世界生命科學(xué)前沿動態(tài)周報(bào)(四十八)

2011年-07月-17日 來源:mebo

(7.11-7.17/2011)
美寶國際集團(tuán):陶國新  


        主要內(nèi)容:裸鼠移植人神經(jīng)干細(xì)胞減輕由輻射引起的認(rèn)知功能障礙;胎兒期和哺乳期營養(yǎng)狀況影響成年后的基因表達(dá);新化合物通過阻斷對高氧化壓力的適應(yīng)來選擇性殺死癌細(xì)胞;誘導(dǎo)多能干細(xì)胞的表觀遺傳記憶;小RNA指導(dǎo)人纖維母細(xì)胞轉(zhuǎn)變成神經(jīng)元;多能神經(jīng)干細(xì)胞生成大腦中的神經(jīng)元和膠質(zhì)細(xì)胞。

        焦點(diǎn)動態(tài):新化合物通過阻斷對高氧化壓力的適應(yīng)來選擇性殺死癌細(xì)胞。

1. 裸鼠移植人神經(jīng)干細(xì)胞減輕由輻射引起的認(rèn)知功能障礙
【動態(tài)】
    治療腦癌的頭部放療導(dǎo)致的認(rèn)知能力逐漸變?nèi)醪糠衷蚩赡苁巧窠?jīng)干細(xì)胞耗竭。美國科學(xué)家通過輻照無胸腺裸鼠兩天后在海馬區(qū)內(nèi)移植人神經(jīng)干細(xì)胞來檢驗(yàn)干細(xì)胞替代策略在對付輻射引起的認(rèn)知能力減弱方面的潛力。在輻照后1個(gè)月和4個(gè)月測定認(rèn)知表現(xiàn)、人神經(jīng)干細(xì)胞的存活狀況和表型結(jié)果。移植人神經(jīng)干細(xì)胞的輻照大鼠認(rèn)知功能的減弱明顯比偽裝移植的輻照大鼠少,表現(xiàn)與未輻照的對照大鼠無可識別的差異。無偏見的立體測量顯示移植細(xì)胞在移植后1和4個(gè)月分別存活23%和12%。 移植的細(xì)胞廣泛遷移,向神經(jīng)膠質(zhì)和神經(jīng)元細(xì)胞分化,而且表達(dá)調(diào)節(jié)行動的細(xì)胞骨架相關(guān)蛋白(Arc),提示其能夠在功能上整合進(jìn)海馬區(qū)。這些數(shù)據(jù)表明人神經(jīng)干細(xì)胞提供了一種有希望的策略來恢復(fù)受輻照動物的認(rèn)知功能。

【點(diǎn)評】
 此類實(shí)驗(yàn)用人造的無免疫力的裸鼠試驗(yàn)干細(xì)胞移植的效果,可以看到在沒有免疫排斥的情況下移植細(xì)胞的表現(xiàn),但是對臨床治療幾乎沒有任何參考價(jià)值。如果在具有自身免疫的正常動物身上進(jìn)行干細(xì)胞移植,很可能移植的細(xì)胞根本無法存活,更不要說進(jìn)一步分化和功能整合;而且被排斥的細(xì)胞在移植部位還可能引起嚴(yán)重后果。

【參考論文】Cancer Research, 2011; 71 (14): 4834 DOI: 10.1158/0008-5472.CAN-11-0027
Human Neural Stem Cell Transplantation Ameliorates Radiation-Induced Cognitive Dysfunction
M. M. Acharya, L.-A. Christie, M. L. Lan, et al.
Cranial radiotherapy induces progressive and debilitating declines in cognition that may, in part, be caused by the depletion of neural stem cells. The potential of using stem cell replacement as a strategy to combat radiation-induced cognitive decline was addressed by irradiating athymic nude rats followed 2 days later by intrahippocampal transplantation with human neural stem cells (hNSC). Measures of cognitive performance, hNSC survival, and phenotypic fate were assessed at 1 and 4 months after irradiation. Irradiated animals engrafted with hNSCs showed significantly less decline in cognitive function than irradiated, sham-engrafted animals and acted indistinguishably from unirradiated controls. Unbiased stereology revealed that 23% and 12% of the engrafted cells survived 1 and 4 months after transplantation, respectively. Engrafted cells migrated extensively, differentiated along glial and neuronal lineages, and expressed the activity-regulated cytoskeleton-associated protein (Arc), suggesting their capability to functionally integrate into the hippocampus. These data show that hNSCs afford a promising strategy for functionally restoring cognition in irradiated animals.

