LSD1調(diào)控hiPSCs高效定向分化為IPCs的作用及機(jī)制研究

周淑艷，孫　倓，桑金鳳，張根葆(皖南醫(yī)學(xué)院病理生理學(xué)教研室，口腔正畸教研室，安徽蕪湖400)

LSD1調(diào)控hiPSCs高效定向分化為IPCs的作用及機(jī)制研究

周淑艷1△，孫倓2，桑金鳳1，張根葆1
(皖南醫(yī)學(xué)院1病理生理學(xué)教研室，2口腔正畸教研室，安徽蕪湖241002)

目的:通過(guò)抑制或沉默人皮膚成纖維細(xì)胞來(lái)源的誘導(dǎo)性多能干細(xì)胞(hiPSCs)內(nèi)賴氨酸特異性去甲基化酶1(LSD1)基因的表達(dá)，建立一種hiPSCs高效、定向分化為胰島素分泌細(xì)胞(IPCs)的方案，并初步探討其調(diào)控分化機(jī)制。方法:采用shRNA 或LSD1抑制劑，沉默或抑制hiPSCs內(nèi)LSD1基因表達(dá)，篩選出利于hiPSCs向定型內(nèi)胚層分化的LSD1活性;利用四步法將hiPSCs誘導(dǎo)分化為IPCs，并對(duì)IPCs分化效率及成熟度進(jìn)行檢測(cè);將IPCs移植到糖尿病模型免疫缺陷小鼠腎包膜下，評(píng)估其體內(nèi)降糖療效; ChIP-qPCR檢測(cè)抑制LSD1前后hiPSCs細(xì)胞核內(nèi)相應(yīng)組蛋白水平的變化情況。結(jié)果:抑制LSD1可促使hiPSCs提前進(jìn)入定型內(nèi)胚層分化，最終IPCs的效率由21. 52%提高至39. 32%;體外胰島素分泌量由1/8提高到1/6;移植的IPCs可在1周內(nèi)使糖尿病小鼠血糖恢復(fù)至正常水平; ChIP-PCR結(jié)果顯示hiPSCs的分化基因啟動(dòng)子區(qū)域H3K4me2/me3和H3K9act水平提高，H3K9/H3K27me3和HDAC1水平下降，而多潛能基因表達(dá)情況相反。結(jié)論:適當(dāng)抑制LSD1活性可顯著提高h(yuǎn)iPSCs 向IPCs的分化效率和成熟度，并在體內(nèi)發(fā)揮有效降糖作用; LSD1通過(guò)調(diào)控hiPSCs多能性基因和分化基因啟動(dòng)子區(qū)域組蛋甲基化、乙?；揎椝絹?lái)影響IPCs分化效率。

AIM: To systematically discover and compare the misregulated long noncoding RNAs (lncRNAs) in tamoxifen-and trastuzumabresistant breast cancer cells in order to shed light on the molecular basis of lncRNA involvement in anti-cancer drug resistance.METHODS: The breast cancer cells were divided into tamoxifen-sensitive MCF-7/WT，tamoxifen-treated MCF-7/TamT and tamoxifen-resistant MCF-7/TamR cells; trastuzumab-sensitive SK-BR-3/WT，trastuzumab-treated SK-BR-3/TraT and trastuzumab-resistant SK-BR-3/TraR cells.RNA isolated from the corresponding cell samples was amplified and hybridized to 40 485 human lncRNAs microarrays followed by qRT-PCR validation.Comprehensive bioinformatic analysis was performed to identify the misregulated lncRNAs，lncRNA categories as well as lncRNA-miRNA interaction network in the 2 different types of resistant lines.RESULTS: 2 107 and 611 lncRNAs were either up-or down-regulated respectively in the tamoxifen-resistant cells as compared with the sensitive cells (≥2-fold change).1 154 and 2 141 lncRNAs were either up-or down-regulated respectively in the trastuzumab-resistant cells as compared with the sensitive cells (≥2-fold change).Besides the previously reported resistance-related lncRNAs such as MEG3，H19 and PVT1 in other cancer types，we also uncovered novel lncRNA regulators in tamoxifen-or trastuzumab-resistant breast cancer cells.Based on each 2 up/down-regulated sets of data，we further found 93 common lncRNAs (69 up-regulated and 24 down-regulated) between the 2 tested lines.Among these，some were epigenetic regulators in cancer methylome，and others were involved in malignancy development，mitotic checkpoint and genotoxic stress-induced cell death.CONCLUSION: A large number of lncRNAs are dysregulated in either tamoxifen-or trastuzumab-resistant cells，but with a small number of lncRNAs overlapped，suggesting that the lncRNAs to initiate resistance may possess strong specificity in different types of anti-cancer drug resistance.The dysregulated lncRNAs in resistant cancer cells are tend to be previously identified cell cycle regulators and DNA damage-related genes.

