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乙醇增強葫蘆素B肝毒性的作用與機制研究 Effect and mechanisms of Ethanol augments cucurbitacin B-induced hepatotoxicity /by Ding Qian. / Effect and mechanisms of Ethanol augments cucurbitacin B-induced hepatotoxicity丁倩 January 2014 (has links)
University of Macau / Institute of Chinese Medical Sciences
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蛋白激酶 CK2 調控受質蛋白 DARPP-32 磷酸化對 PC12 細胞株之抗凋亡機制的探討 / DARPP-32 phosphorylation by protein kinase CK2 mediates the anti-apoptotic effects in PC12 cells李曉怡, Lee, Hsiao Yi Unknown Date (has links)
蛋白激酶 CK2 是一種具有多種功能的絲胺酸/蘇胺酸蛋白質激酶,其作用的受質眾多且普遍存在於哺乳類動物細胞中。從許多的研究結果顯示,蛋白激酶 CK2 參與調節許多的神經系統功能其中包括有神經保護作用,但是其分子層面的機制目前尚未釐清。DARPP-32(Dopamine- and cAMP-regulated phosphoprotein, Mr 32 kDa)主要表現在紋狀體中型多刺狀 GABA 神經元中的蛋白質,參與調控與藥物成癮相關的多巴胺訊息傳遞路徑,不過,近年來的一些研究報告指出DARPP-32亦參與了細胞的抗凋亡作用。雖然先前已有研究發現DARPP-32 Ser102胺基酸是CK2的磷酸化作用受質,但是並沒有進一步的研究證實,該胺基酸的磷酸化作用是否參與CK2所調控的細胞機制。屬於抗細胞凋亡蛋白Bcl-2 家族成員之ㄧ的bcl-x基因會經由pre-mRNA選擇性剪裁機制(alternative splicing)而產生兩種異構蛋白Bcl-xL和Bcl-xS,其中Bcl-xL蛋白被證實會促進細胞存活;而Bcl-xS蛋白則會造成細胞死亡。實驗室先前的研究結果發現,在神經滋養因子BDNF的刺激下,CK2可以促進Bcl-xL基因的表現,因此本論文欲進一步探討CK2對DARPP-32 Ser102的磷酸化作用是否參與CK2的抗細胞凋亡訊息傳遞,進而影響Bcl-xL和Bcl-xS的表現。實驗結果顯示,轉染野生型CK2α DNA質體會增加DARPP-32 Ser102的磷酸化現象、Bcl-xL的蛋白質表現以及Bcl-xL/Bcl-xS mRNA的比例;而處理 CK2 抑制劑 TBB 或轉染 CK2α siRNA則會降低 DARPP-32 Ser102的磷酸化現象、Bcl-xL的蛋白質表現以及Bcl-xL/Bcl-xS mRNA的比例。此外,轉染 DARPP-32 siRNA會降低 Bcl-xL的蛋白質表現。轉染模擬之磷酸化構型的DARPP-32 S102D DNA質體會增加Bcl-xL的蛋白質表現以及Bcl-xL/Bcl-xS mRNA的比例;但是,轉染突變型DARPP-32 S102A DNA質體則會降低Bcl-xL的蛋白質表現以及Bcl-xL/Bcl-xS mRNA的比例。進一步利用野生型CK2α和DARPP-32 S102A DNA質體進行細胞共同轉染的實驗結果則發現,DARPP-32 S102A會拮抗野生型 CK2α對促進Bcl-xL蛋白質表現的作用;另外,利用過氧過氫產生細胞氧化逆境下,CK2α或DARPP-32 siRNA處理可以顯著降低 DARPP-32 Ser102的磷酸化現象、Bcl-xL的蛋白質表現以及Bcl-xL/Bcl-xS mRNA的比例,同時會顯著造成細胞凋亡。綜合本論文的實驗結果,顯示CK2會透過DARPP-32 Ser102的磷酸化作用而調控Bcl-xL以及Bcl-xS的表現,而且在氧化逆境下,此條細胞訊息傳遞路徑應參與了細胞的抗凋亡機制。 / Protein kinase CK2 is a multifunctional serine/threonine protein kinase with many protein substrares and is ubiquitously expressed in mammalian cells. Many studies have shown that CK2 is involved in many neuronal functions including neuroprotection, but its cellular mechanisms are not well-studied. DARPP-32 (Dopamine- and cAMP-regulated phosphoprotein, Mr 32 kDa) is highly enriched in striatal medium-size spiny GABA neurons and is a prominent mediator of dopamine signalling which relates with drug abuse. Beside its well-known function in drug abuse, recent studies also reveal that DARPP-32 may be involved in the anti-apoptotic effects. Although the Ser102 residue of DARPP-32 is a phosphorylation site for CK2, this phosphorylation-mediated CK2 signaling has not been studied yet. The bcl-x gene, one member of the Bcl-2 family, encodes two isoform proteins Bcl-xL and Bcl-xS