WO2018170650A1 - 拮抗人miRNA-29a、miR-140和miR-148a表达的Tud RNA及其应用 - Google Patents
拮抗人miRNA-29a、miR-140和miR-148a表达的Tud RNA及其应用 Download PDFInfo
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- the present invention relates to the field of gene editing and epigenetics, and in particular to a Tud RNA that antagonizes the expression of human miRNA-2 9a, miR-140 and miR-148a and uses thereof.
- MicroRNAs are a class of endogenous, non-coding RNAs found in eukaryotes, typically between 22 and 25 nt in size. miRNAs are widely distributed in plants, animals, and multicellular organisms, and can Play an important regulatory role, and in the study of human miRNAs, it is found that the expression of miRNA in normal tissues and tumor tissues is significantly different, some miRNAs are lowly expressed in tumor tissues, and some are highly expressed in tumor tissues. This suggests that miRNAs play a crucial role in tumorigenesis.
- miR-29a is a small RNA closely related to cell proliferation. It is involved in many diseases and can act as a tumor suppressor gene in a variety of tumors. It has the ability to grow and invade cells such as human gastric cancer and bladder cancer. Related, its expression level is an important reference for evaluating the benign and malignant glioma, and it is also associated with diseases such as atherosclerotic liver fibrosis, and has important potential application value for the treatment of various tumors; miR-140 and various diseases The occurrence and development are closely related, such as bone and joint diseases, liver diseases, pituitary adenomas, testicular development, head and neck tumors, ovarian and breast diseases.
- miR-140 can inhibit the proliferation and invasion and metastasis of hepatocellular carcinoma by targeting TGFBR1 and other gene expression.
- miR-140 is highly expressed in articular cartilage and plays a vital role in the pathogenesis of osteoarthritis. Under various mechanisms, miR-140 plays an oncogene role in some tumors, and plays a tumor suppressor role in other tumors, and is associated with multiple tumor chemotherapy resistance; miR-148a has been studied in recent years. More than one mic r0 RNA. It has been reported that miR-14 8a is closely related to exogenous substance metabolism, apoptosis, occurrence, development and epigenetics of various cancers. By controlling the expression of miR-29a, miR-140 and miR-148a, the synergy with other drugs can provide new epigenetic ideas for the treatment of cancer.
- MiRNA functional studies usually require the use of miRNA silencing technology, mainly including anti-miR, antag omiR, miRNA
- Tough Decoy RNA is a novel miRNA-inhibiting miRNA that inhibits miRNA by introducing double-stranded RNA to target miRNAs. Because the inserted RNA is double-stranded and has a secondary structure of stem-loops, it is resistant to intracellular nuclease degradation and inhibits miRNAs in a long-term, stable, and efficient manner.
- Lentiviral vector is currently used to construct a stable cell line. Compared with expression vectors such as retrovirus and adenovirus, it can simultaneously infect dividing cells and non-dividing cells, and has high transfection efficiency. And the stability is high, and the gene of the experimental target can be stably expressed for a long time.
- the primary object of the present invention is to overcome the shortcomings and deficiencies of the prior art, and to provide a person who can completely antagonize mi
- Another object of the present invention is to provide the use of the Tud RNA which antagonizes the expression of human miRNA-29a, miR-140 and miR-148a.
- a further object of the present invention is to provide a recombinant vector containing the TudRNA.
- the RNA is applied to inhibit the expression of miRNA-29a, miR-140 and miR-148a
- the Tud RNA is preferably constructed on a lentiviral vector, and the recombinant plasmid consisting of the Tud RNA and the lentiviral vector is applied to HepG2 cells.
- the purpose of inhibiting the expression of miRNA-29a, miR-140 and miR-148a is achieved;
- the lentiviral vector is preferably a CS-RfA-EG lentiviral vector
- the Tud RNA is constructed on a CS-RfA-EG lentiviral vector, and comprises the following steps:
- the TuD RNA sequence designed to antagonize human miR-29a, miR-140 and miR-148a has a stem-loop structure and is not easily degraded, and the double-stranded Tud RNA is relatively common with the currently used single-stranded miRNA sponge.