2. 胎兒期和哺乳期營養(yǎng)狀況影響成年后的基因表達(dá)
【動態(tài)】  
    短暫的環(huán)境影響,像圍產(chǎn)期營養(yǎng)壓力,可能誘發(fā)持續(xù)終生的代謝不良癥狀,這意味著表觀遺傳修飾在此過程中起重要作用。法國科學(xué)家最近研究了在妊娠和哺乳期母老鼠營養(yǎng)不良對DNA甲基化和瘦素基因表達(dá)的影響,瘦素基因在協(xié)調(diào)哺乳動物生物學(xué)的許多方面與營養(yǎng)狀況的關(guān)系上起主要調(diào)節(jié)作用。結(jié)果顯示喂低蛋白食物的老鼠生的后代比對照組的老鼠體重更輕,食量更大。這些變化持續(xù)終生與實(shí)驗(yàn)組饑餓老鼠的低水平的瘦素mRNA和蛋白有關(guān),突顯了母代蛋白營養(yǎng)不足影響了后代成年時(shí)進(jìn)食和能量消耗之間的平衡。而且,這種營養(yǎng)壓力導(dǎo)致瘦素啟動子上的CpGs失去甲基,引起瘦素表達(dá)動力學(xué)方面永久性的特殊變化,表現(xiàn)為實(shí)驗(yàn)組老鼠比對照組對食物有更強(qiáng)的反應(yīng)。這一研究是將短暫的環(huán)境影響和永久性表型變化相聯(lián)系的分子機(jī)理的例子。


【點(diǎn)評】
    這一研究在老鼠身上看到了后天營養(yǎng)狀況通過表觀遺傳修飾影響了個(gè)體胎兒的基因表達(dá),改變了成年個(gè)體的代謝狀態(tài)。

【參考論文】FASEB Journal, June 13, 2011 fj.11-181792; published ahead of print
Perinatal Undernutrition Affects the Methylation and Expression of the Leptin Gene in Adults: Implication for the Understanding of Metabolic Syndrome
C Jousse, L Parry, S Lambert-Langlais, et al.
Transient environmental influences, such as perinatal nutritional stress, may induce deleterious metabolic symptoms that last for the entire life of individuals, implying that epigenetic modifications play an important role in this process. We have investigated, in mice, the consequences of maternal undernutrition during gestation and lactation on DNA methylation and expression of the leptin gene, which plays a major regulatory role in coordinating nutritional state with many aspects of mammalian biology. We show that animals born to mothers fed a low-protein-diet (F1-LPD group) have a lower body weight/adiposity and exhibit a higher food intake than animals born to mothers fed a control diet (F1-CD group). These modifications persisted throughout life and were associated with lower levels of leptin mRNA and protein in starved F1-LPD mice, emphasizing that maternal protein-undernutrition affects the balance between food intake and energy expenditure in adults. Moreover, this nutritional stress resulted in the removal of methyls at CpGs located in the promoter of leptin, causing a permanent specific modification in the dynamics of the expression of leptin, which exhibits a stronger induction in the F1-LPD than in F1-CD mice in response to a meal. This study is an example of a molecular rationale linking transient environmental influences to permanent phenotypic consequences.


3. 新化合物通過阻斷對高氧化壓力的適應(yīng)來選擇性殺死癌細(xì)胞
【動態(tài)】
  激活癌基因的突變和失活腫瘤抑制基因的突變所驅(qū)動的細(xì)胞惡變導(dǎo)致常常與升高的細(xì)胞壓力(如氧化、復(fù)制、代謝和蛋白毒性壓力、DNA損傷)有關(guān)的細(xì)胞失調(diào)。為了生存,癌細(xì)胞必須適應(yīng)這種壓力,結(jié)果癌細(xì)胞可能變得依賴那些平常在正常細(xì)胞中不起如此關(guān)鍵作用的非癌基因。因此,在表型變換時(shí)針對這類非癌基因依賴性可能造成人為的致命相互作用和選擇性癌細(xì)胞死亡。利用基于細(xì)胞的小分子篩選和定量的蛋白組學(xué)方法客觀地識別出能夠選擇性殺死癌細(xì)胞而非正常細(xì)胞的小分子。不管p53是何狀況,來自胡椒的天然產(chǎn)物蓽茇酰胺在癌細(xì)胞和設(shè)計(jì)帶有癌基因型的普通細(xì)胞中都能增加活性氧自由基水平和細(xì)胞凋亡,但它對快分裂或者慢分裂的基本正常細(xì)胞作用很小。在異種移植腫瘤模型老鼠中觀察到蓽茇酰胺明顯的抗腫瘤作用,而對正常老鼠無明顯毒性。而且,蓽茇酰胺強(qiáng)力抑制老鼠自發(fā)形成的惡性乳腺腫瘤的生長和轉(zhuǎn)移。該研究結(jié)果表明一種小分子能選擇性地在有癌基因型的細(xì)胞中通過靶向在癌基因表達(dá)時(shí)產(chǎn)生的應(yīng)對轉(zhuǎn)變引起的氧化壓力的非癌基因依賴性來誘導(dǎo)該細(xì)胞凋亡。