*［Foundation item］Supported by National Natural Science Foundation of China (No.31471226; No.91440108 )，the funds from Chinese Academy of Sciences (No.KJ2070000031) and the funds from University of Science and Technology of China (No.KY2070000024)

△Corresponding author Tel: 0551-63600080; E-mail: wangxt11@ustc.edu.cn

EMT phenotypes，Rho activation，cellular senescence and antioxidant response after hormone ablation in breast and prostate cancers

Akira TANAKA
(Department of Pathology，Jichi Medical University，Shimotuke，Tochigi 329-0498，Japan)

Prostate and breast cancers are the second and the most common cancers in men and women，respectively.The progression to hormone-unresponsive tumors is the most important issue to prevent cancer death of these cancers.Our group mainly investigates cellular changes under hormone-unresponsive cancer progression using a model system of Shionogi carcinoma cells.Androgens markedly stimulated cell growth of the cloned cell line of SC-3 cells，whereas scarcely promoted that of SC-4 cells，both of which were established from the Shionogi carcinoma tumor.We first compared gene expression profiles between SC-3 and SC-4 cells，and found that epithelial-mesenchymal transition (EMT) along with Rho activation took place in hormone-unresponsive SC-4 cells.EMT and RhoC upregulation were also found in human prostate cancer specimens resected after endocrine therapy，and in human breast cancer specimens resected after chemotherapy.We also found that cellular senescence was triggered in response to hormone ablation in androgen-sensitive cultured cells and in murine castration models.Importantly，senescence-associated secretory phenotypes and antioxidant response were prominently found in human prostate cancer specimens after endocrine therapy.In conclusion，these cellular changes might facilitate therapyresistant tumor progression in prostate and breast cancers.

Hypoxia-regulated apoptosis-inducing factor protects mitochondrial PTEN from oxidation to modulate epithelial-mesenchymal transition and metastasis of cancers

SHEN Shao-ming，GUO Meng，YU Yun，XIONG Zhong，CHEN Guo-qiang
(Department of Pathophysiology，Key Laboratory of Cell Differentiation and Apoptosis，Chinese Ministry of Education，Shanghai Jiaotong University School of Medicine，Shanghai 200025，China)

Apoptosis-inducing factor (AIF)，a FAD-containing，NADH-dependent oxidoreductase residing in the mitochondria，has dualroles in cell death and survival，but its specific enzymatic activity and potential roles in the pathogenesis of cancers remain unknown.Here we report that the tumor suppressor PTEN is localized into mitochondria，and AIF physically interacts with and protects PTEN from oxidation through its oxidoreductase activity.Hypoxia represses AIF expression via a HIF-1-dependent mechanism，and the reduced AIF triggers cancer cells to undergo epithelial-mesenchymal transition and metastasis of in vitro and xenografts through inactivating PTEN，thus activating Akt/GSK-3 signaling.Moreover，re-expression of AIF partially blocks hypoxia-induced EMT.In conclusion，these findings suggest that AIF functions as an oxidoreductase of PTEN and its decrease favors cancer metastasis.

Long noncoding RNA expression profiling of tamoxifen-and trastuzumab-resistant breast cancer cells*

ZHANG Xiu-lei，ZHU Tao，WANG Xiang-ting△
(School of Life Sciences，University of Science and Technology of China，Hefei 230027，China)

△E-mail: zhoushuyan_xju2005@126.com