- the binding efficiency is higher, and the same target can better achieve the interference of the three miRNAs for the three targets, and improve the efficiency of the miRNA function research.
- FIG. 1 is a schematic diagram showing the structure of a CS-RfA-EG lentiviral vector
- FIG. 2 is a miRNA of HepG2 cells and HepG2 cells transfected with CS-RfA-EG-Tud-29a-140-148a lentivirus in one embodiment
- Expression level where a. miR-29a expression, b. miR-140 expression, c. miR-148a expression. .
- the temperature was lowered to room temperature at ° C/s, and 2 times of frozen absolute ethanol (added 0.1 times pH 5.6 of 3 mol/L NaAc) was precipitated to obtain a double-stranded DNA fragment;
- ddH20 is supplemented to 20 ⁇ 1;
- reaction was carried out at 25 ° C for 6 hours, and the reaction was carried out at 37 ° C for 10 minutes to remove excess LR.
- Clonase II enzyme Then, the ⁇ competent Escherichia coli Stbl3 (purchased from Quanjin Company) was cultured at 30 ° C for 22 to 24 hours in LB solid medium containing 10 (Vg/ml Ampicillin), and the clone that grew was a positive clone. Positive clones were picked and cultured in LB liquid medium containing 10 (Vg/ml Ampicillin, cultured at 30 ° C for 20 hours, and the plasmid was purified and sent for sequencing. The correct sequencing result was obtained by correct sequencing.
- This recombinant plasmid was defined as: CS-RfA-EG-Tud-29a-140-148a, a Tud RNA lentiviral plasmid that antagonizes the expression of human mi RNA-29a, miR-140 and miR-148a.
- the recombinant plasmid was extracted from the box (purchased from Tiangen Biochemical).
- CS-RfA-EG-Tud-29a-140-148a pCMV-VSV-G-RSV-Rev and pCAG-HIVgp plasmid were introduced into human embryonic kidney 293T cells at a ratio of 5:2:2; The supernatant, the 0.45 ⁇ filter was filtered to obtain a virus containing the CS-RfA-EG-Tud-29a-140-148a plasmid.
- HepG2 cells were infected with a virus containing the CS-RfA-EG-Tud-29a-140-148a plasmid.
- the infection steps are as follows: 50,000 HepG2 cells and 100,000 TU virus solution were suspended in DMEM medium and prepared according to the amount of ⁇ mixture/well. Each ⁇ mixture also contained 10% FBS and 8 g/ml.
- the amine was mixed and placed in a 96-well plate. The reaction was carried out at 37 ° C for 24 h.
- the culture medium was replaced with fresh medium (DMEM + 10% FBS), and the culture was continued for 24 h and subcultured.
- the miRNA extraction and isolation kit was used to extract miRNA from normal HepG2 cells and HepG2 cells transfected with CS-RfA-EG-Tud-29a-140-148a lentivirus, and the corresponding cDNA was obtained after reverse transcription and tailing.
- the cDNA of each of the two cells was used as a template.
- the expression levels of miR-29a, miR-140 and miR-148a were detected by real-time PCR. The experiment was repeated 3 times, and 3 parallel samples were set per well. Snord 44 was used as the internal reference. . As a result, as shown in Fig.
- the TuD RNA sequence designed to antagonize human miR-29a, miR-140 and miR-148a has a stem-loop structure and is not easily degraded, and the double-stranded Tud RNA is relatively common with the currently used single-stranded miRNA sponge.
- the binding efficiency is higher, and the same target can better achieve the interference of the three miRNAs for the three targets, and improve the efficiency of the miRNA function research.