【點(diǎn)評】
 選擇性阻斷癌細(xì)胞對環(huán)境的適應(yīng)從而讓環(huán)境因素引起癌細(xì)胞凋亡。該研究中的蓽茇酰胺對處于高氧化壓力下的癌細(xì)胞中的抗氧化酶在其濃度超出正常細(xì)胞中的水平時(shí)有抑制作用,從而選擇性地誘導(dǎo)癌細(xì)胞在氧化壓力下凋亡。這一點(diǎn)對研究美寶再生物質(zhì)的抗癌作用機(jī)理有啟示。

【參考論文】Nature, 2011; 475 (7355): 231 DOI: 10.1038/nature10167
Selective killing of cancer cells by a small molecule targeting the stress response to ROS
Lakshmi Raj, Takao Ide, Aditi U. Gurkar, et al.
Malignant transformation, driven by gain-of-function mutations in oncogenes and loss-of-function mutations in tumour suppressor genes, results in cell deregulation that is frequently associated with enhanced cellular stress (for example, oxidative, replicative, metabolic and proteotoxic stress, and DNA damage). Adaptation to this stress phenotype is required for cancer cells to survive, and consequently cancer cells may become dependent upon non-oncogenes that do not ordinarily perform such a vital function in normal cells. Thus, targeting these non-oncogene dependencies in the context of a transformed genotype may result in a synthetic lethal interaction and the selective death of cancer cells. Here we used a cell-based small-molecule screening and quantitative proteomics approach that resulted in the unbiased identification of a small molecule that selectively kills cancer cells but not normal cells. Piperlongumine increases the level of reactive oxygen species (ROS) and apoptotic cell death in both cancer cells and normal cells engineered to have a cancer genotype, irrespective of p53 status, but it has little effect on either rapidly or slowly dividing primary normal cells. Significant antitumour effects are observed in piperlongumine-treated mouse xenograft tumour models, with no apparent toxicity in normal mice. Moreover, piperlongumine potently inhibits the growth of spontaneously formed malignant breast tumours and their associated metastases in mice. Our results demonstrate the ability of a small molecule to induce apoptosis selectively in cells that have a cancer genotype, by targeting a non-oncogene co-dependency acquired through the expression of the cancer genotype in response to transformation-induced oxidative stress.


4. 誘導(dǎo)多能干細(xì)胞的表觀遺傳記憶
【動態(tài)】  
    人誘導(dǎo)多能干細(xì)胞看似非常像人胚胎干細(xì)胞。以色列科學(xué)家用兩種遺傳譜系追蹤系統(tǒng)證明了從人胰島β細(xì)胞生成誘導(dǎo)多能干細(xì)胞系。這些重組的細(xì)胞獲得了多能干細(xì)胞的標(biāo)記并分化成三胚層。然而,從β細(xì)胞而來的誘導(dǎo)多能干細(xì)胞(BiPSCs)在關(guān)鍵β細(xì)胞基因上維持開放的染色質(zhì)結(jié)構(gòu),同時(shí)有一個(gè)獨(dú)特的DNA甲基化簽名以區(qū)別于其他多能干細(xì)胞。與胚胎干細(xì)胞和同基因的非β細(xì)胞來的iPSCs 相比,BiPSCs也顯示了更高的體內(nèi)體外分化成生產(chǎn)胰島素的細(xì)胞的能力。其研究結(jié)果提示表觀遺傳記憶可能使BiPSCs更傾向于分化成生產(chǎn)胰島素的細(xì)胞。這些發(fā)現(xiàn)證明人誘導(dǎo)多能干細(xì)胞的表現(xiàn)型可能受其來源細(xì)胞的影響,也提示其受影響的分化潛力可能有利于細(xì)胞替代治療。