by the pre-mRNA alternative splicing. The former increases cell survival and the later enhances cell apoptosis. Our previous study found that CK2 can increase Bcl-xL expression by BDNF treatment. In the present study, we investigate whether DARPP-32 ser102 phosphorylation also mediates the CK2 signaling for cell survival. Our results revealed that DARPP-32 Ser102 phosphorylation, Bcl-xL protein level and Bcl-xL/Bcl-xS mRNA ratio were all increased by wild-type CK2α plasmid DNA transfection. Meanwhile, CK2 inhibitor TBB treatment or CK2α siRNA transfection decreased DARPP-32 Ser102 phosphorylation, Bcl-xL protein level and Bcl-xL/Bcl-xS mRNA ratio. On the other hand, DARPP-32 siRNA transfection decreased Bcl-xL protein level. Furthermore, transfection of DARPP-32 S102D, which mimics the constitutive phosphorylation form, increased whereas transfection of mutant S102A decreased the Bcl-xL protein level and Bcl-xL/Bcl-xS mRNA ratio. Further, the mutant DARPP-32 S102A antagonized the up-regulatory effects of wild-type CK2α on Bcl-xL protein level in the co-transfection experiments. From the results of H2O2-induced oxidative stress experiments, we also found that prior knock-down of CK2 or DARPP-32 can aggravate the decrease in DARPP-32 Ser102 phosphorylation, Bcl-xL protein level and Bcl-xL/Bcl-xS mRNA ratio by H2O2 treatment. These results together suggest that DARPP-32 mediates CK2α signaling in regulating Bcl-xL/Bcl-xS expression and this signaling pathway might be involved in cell survival under oxidative stress.
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蛋白激酶 CK2 在大鼠腦部之抗細胞凋亡機制的探討 / The anti-apoptotic mechanisms of protein kinase CK2 in the brain of rat張家銘 Unknown Date (has links)
蛋白激酶 CK2 是一種具有多種功能的絲胺酸/蘇胺酸蛋白質激酶,CK2 作用的受質眾多且廣泛表現在哺乳類動物細胞中,對於細胞週期的發展、轉錄作用以及抗細胞凋亡等機制扮演非常重要的角色。在神經系統中,CK2 已知可以保護神經細胞以抵抗外來的傷害,但是其分子層面的機制目前尚未釐清。本篇論文的研究重點在於探討 CK2 保護作用可能參與的細胞分子機制。血清反應因子 SRF 是一種哺乳類動物細胞的轉錄因子,調控基因的轉錄作用來促進細胞的存活。Mcl-1 是抗細胞凋亡家族 Bcl-xL 家族蛋白成員之一,可以促進細胞的存活能力。先前研究指出,SRF 會受到 CK2 的磷酸化作用而增加本身的 DNA 結合能力。在其他研究也指出,Mcl-1 會受到 SRF 的調控。在本篇論文的第一部份,著重於 Mcl-1 的表現是否會受到 CK2 調控 SRF 的路徑所影響,實驗結果顯示,轉染野生型 CK2α 質體 DNA 可以增加海馬迴 CA1 腦區的 SRF 磷酸化,而轉染不活化的突變型 CK2αΑ156 質體 DNA 則會減少 SRF 的磷酸化。更進一步,轉染野生型 CK2α 會增加 Mcl-1 的 mRNA 及蛋白質表現,轉染突變型 CK2αΑ156 則減少 Mcl-1 的表現。此外,轉染突變型 SRF99A 也會減少 Mcl-1 的 mRNA 及蛋白質表現;而且在共同轉染實驗中,SRF99A 會拮抗野生型 CK2α 對促進的 Mcl-1 蛋白質表現的作用。