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Abstract
一种拮抗人miRNA-29a、miR-140和miR-148a表达的Tud RNA及其应用。所述抑制人miRNA-29a、miR-140和miR-148a表达的Tud RNA的DNA序列如SEQ ID NO 1所示。包含所述Tud RNA的重组质粒及其制备方法,包括先设计含有拮抗人miRNA-29a、miR-140和miR-148a的Tud RNA的DNA序列,将此DNA序列克隆至pENTR/U6载体上,再通过Gateway技术将位于重组载体pENTR/U6-Tud-29a-140-148a上的此DNA序列转移至慢病毒载体CS-RfA-EG上,得到CS-RfA-EG-Tud-29a-140-148a重组质粒,该重组质粒能抑制人miRNA-29a、miR-140和miR-148a表达。
Description
拮抗人 miRNA-29a、 miR-140和 miR-148a表达的 Tud
RNA及其应用
技术领域
[0001] 本发明涉及基因编辑领域和表观遗传领域研究, 具体地涉一种拮抗人 miRNA-2 9a、 miR-140和 miR- 148a表达的 Tud RNA及其应用。
背景技术
[0002] MicroRNA (miRNA) 是在真核生物中发现的一类内源性的非编码 RNA, 大小 一般在 22-25 nt之间, miRNA广泛分布于植物、 动物和多细胞生物中, 并且能发 挥重要的调节作用, 而在人类 miRNA的研究中, 发现 miRNA在正常组织和肿瘤 组织中的表达有着显著差异, 有些 miRNA会在肿瘤组织中有低表达, 有些则在 肿瘤组织中有高表达, 这说明 miRNA在肿瘤发生过程中起了至关重要的作用。
[0003] miR-29a是一个与细胞增殖紧密相关的小分子 RNA, 参与多种疾病, 可在多种 肿瘤中起到抑癌基因作用, 它与人胃癌和膀胱癌等细胞的生长和侵袭能力相关 , 其表达水平是评价胶质瘤良恶性的重要参考指标, 还与动脉粥样硬化肝纤维 化等疾病相关, 对多种肿瘤的治疗具有重要的潜在应用价值; miR-140与多种疾 病的发生发展密切相关, 如骨、 关节疾病, 肝脏疾病, 垂体腺瘤, 睾丸发育, 头颈部肿瘤, 卵巢与乳腺疾病等。 miR-140能通过靶向调节 TGFBR1等基因表达 抑制肝细胞癌增殖和侵袭转移, miR- 140特异性高表达于关节软骨中, 并在骨关 节炎的发病机制中发挥至关重要的作用, 在多种机制调控下, miR-140在一些肿 瘤中发挥癌基因作用, 而在另一些肿瘤中发挥抑癌作用, 并且与多种肿瘤化疗 耐药性有关; miR- 148a是近几年研究得较多的一种 micr0RNA。 据报道, miR- 14 8a与外源性物质代谢、 细胞凋亡、 多种癌症的发生、 发展和表观遗传等都密切有 关。 通过控制 miR-29a、 miR-140和 miR-148a的表达, 同吋与其他药物协同作用 , 能为治疗癌症提供新的表观遗传思路。
技术问题
[0004] MiRNA的功能研究通常需要用到 miRNA沉默技术, 主要包括 anti-miR, antag
omiR, miRNA
sponge等, 这些技术均属于瞬吋转染技术, 无法保持对目的 miRNA的长期稳定 沉默, 沉默效果远未达到最优。
[0005] Tough Decoy RNA (Tud RNA) 是一种新幵发出的 miRNA抑制手段, 其通过引 入双链 RNA对目标 miRNA进行吸附, 达到抑制 miRNA的目的。 由于弓 |入的 RNA 为双链并且带有茎环的二级结构, 因此其够抵抗胞内核酸酶的降解, 能长期、 稳定和高效地抑制 miRNA。
[0006] 慢病毒载体是目前采用较多的构建稳定细胞株的载体, 与逆转录病毒和腺病毒 等表达载体相比, 它能同吋感染分裂细胞和非分裂细胞, 转染效率较高, 并且 稳定性高, 能使实验目的基因长期稳定表达。
