-mediated pathway to generate electricity as a defense against UV.
    顯示於類別:[生物醫學工程研究所 ] 博碩士論文

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