另一方面,DARPP-32 是一個在新紋狀體神經細胞中具有調控多巴胺訊息效力的訊息傳遞分子。先前研究指出,DARPP-32 具有抗細胞凋亡的功能,且發現在 DARPP-32 Ser102 氨基酸會受 CK2 的磷酸化作用。因此,本篇論文的第二部份主要是探討 CK2 的抗細胞凋亡能力是否是透過磷酸化 DARPP-32 來調控。實驗結果顯示,轉染野生型 CK2α 可以增加紋狀體 DARPP-32 的磷酸化,而轉染不活化的突變型 CK2αΑ156 則會減少 DARPP-32 的磷酸化。此外,轉染 CK2α 的小干擾 RNA (siRNA) 可以抑制內生性的 CK2 表現,同時也會減少 DARPP-32 的磷酸化以及抗細胞凋亡蛋白, Bcl-xL 的表現。綜合這些實驗結果,CK2α可以分別透過 SRF 或 DARPP-32 調控的訊息傳遞來促進 Mcl-1 或 Bcl-xL 的表現進而調控神經系統的抗細胞凋亡機制。 / Protein kinase CK2 is a multifunctional serine/threonine protein kinase with many protein substrares and is ubiquitously expressed in mammalian cells to play an important role in cell cycle progression, transcription, and anti-apoptosis. In the nervous system, CK2 is shown to protect neurons against injury, but the cellular mechanisms are not well studies. In the present studies, we investigate which cellular mechanism might involve in the CK2 protection effects. The serum response factor (SRF) is a mammalian transcription factor which mediates some gene transcriptions relevent to promote the cell survival. The Myeloid cell leukemin 1 (Mcl-1) is one of the anti-apoptotic Bcl-2 family members and is involved in promoting cell viability. Previous studied have revealed that the SRF phosphorylation by CK2 can enhance its DNA-binding activity. The regulation of Mcl-1 by SRF has also been reported in other studies. In the first part of the present studies, we investigate whether the Mcl-1 expression is regulated by CK2 through SRF mediated pathway. The results from wildtype CK2α plasmid DNA transfection revealed that the phosphorylated SRF were increased in hippocampus CA1 region, whereas transfection of the catalytically inactive CK2αA156 mutant plasmid DNA decreased phosphorylated SRF. Further, wildtype CK2α increased, whereas CK2αA156 mutant decreased the mRNA and protein levels of Mcl-1. Moreover, transfection of the mutant SRF99A also decreased the mRNA and protein levels of Mcl-1. Furthermore, the mutant SRF99A antagonized the upregulatory effects of wildtype CK2α on Mcl-1 protein level in the co-transfection experiments.
In the other side, DARPP-32 (dopamine- and cAMP-regulated phosphoprotein of Mr 32 kDa) is a signal transduction molecule that regulates the efficacy of dopamine signaling in neostriatal neurons. Previous studies have revealed that DARPP-32 might involve in the anti-apoptosis and its Ser102 residue is phosphorylated by CK2. Therefore, in the second part of this study, we investigate whether one of the anti-apoptotic effects of CK2 is through DARPP-32 phosphorylation by CK2 in the present study. The results revealed that the phosphorylated DARPP-32 is increased in stratum by wildtype CK2α transfection and decreased by catalytically inactive CK2αA156 mutant transfection. Further, transfection of CK2α siRNA can inhibit endogenous CK2 expression and also decrease phosphorylation of DARPP-32 as well as the anti-apoptotic protein, Bcl-xL. These results together suggest that CK2α-mediated anti-apoptotic effects are partially through SRF mediated or DARPP-32 mediated signaling to regulate Mcl-1 or Bcl-xL expression, respectively.