问题的解决方案
技术解决方案
[0007] 本发明的首要目的在于克服现有技术的缺点与不足, 提供一种能完全拮抗人 mi
RNA-29a、 miR-140和 miR- 148a表达的 Tud RNA。
[0008] 本发明的另一目的在于提供所述拮抗人 miRNA-29a、 miR- 140和 miR- 148a表达 的 Tud RNA的应用。
[0009] 本发明的再一目的在于提供一种含有所述 TudRNA的重组载体。
[0010] 本发明的目的通过下述技术方案实现: 一种拮抗人 miRNA-29a、 miR-140和 miR
-148a表达的 Tud RNA, 其 DNA序歹 !J如 SEQ ID NO 1所示;
[0011] 所述拮抗人 miRNA-29a、 miR- 140和 miR- 148a表达的 Tud
RNA应用于抑制 miRNA-29a、 miR- 140和 miR- 148a的表达, 优选将所述 Tud RNA 构建于慢病毒载体上, 再将由所述 Tud RNA和慢病毒载体组成的重组质粒作用 于 HepG2细胞, 达到抑制 miRNA-29a、 miR- 140和 miR- 148a表达的目的;
[0012] 所述的慢病毒载体优选为 CS-RfA-EG慢病毒载体;
[0013] 将所述的 Tud RNA构建于 CS-RfA-EG慢病毒载体上, 包括以下步骤:
[0014] (1) 设计含有拮抗人 miRNA-29a、 miR-140和 miR-148a的 Tud RNA的 DNA序列
, 如 SEQ ID NO 1所示; 为了将其克隆至 pENTR/U6载体上, 合成以下 DNA序列
[0015] FP: 5,-CACC
CCTTTTT -3'
[0016] RP: 5,-AAAA
CCTAGCGCC -3' ;
[0017] (2) 将 DNA序列 FP和 RP按等摩尔量进行混合, 于 95°C处理 5 min, 然后按 0.1
°C/s的速度降温至室温, 沉淀, 得到双链 DNA片段;
[0018] (3) 将 pENTR/U6载体与步骤 (2) 得到的双链 DNA片段进行连接, 得到重组 载体 pENTR/U6-Tud-29a-140-148a;
[0019] (4) 通过 Gateway技术将位于重组载体 pENTR/
U6-Tud-29a- 140- 148a上的双链 DNA片段转移至慢病毒载体 CS-Rf A-EG上, 得到 C
S-RfA-EG-Tud-29a-140-148a重组质粒。
发明的有益效果
有益效果
[0020] 本发明设计的拮抗人 miR-29a、 miR-140和 miR- 148a的 TuD RNA序列带有茎环结 构, 不容易降解, 双链的 Tud RNA相对目前常用的单链的 miRNA sponge, 其结 合效率更高, 并且同吋针对三个靶点, 能较好地实现三个 miRNA的干扰, 提高 m iRNA功能研究的效率。
对附图的简要说明
附图说明
[0021] 图 1为 CS-RfA-EG慢病毒载体的结构示意图; 图 2为一实施例中 HepG2细胞与转 染 CS-RfA-EG-Tud-29a-140-148a慢病毒的HepG2细胞的miRNA表达水平情况, 其 中, a. miR-29a的表达情况, b. miR-140的表达情况, c. miR-148a的表达情况。 。 实施该发明的最佳实施例
本发明的最佳实施方式
[0022] 下面结合实施例及附图对本发明作进一步详细的描述, 但本发明的实施方式不 限于此。
[0023] 实施例一
[0024] (1) 设计拮抗人 miRNA-29a、 miR-140和 miR-148a表达的 Tud RNA的 DNA序列 , 如 SEQ ID NO l所示; 为了将其克隆至 pENTR/U6载体上, 合成以下 DNA序列
ATCCTAGCGCCACCTTTTT -3'