【點(diǎn)評】
    該研究的誘導(dǎo)多能干細(xì)胞能夠傾向性地分化成其來源細(xì)胞,看似技術(shù)進(jìn)步,實(shí)則無奈之舉,因?yàn)槿藗儫o法駕馭誘導(dǎo)多能干細(xì)胞,不知道如何創(chuàng)造生命的條件使誘導(dǎo)多能干細(xì)胞能夠正常分化成任何需要的細(xì)胞。此外,誘導(dǎo)多能干細(xì)胞基因組的改變使其再也不是正常細(xì)胞,成為人造細(xì)胞。

【參考論文】Cell Stem Cell, 2011; 9 (1): 17 DOI:10.1016/j.stem.2011.06.007
Epigenetic Memory and Preferential Lineage-Specific Differentiation in Induced Pluripotent Stem Cells Derived from Human Pancreatic Islet Beta Cells
Ori Bar-Nur, Holger A. Russ, Shimon Efrat, Nissim Benvenisty.
Human induced pluripotent stem cells (HiPSCs) appear to be highly similar to human embryonic stem cells (HESCs). Using two genetic lineage-tracing systems, we demonstrate the generation of iPSC lines from human pancreatic islet beta cells. These reprogrammed cells acquired markers of pluripotent cells and differentiated into the three embryonic germ layers. However, the beta cell-derived iPSCs (BiPSCs) maintained open chromatin structure at key beta-cell genes, together with a unique DNA methylation signature that distinguishes them from other PSCs. BiPSCs also demonstrated an increased ability to differentiate into insulin-producing cells both in vitro and in vivo, compared with ESCs and isogenic non-beta iPSCs. Our results suggest that the epigenetic memory may predispose BiPSCs to differentiate more readily into insulin producing cells. These findings demonstrate that HiPSC phenotype may be influenced by their cells of origin, and suggest that their skewed differentiation potential may be advantageous for cell replacement therapy.


5. 小RNA指導(dǎo)人纖維母細(xì)胞轉(zhuǎn)變成神經(jīng)元
【動態(tài)】
    神經(jīng)元的轉(zhuǎn)錄因子和進(jìn)化上保守的信號通路被發(fā)現(xiàn)是有助于神經(jīng)元的形成。然而,小RNA在神經(jīng)新生中的指導(dǎo)作用還不清楚。美國科學(xué)家最近發(fā)現(xiàn)miR-9* 和miR-124指導(dǎo)SWI/SNF-like BAF 染色質(zhì)重塑復(fù)合體組分的變化,該過程對神經(jīng)元分化和功能很重要。在靠近神經(jīng)元祖細(xì)胞有絲分裂出口時(shí),miR-9* 和miR-124抑制神經(jīng)元祖細(xì)胞BAF 染色質(zhì)重塑復(fù)合體的BAF53a 亞基。在有絲分裂出口之后,BAF53a 被BAF53b取代,BAF45a被 BAF45b 和 BAF45c取代,后者合并成為神經(jīng)元特異的BAF復(fù)合體為有絲分裂后的功能所必需。由于miR-9* 和miR-124也控制多個(gè)調(diào)節(jié)神經(jīng)元分化和功能的基因,他們認(rèn)為這些小RNA可能與神經(jīng)元命運(yùn)有關(guān)。他們的研究顯示人纖維母細(xì)胞中miR-9/9* 和miR-124的表達(dá)誘導(dǎo)其轉(zhuǎn)變成神經(jīng)元,該過程受NEUROD2的促進(jìn)。進(jìn)一步加入神經(jīng)元的轉(zhuǎn)錄因子ASCL1 和 MYT1L提高了轉(zhuǎn)化率和轉(zhuǎn)化成的神經(jīng)元的成熟,這其中只表達(dá)這些轉(zhuǎn)錄因子不表達(dá)miR-9/9*-124 的話是沒有效果的。該研究暗示涉及miR-9/9*-124的遺傳線路對神經(jīng)元命運(yùn)決定有指導(dǎo)作用。

【點(diǎn)評】
    小RNA指導(dǎo)人纖維母細(xì)胞轉(zhuǎn)變成神經(jīng)元,揭示了表觀調(diào)控對細(xì)胞分化的控制。表觀調(diào)控的研究將是比基因組研究更有實(shí)用價(jià)值的課題。