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漢厚朴酚與蛋白激酶 CK2 的交互作用對 Nrf1 蛋白調控蛋 白酶體活性的影響 / The interactive effects of honokiol and protein kinase CK2α on the Nrf1-mediated proteasome activity吳芊澐 Unknown Date (has links)
漢厚朴酚是從木蘭科植物中萃取之天然化合物,已知具有抗氧化、抗發炎及神經保護之生理活性功能。先前的研究證明漢厚朴酚可以保護多巴胺神經元對抗6-OHDA所引起的細胞傷害,並且可以減緩6-OHDA 動物模式由apomorphine所誘發的旋轉行為,但漢厚朴酚對於神經保護之分子機制的相關研究尚未釐清。蛋白激酶CK2是具有多功能的絲氨酸/蘇氨酸激酶,高度表現在大腦紋狀體中,先前的研究證實蛋白激酶CK2參與調節神經系統功能和具有神經保護之作用。先前研究也指出轉錄因子Nrf1(Nuclear factor E2-related factor 1)是蛋白激酶CK2下游磷酸化受質,會調控小鼠胚胎纖維細胞中蛋白酶體基因的表現。抗細胞凋亡蛋白Mcl-1 (myeloid cell leukemia 1) 屬於Bcl-2蛋白家族的成員之一,在細胞凋亡的過程中,其蛋白含量減少與細胞凋亡有密切關聯性,抑制Mcl-1蛋白的降解可以延遲細胞死亡。因此本論文主要探討漢厚朴酚的神經細胞保護機制是否透過CK2-Nrf1細胞訊息路徑調控蛋白酶體活性,進而減少Mcl-1的降解速率。實驗結果顯示,轉染CK2α-EGFP DNA質體會增加Nrf1磷酸化並抑制蛋白酶體活性,泛素化之Mcl-1蛋白含量亦伴隨增加;轉染CK2α siRNA則會降低Nrf1磷酸化並促進蛋白酶體活性,導致naive Mcl-1蛋白質含量減少24小時的漢厚朴酚後處理(post-treatment)可以部份恢復因轉染CK2α siRNA所造成之CK2蛋白、Phosphoserine蛋白和Mcl-1蛋白質含量減少,在設計縮短間隔5小時漢厚朴酚後處理(post-treatment)的實驗結果雖然仍無法有效恢復CK2蛋白含量,但對於Phosphoserine和Mcl-1蛋白含量以及蛋白酶體活性則具有部份恢復的功效。利用過氧化氫造成細胞氧化壓力環境下,實驗發現間隔3小時的漢厚朴酚後處理才能有效恢復細胞存活率,間隔5小時的漢厚朴酚後處理則無法恢復細胞存活率。在大白鼠紋狀體腦區給予漢厚朴酚微量注射則對pTH、TH和GAD蛋白質含量皆有促進增加的作用,乙醯化的Histone H3蛋白含量也有顯著增加。綜合以上結果,推測漢厚朴酚對細胞保護作用的其中一個機制是參與調控CK2-Nrf1路徑而抑制蛋白酶體活性,減少Mcl-1蛋白質降解速率和提升氧化壓力下之細胞存活能力;此外,從活體動物的實驗結果顯示漢厚朴酚亦可能參與調控多巴胺和γ-氨基丁酸神經細胞功能的機制之中。 / Honokiol is a natural compound, extracted from the Magnolia officinalis, and is known as its anti-oxidative, anti-inflammatory and neuroprotective effects. The previous study has been demonstrated that the honokiol can protect striatal dopamine neuron against 6-OHDA induced damage and reverse the apomorphine-induced rotational behavior in Parkinson’s disease model of rats. However, the cellular mechanisms for its neuroprotective effects are not fully investigated. Protein kinase Casine kinase 2 (CK2) is a serine/threonine kinase has a highly abundant expression in the striatum compared with other brain areas. Further, CK2 is shown to regulate many neuronal functions including neuroprotection. The nuclear factor E2-related factor 1 (Nrf1) has been identified as one of the substrate proteins for CK2 and is indicated to involve in the induction of proteasome subunits gene expressions in mouse embryonic fibroblasts. The anti-apoptotic protein myeloid cell leukemia 1 (Mcl-1) is shown to play a critical initiation role during the apoptosis process due to its synthesis blockage and proteasome degradation. The present study is aimed to investigate whether one of protective effects of honokiol is through CK2-mediated Nrf1 signaling pathway to regulate the proteasome activity in the mouse N2a neuroblastoma cell line. In the current results, transfection of the CK2α-EGFP plasmid DNA increased Nrf1 phosphorylation accompanied with the decrease in the proteasome activity but increased the ubiquitinated Mcl-1 protein. Whereas, transfection of CK2α siRNA decreased Nrf1 phosphorylation leading to the increase in proteasome activity and Mcl-1 protein degradation. The 24 hr duration of honokiol post-treatment only slightly reversed the knock-down effect of CK2α siRNA on CK2α and Mcl-1 protein levels. However, 5 hr duration of honokiol post-treatment could partially reverse the Mcl-1 protein level and proteasome activity but no effect on CK2α protein levels. In the H2O2-induced oxidative stress condition, only 3 hr duration of honokiol post-treatment could protect cells against H2O2-induced cell death. In the experiments of in vivo rat animal model, local administration of honokiol was found to increase phospho-TH, naive TH, GAD as well as acetylated Histone H3 protein levels. These above results suggest one of the protective mechanisms of honokiol might be through CK2-mediated Nrf1 signaling to inhibit the proteasome activity. and to promote cell survival under oxidative stress. Beside these functions, honokiol might also involve in the regulation of nurophysiological functions of dopamine and GABA neurons.