GATGTTGATGATCCTAGCGCC -3';
[0027] (2) 将 DNA序列 FP和 RP按等摩尔量进行混合, 于 95°C处理 5 min, 然后按 0.1
°C/s的速度降温至室温, 2倍冰冻的无水乙醇 (加入 0.1倍 pH 5.6的 3 mol/L NaAc) 沉淀, 得到双链 DNA片段;
[0028] (3) 将 pENTR/U6载体 (购自 Thermo
Fisher公司) 与步骤 (2) 得到的双链 DNA片段进行连接, 得到重组载体 pENTR/
U6-Tud-29a-140-148a。 连接反应体系如下:
[0029] 双链 DNA片段 100 ng
[0030] pENTR/U6载体 20 ng
[0031] T4 DNA连接酶 (购自 NEB公司) Ιμΐ
[0032] Τ4 DNA连接酶 Buffer 2 μL
[0033] ddH20补至 20μ1;
[0034] 16°C连接 5 h, 接着取 5μ1连接产物转化感受态大肠杆菌 Stbl3 (购自全式金公 司) , 培养于含 5(Vg/ml的 Kanamycin的 LB固体培养基。 生长出来的克隆即为阳 性克隆, 挑取阳性克隆培养于依据分子克隆配方配制的含 5(Vg/ml的 Kanamycin 的 LB液体培养基中, 进行测序, 确定得到含有拮抗人 miR-29a、 miR-140和 miR-1 48a的 TuD RNA的重组载体 pENTR/U6-Tud-29a-140-148a。
[0035] (4) 通过 Gateway技术将位于重组载体 pENTR/U6-Tud-29a-140-148a上的双链 DNA片段转移至慢病毒载体 CS-RfA-EG上, CS-RfA-EG-Tud-29a-140-148a重组 质粒, 具体操作过程如下:
[0036] pENTR/U6-Tud-29a- 140- 148a 100 ng
[0037] CS-RfA-EG载体 150ng
[0038] LR clonase II enzyme mix (购自 Invitrogen公司 ) Ιμΐ
[0039] TE共计 9μ1
[0040] 25°C下反应 6小吋, 力 Β ΐμΐ蛋白酶 K, 37°C反应 10分钟以清除多余的 LR
clonase II enzyme。 接着取 Ιμΐ感受态大肠杆菌 Stbl3 (购自全式金公司) , 于 30°C 在含有 10(Vg/ml Ampicillin的 LB固体培养基中培养 22〜24小吋, 生长出来的克隆 即为阳性克隆。 挑取阳性克隆, 培养于含有 10(Vg/ml Ampicillin的 LB液体培养 基中, 30°C下培养 20小吋, 纯化质粒, 并送测序。 测序结果正确即为获得了正确 的重组质粒, 将此重组质粒定义为: CS-RfA-EG-Tud-29a- 140- 148a, 即拮抗人 mi RNA-29a、 miR-140和 miR- 148a表达的 Tud RNA慢病毒质粒。 用无内毒素质粒提 取盒 (购自天根生化) 提取该重组质粒。
[0041] (5) 慢病毒的包装
[0042] 用 Lipofectamine 2000将
CS-RfA-EG-Tud-29a-140-148a、 pCMV- VSV-G-RSV-Rev以及 pCAG-HIVgp质粒 按照 5:2:2的比例导入到人胚肾 293T细胞中; 收集细胞培养的上清液, 0.45 μηι滤 头过滤后即得到含有 CS-RfA-EG-Tud-29a-140-148a质粒的病毒。
[0043] (6) 病毒转染 HepG2细胞
[0044] 用含有 CS-RfA-EG-Tud-29a-140-148a质粒的病毒感染 HepG2细胞。 感染步骤如 下: 将 5万个 HepG2细胞与 10万 TU病毒液混悬于 DMEM培养基中, 按 ΙΟΟμΙ混合 液 /孔的用量配制, 每 ΙΟΟμΙ混合液还包含 10%FBS和 8 g/ml的凝聚胺, 混匀后放 于 96孔板中, 37°C下反应 24 h, 将培养液换成新鲜的培养液 (DMEM+10%FBS ) , 继续培养 24 h, 传代培养。