【參考論文】Nature, 2011; DOI:10.1038/nature10323
MicroRNA-mediated conversion of human fibroblasts to neurons
Andrew S. Yoo, Alfred X. Sun, Li Li, et al.
Neurogenic transcription factors and evolutionarily conserved signalling pathways have been found to be instrumental in the formation of neurons. However, the instructive role of microRNAs (miRNAs) in neurogenesis remains unexplored. We recently discovered that miR-9* and miR-124 instruct compositional changes of SWI/SNF-like BAF chromatin-remodelling complexes, a process important for neuronal differentiation and function. Nearing mitotic exit of neural progenitors, miR-9* and miR-124 repress the BAF53a subunit of the neural-progenitor (np)BAF chromatin-remodelling complex. After mitotic exit, BAF53a is replaced by BAF53b, and BAF45a by BAF45b and BAF45c, which are then incorporated into neuron-specific (n)BAF complexes essential for post-mitotic functions. Because miR-9/9* and miR-124 also control multiple genes regulating neuronal differentiation and function, we proposed that these miRNAs might contribute to neuronal fates. Here we show that expression of miR-9/9* and miR-124 (miR-9/9*-124) in human fibroblasts induces their conversion into neurons, a process facilitated by NEUROD2. Further addition of neurogenic transcription factors ASCL1 and MYT1L enhances the rate of conversion and the maturation of the converted neurons, whereas expression of these transcription factors alone without miR-9/9*-124 was ineffective. These studies indicate that the genetic circuitry involving miR-9/9*-124 can have an instructive role in neural fate determination.

6. 多能神經(jīng)干細(xì)胞生成大腦中的神經(jīng)元和膠質(zhì)細(xì)胞
【動態(tài)】
    神經(jīng)元生成和膠質(zhì)生成在成體哺乳動物大腦的分立的區(qū)域持續(xù)進(jìn)行。一個(gè)尚未解決的基本問題是細(xì)胞生成是來自譜系限制的祖細(xì)胞還是來自成體大腦中自我更新的多能神經(jīng)干細(xì)胞。美國科學(xué)家的最新研究采用遺傳標(biāo)記策略在成年老鼠齒狀回中追蹤單個(gè)的、靜止的、表達(dá)巢蛋白的放射狀膠質(zhì)樣前體細(xì)胞(RGL)??寺》治霭l(fā)現(xiàn)多種激活RGL的方式,包括不對稱和對稱自我更新。體內(nèi)的長期譜系追蹤顯示有明顯比例的克隆包含RGLs、神經(jīng)元和星形膠質(zhì)細(xì)胞,表明單個(gè)RGL能夠自我更新同時(shí)進(jìn)行多譜系分化。此外,在RGL中有條件地去除Pten一開始促進(jìn)其激活和對稱的自我更新,但最終導(dǎo)致星形膠質(zhì)細(xì)胞的終極分化和成體海馬區(qū)RGL的耗竭。該研究鑒定RGL為自我更新的多能神經(jīng)干細(xì)胞,提供了體內(nèi)成體神經(jīng)干細(xì)胞特性的新見解。

【點(diǎn)評】
    體內(nèi)的克隆分析揭示自我更新和成體多能神經(jīng)干細(xì)胞特性,對于神經(jīng)新生過程有了進(jìn)一步了解。


【參考論文】Cell, 2011; 145 (7): 1142 DOI:10.1016/j.cell.2011.05.024
In Vivo Clonal Analysis Reveals Self-Renewing and Multipotent Adult Neural Stem Cell Characteristics
Michael A. Bonaguidi, Michael A. Wheeler, Jason S. Shapiro, et al.
Neurogenesis and gliogenesis continue in discrete regions of the adult mammalian brain. A fundamental question remains whether cell genesis occurs from distinct lineage-restricted progenitors or from self-renewing and multipotent neural stem cells in the adult brain. Here, we developed a genetic marking strategy for lineage tracing of individual, quiescent, and nestin-expressing radial glia-like (RGL) precursors in the adult mouse dentate gyrus. Clonal analysis identified multiple modes of RGL activation, including asymmetric and symmetric self-renewal. Long-term lineage tracing in vivo revealed a significant percentage of clones that contained RGL(s), neurons, and astrocytes, indicating capacity of individual RGLs for both self-renewal and multilineage differentiation. Furthermore, conditional Pten deletion in RGLs initially promotes their activation and symmetric self-renewal but ultimately leads to terminal astrocytic differentiation and RGL depletion in the adult hippocampus. Our study identifies RGLs as self-renewing and multipotent neural stem cells and provides novel insights into in vivo properties of adult neural stem cells.