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神經滋養因子BDNF在PC12細胞中與蛋白激酶CK2對SRE所調控之基因轉錄作用的機制探討 / Neurotrophic factor BDNF up-regulates SRE-mediated gene transcription through protein kinase CK2 in PC12 cells楊淑萍, Yang, Shu Ping Unknown Date (has links)
神經系統裡,神經滋養因子在調控細胞分化與生存作用中扮演非常重要的角色,近年來的研究顯示 BDNF 的神經保護效果是透過細胞外訊息調控激酶 (extracellular signal-regulated kinase, ERK) 及磷脂酰肌醇3-激酶 (phosphatidylinositol-3 kinase, PI3K) 訊息傳遞路徑調控,然而,還有許多其他的細胞信號傳遞路徑可能參與 BDNF 的保護作用機制中。而蛋白激酶 CK2 (casein kinase 2) 是一種普遍存在於細胞且具有高度保留序列的絲胺酸/蘇胺酸蛋白質激酶,在細胞中具有非常重要的地位。近來研究有非常多證據支持 CK2 是細胞凋亡的抑制者。此外,血清反應因子 (serum response factor, SRF) 是一種轉錄因子,會與保留序列 SRE (即 CArG box) 相結合,而此段序列過去曾在早期即時表現基因 (如 c-fos、Egr ) ,或是抗細胞凋亡基因-Mcl-1-上的啟動子被發現, SRF 調控著基因的活化,進而與細胞增生、存活、突觸活性相關聯,然而調節 SRE 調控之基因的作用機制尚未十分明瞭。因此,本論文研究主要探討在 PC12 細胞中, BDNF調節 SRE 調控轉錄作用機轉 CK2 是否參與其中? 由冷光酶活性試驗結果顯示 BDNF 會顯著地促進 SRE 的轉錄活性,並且當 CK2α 過度表現亦會促進 SRE 調控的轉錄活性,而利用小干擾 RNA 抑制內生性 CK2α 生成,則會降低 SRE 的轉錄活性,更進一步證明 CK2α siRNA 會降低 BDNF 促進 SRE 調控的轉錄活性。此外,將 CK2α 與 SRF S99A 質體一同轉染至細胞中,會減緩 CK2 促進的 SRE 啟動子轉錄活性。為了探討 CK2 調控 SRE 的轉錄活性在神經保護作用裡扮演的角色,因此,將 CK2 蛋白表現量增加是否會保護 PC12 細胞對抗Rotenone所誘發的細胞凋亡傷害?結果顯示 CK2 表現量增加會保護細胞對抗Rotenone誘導的細胞凋亡,並減緩 Rotenone 對 SRE 調控的轉錄活性降低,但是,突變型 SRF S99A 蛋白會降低 CK2α 的影響作用。這些結果顯示 BDNF 促進 SRE 調控的基因表現是會透過 CK2 訊息傳遞路徑。 / The neurotrophins play an important role in cell differentiation and survival of the nervous system. Among them, the neuroprotective effects of brain-derived neurotrophic factor (BDNF) is showed to be mediated by extracellular signal-regulated kinase (ERK) and phosphatidylinositol-3 kinase (PI3K) signaling pathway in the recent studies. However, other cellular signaling pathways might be involved in these effects of BDNF. Protein kinase CK2 (casein kinase 2) is a ubiquitous and highly conserved serine/threonine protein kinase and is indicated as a vital cellular role. In recent years, evidences have been mounted in support of the importance of CK2 in the suppression of apoptosis. Serum response factor (SRF) is a transcription factor binding to a consensus DNA sequence SRE (known as a CArG box) which was found in the promoters of some immediately early genes (such as c-fos, Egr) and anti-apoptotic Mcl-1 gene. The activations of SRF-regulated genes were associated with cell proliferation, cell survival and perception of synaptic activity. However, the regulatory mechanism of SRE-mediated genes is not well studied. The SRE-mediated transcription activity through CK2 signaling by BDNF treatment was studied in the PC12 cells in the present study. Results revealed that BDNF significantly increased the SRE promoter activity by luciferase report assay. The SRE-mediated transcription activity was increased by overexpression of CK2α, and the inhibition of endogenous CK2α by small interfering RNA