[0045] (7) 定量 PCR检测 miRNA的表达水平变化
[0046] 以正常 HepG2细胞未对照, 分别用 miRcute
miRNA提取分离试剂盒提取正常 HepG2细胞和转染 CS-RfA-EG-Tud-29a- 140- 148a 慢病毒的 HepG2细胞的 miRNA, 逆转录和加尾后, 得到相应的 cDNA。 取 2种细 胞的 cDNA各 2 μί为模板, 荧光定量 PCR检测 miR-29a、 miR-140和 miR-148a表达 水平的变化, 实验重复 3次, 每孔设置 3个平行样,以 snord 44作为内参。 结果如 图 3所示, 可以看到与 TuD-29a-140-148a细胞的 miR-29a的表达水平比 HepG2细胞 低 50<¾, miR-140的表达水平比 HepG2细胞低 43%, miR- 148a的表达水平比 HepG 2细胞低 62%。 差异有统计学意义 (p<0.01) , 说明 TuD-29a-140-148a细胞株构建 成功。
工业实用性
[0047] 本发明设计的拮抗人 miR-29a、 miR- 140和 miR- 148a的 TuD RNA序列带有茎环结 构, 不容易降解, 双链的 Tud RNA相对目前常用的单链的 miRNA sponge, 其结 合效率更高, 并且同吋针对三个靶点, 能较好地实现三个 miRNA的干扰, 提高 m iRNA功能研究的效率。
Claims
[权利要求 1] 一种拮抗人 miRNA-29a、 miR-140和 miR-148a表达的 Tud RNA, 其特 征在于: 编码所述 Tud RNA的 DNA序列如 SEQ ID NO 1所示。
[权利要求 2] 权利要求 1所述拮抗人 miRNA-29a、 miR-140和 miR- 148a表达的 TudRN
A的应用, 其特征在于: 所述 Tud
RNA应用于抑制人源 miRNA-29a、 miR-140和 miR-148a的表达。
[权利要求 3] 根据权利要求 2所述的应用, 其特征在于: 先将所述 Tud RNA构建于 慢病毒载体上, 再将由所述 Tud RNA和慢病毒载体组成的重组质粒应 用于抑制 miRNA-29a、 miR- 140和 miR- 148a表达。
[权利要求 4] 根据权利要求 3所述的应用, 其特征在于: 所述的慢病毒载体为 CS-Rf
A-EG慢病毒载体。
[权利要求 5] 根据权利要求 4所述的应用, 其特征在于: 将所述的 shRNA构建于 CS-
RfA-EG慢病毒载体上, 包括以下步骤:
(1) 设计含有拮抗人 miRNA-29a、 miR- 140和 miR- 148a的 Tud
RNA的 DNA序歹 ij, 如 SEQ ID NO 1所示; 为了将其克隆至 pENTR/U6 载体上, 合成以下 DNA序列:
FP: 5,-CACC
RP: 5'-AAAA
C -3' ;
(2) 将 DNA序列 FP和 RP按等摩尔量进行混合, 于 95°C处理 5 min, 然后按 O.rC/s的速度降温至室温, 沉淀, 得到双链 DNA片段;
(3) 将 pENTR/U6载体与步骤 (2) 得到的双链 DNA片段进行连接, 得到重组载体 pENTR/U6-Tud-29a-140-148a;
(4) 通过 Gateway技术将位于重组载体 pENTR/ U6-Tud-29a- 140- 148a 上的双链 DNA片段转移至慢病毒载体 CS-Rf A-EG上, 得到 CS-Rf A-EG -Tud-29a-140-148a重组质粒。
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