was also shown to reduce this transcription activity. Furthermore, CK2α siRNA treatment antagonized the up-regulation effects of BDNF on SRE-mediated transcription activity. The co-transfection of CK2 and mutant SRF S99A plasmids significantly diminished up-regulatory effects of CK2 on SRE promoter activity. To test this CK2 induction in SRE-mediated transcription plays a role in neuroprotecion, we determined whether over-expression CK2 protects PC12 cells against rotenone-induced apoptosis. The results revealed that the over-expression of CK2α protected cells against rotenone-induced apoptosis and rescued the SRE-mediated transcription activity. Further, these effects of CK2α were blocked by co-transfection of mutant SRF S99A. These above results demonstrate that the up-regulation of BDNF on SRE-mediated genes is through CK2 signaling pathway.
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蛋白激酶 CK2 與轉錄因子 SRF 所調控之抗細胞凋亡蛋白 Mcl-1 對 PC12 神經細胞之保護機制的探討 / Anti-apoptotic effects of Mcl-1 through CK2-mediated SRF pathway in PC12 cells曾惠敏, Tseng, Hui Min Unknown Date (has links)
蛋白質激酶 CK2 是一種多功能的絲胺酸/蘇胺酸蛋白激酶,且普遍存在於哺乳類動物細胞中,CK2 受質眾多,對於細胞週期的發展、轉錄作用以及抗細胞凋亡等過程中扮演很重要的角色。SRF 是一種哺乳類動物的轉錄因子,它會結合到血清反應元素 SRE 上進而調控一些促進細胞存活的基因轉錄作用。Mcl-1歸類於抗細胞凋亡 Bcl-2 家族,具有促進細胞存活的能力。過去研究顯示 SRF 的 DNA 結合活性會受到蛋白激酶 CK2 的磷酸化而增加,且 SRF 對 Mcl-1 的活性調控作用也被描述在其他的研究中,然而,對於細胞的訊息目前還沒有更詳細的研究。在本實驗中,我們探討是否可以藉由 CK2 調控 SRF 的路徑來影響 Mcl-1 的表現以作為抗細胞凋亡的機制。利用 CK2 抑制劑 TBB 處理的結果顯示,在 4 hr 後,phospho-SRF 蛋白質表現的降低具有劑量相關性。而相似的降低也可以從 Mcl-1 的 mRNA 和蛋白質表現量觀察到。處理 24 hr 後,phospho-SRF 的蛋白質表現量有顯著降低,而 Mcl-1 的 mRNA 表現量相較 Mcl-1 的蛋白質影響層面微弱。另一方面,轉染野生型 CK2α 會增加 phospho-SRF,相反的,轉染抑制催化活性的突變型 CK2αA156 則會顯著降低 phospho-SRF 的表現。更進一步,野生型 CK2α 同時增加 Mcl-1 的 mRNA 及蛋白質層級,而 CK2αA156 則會降低 Mcl-1 的表現。突變型的 SRF99A 轉染作用降低 Mcl-1 的 mRNA 及蛋白質,並經由共同轉染的實驗顯示具有抵抗上游野生型CK2α 對 Mcl-1 蛋白質的影響。綜合這些結果我們認為 CK2α對 SRF 的訊息調控影響包括對 Mcl-1 的表現。且這條訊息路徑所促進的 Mcl-1 蛋白質表現可能對魚藤酮處理所引發的細胞凋亡作用具有保護的效果。 / Protein kinase CK2 is a multifunctional serine/threonine protein kinase with many protein substrates and is ubiquitously expressed in mammalian cells to play an important role in cell cycle progression, transcription, and anti-apoptosis. The serum response factor (SRF) is a mammalian transcription factor which binds to serum response element (SRE) and mediates some gene transcriptions relevent to promote the cell survival. The Myeloid cell leukemia 1 (Mcl-1) belongs to the anti-apoptotic Bcl-2 family and its effect are involved in promoting cell viability. Previous studies have revealed that the DNA-binding activity of SRF is enhanced when it is phosphorylated by protein kinase CK2. The activation regulation of Mcl-1 by SRF has also been reported in other studies. However, the detailed cellular signaling has not been studied well. In the present study, we investigate whether the regulation of Mcl-1 expression through CK2-mediated SRF pathway is involved in its anti-apoptotic effects. The results from CK2 inhibitor TBB revealed that the phosphorylated SRF were reduced in a dose-dependent manner after 4 hr of TBB treatments in PC12 cells. The similar decreases were also observed in the mRNA and protein levels of Mcl-1. After a 24 hr exposure of PC12 cells to TBB, a decreased in phosphorylated SRF and Mcl-1 mRNA were observed; a decreased in Mcl-1 protein level was also detected, albeit to a lesser extent. On the other hand, transfection of the wildtype CK2α increased, whereas transfection of the catalytically inactive CK2αA156 mutant decreased phosphorylated SRF. Further, wildtype CK2α increased, whereas CK2αA156 mutant decreased the mRNA and protein levels of Mcl-1. Furthermore, the mutant SRF99A transfection decreased, the mRNA and protein levels of Mcl-1 and antagonized the up-regulatory effects of wildtype CK2α on Mcl-1 protein level in the co-transfection experiments. These results together suggest that CK2α-mediated SRF signaling is involved in the regulation of Mcl-1 expression, and this signaling pathway may involves the anti-apoptotic effects of Mcl-1 against rotenone treatment.
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蛋白磷酸水解酶PP1在蛋白激酶CK2a調控 抗凋亡蛋白Bcl-xL基因表現過程中的角色 / The role of protein phosphatase 1 in the protein kinase CK2a-mediated anti-apoptotic Bcl-xL gene expression許焙琹 Unknown Date (has links)
蛋白激酶 CK2 是一種具有多功能的絲胺酸/蘇胺酸蛋白激酶,大量表現於哺乳類動物的腦中,對於調控細胞週期的發展、基因表現、訊息傳遞以及抗細胞凋亡機制扮演相當重要的角色。許多研究顯示 CK2 也參與調節許多神經系統功能,包括神經保護及神經存活,但是其中調控機制目前尚未釐清。DARPP-32 (dopamine- and cAMP- regulated phosphoprotein with a molecular mass of 32 kDa) 主要表現在紋狀體中型多刺狀神經元中,過去研究已證實 DARPP-32 Ser102 胺基酸是CK2 的磷酸化作用受質。雖然DARPP-32 被發現主要透過抑制蛋白磷酸水解酶 PP1 參與藥物成癮的細胞調控機制,但近年研究指出DARPP-32 也參與抗細胞凋亡作用。PP1 是真核細胞的絲胺酸/蘇胺酸磷酸水解酶,能調節多種細胞功能,如轉錄、細胞訊息傳遞及細胞凋亡。過去文獻已指出 PP1 可以調節 Bcl-x 基因的 pre-mRNA 選擇性剪切,再經由轉譯過程合成抗細胞凋亡 Bcl-xL 異構蛋白,研究也發現抑制 PP1 可以防止細胞週期的停滯及細胞凋亡,強調細胞在壓力的情況下,PP1 扮演了相當關鍵性的角色。因此論文以人類神經母細胞瘤 SH-SY5Y 為實驗模式,探討透過 CK2 調控 DARPP-32 Ser102 的磷酸化是否具有抑制 PP1 的活性並促進細胞存活的作用。實驗結果顯示,抑制 CK2或DARPP-32 蛋白含量會導致細胞存活率下降,轉染 CK2 siRNA 會降低 DARPP-32 Ser102 的磷酸化現象、Bcl-xL 的蛋白質表現;轉染DARPP-32 siRNA 及突變型DARPP-32 S102A DNA 質體也會降低 Bcl-xL 的蛋白質表現,PP1 活性則會因轉染突變型DARPP-32 S102A DNA 質體而增加;此外,給予 PP1 抑制劑的實驗結果發現會促進 Bcl-xL/Bcl-xS mRNA 的比例以及 Bcl-xL 的蛋白質表現量。利用過氧化氫誘導細胞造成氧化壓力狀況下,同時給予 PP1 抑制劑,發現 Bcl-xL 的蛋白質表現量會回復以及促進細胞存活。轉染 CK2-EGFP 或 DARPP-32 S102D DNA 質體可以顯著回復Bcl-xL 的蛋白質表現量及Bcl-xL/Bcl-xS mRNA 的比例,轉染 DARPP-32 S102D DNA 質體亦可降低 PP1 的活性。論文的實驗結果提供 CK2 調節抗細胞凋亡基因表現的新機制,是經由促進 DARPP-32 Ser102 磷酸化作用進而抑制 PP1 活性,此條細胞訊息傳遞路徑將可提供應用於在氧化壓力下提升神經存活的臨床治療。 / Protein kinase casein kinase II (CK2) is a multifunctional serine/threonine protein kinase and is highly abundant expression in the mammalian brain. CK2 plays an important role in the regulation of the cell cycle, gene expression, signal transduction and anti-apoptotic mechanisms. A number of studies have indicated that CK2 is involved in several neuronal functions including the neuroprotection and neuron survival, but its cellular mechanisms are not well-studied. The DARPP-32 (dopamine- and cAMP-regulated phosphoprotein with a molecular mass of 32 kDa) is highly enriched in the striatal medium spiny neurons and the Ser102 residue is identified as the phosphorylation site for CK2. Although DARPP-32 is known as a prominent cellular mediator of drug abuse through the inhibition of protein phosphatase 1 (PP1), the recent studies indicate that DARPP-32 may also be involved in the anti-apoptotic effects. Protein phosphatase PP1 is a major eukaryotic serine/threonine phosphatase that regulates diverse cellular functions such as transcription, cell signaling and apoptosis. PP1 is indicated to regulate the pre-mRNA alternative splicing of Bcl-x gene to encode the anti-apoptotic Bcl-xL isoform. Inhibition of PP1 prevents the induction of cell cycle arrest and apoptosis, underlines the crucial role of PP1 in the cellular response to the stress. In my thesis study, the neuroblastoma SH-SY5Y cell line system was used to investigate whether the promotion of cell survival by PP1 inhibition is through the signaling pathway of DARPP-32 Ser102 phosphorylation by CK2. The current results reveals that the cell viability is decreased under down-regulations of CK2 and DARPP-32. The Ser102 phosphorylation status of DARPP-32, Bcl-xL mRNA and protein level are decreased by CK2 siRNA transfection. Transfection of either DARPP-32 siRNA or mutant DARPP-32 S102A plasmid DNA decreased the Bcl-xL protein level. The PP1 activity was increased by mutant DARPP-32 S102A plasmid DNA transfection. Furthermore, the PP1 inhibitor treatment increased the Bcl-xL/Bcl-xS mRNA ratio and Bcl-xL protein level. Under oxidative stress, inhibition of PP1 activity can reverse the H2O2-induced decrease in Bcl-xL protein level and promote the cell viability. The transfection of CK2-EGFP or DARPP-32 S102D plasmid DNA both can antagonize the effects of H2O2 on Bcl-xL protein level and the Bcl-xL/Bcl-xS mRNA ratio. The DARPP-32 S102D plasmid DNA transfection also attenuated the induction of PP1 activity under oxidative stress. These findings provide another insight for the regulation of anti-apoptotic gene expression by inhibition of PP1 activity through DARPP-32 phosphorylation on Ser102 by CK2. This signaling pathway might be applied in the clinical therapy for neuronal survival under oxidative stress.
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