Cotton Plants Transformed with the Activated Chimeric Cry1Ac and API-B Genes

A chimeric gene, Bt29K, composed of coding sequences of activated Cry1Ac insecticidal protein and an endoplasm reticulum-retarding signal peptide, was synthesized. A plant expression vector containing two expression cassettes for the Bt29K and API-B genes was constructed. These two insect-resistant genes were transferred into two cotton ( Gossypium hirsutum L.) varieties ( or lines) via Agrobacterium-mediated transformation and nine homozygous transgenic cotton lines showing a mortality of 90.0% - 99.7% to cotton ballworm (Heliothis armigera) larvae and good agronomic traits were selected through six generations. Molecular biology analysis revealed that one or two copies of the insecticidal protein genes were integrated into the transgenic cotton genome and activated Cry1Ac and API-B protein expression was at a level of 0.17% and 0.09% of the total soluble protein in the transgenic cotton leaves, respectively. Comparison of the insect-resistance of the homozygous lines expressing the activated chimeric Cry1Ac and API-B with that expressing Cry1Ac only revealed that the insect-resistance of the former is apparently higher than the latter. These results also indicate that the strategy to construct a plant expression vector expressing two different insect-resistant genes reported here is reasonable.

Obtaining High Pest_resistant Transgenic Upland Cotton Cultivars Carrying cry1Ac3 Gene Driven by Chimeric OM Promoter

Hypocotyl segments from aseptic seedlings of two important cultivars of upland cotton ( Gossypium hirsutum L.) in Northwest China, 'Xinluzao_1', 'Jinmian_7', 'Jinmian_12' and 'Jihe_321' were transformed respectively by two efficient plant expression plasmids pBinMoBc and pBinoBc via Agrobacterium tumefaciens . In pBinMoBc, cry 1Ac3 gene, which encodes the Bt toxin, is under the control of chimeric OM promoter. In pBinoBc, it is under control of CaMV 35S promoter. After co_cultivation with Agrobacterium tumefimpfaciens LBA4404 (containing pBinMoBc or pBinoBc), kanamycin_resistant selection, somatic embryos were induced and regenerated plants were obtained. Then the regenerated plantlets were grafted to untransformed stocks in greenhouse to produce descendants. The integration of cry 1Ac3 gene and its expression in T 2 generation of transgenic cotton plants were confirmed by Southern hybridization and Western blotting. The analyses of insect bioassay indicated that the transgenic plants of both constructions have significant resistance to the larvae of cotton bollworm ( Heliothis armigera ) and that cry 1Ac3 gene driven by chimeric OM promoter could endue T 2 generation cotton with high pest_resistant ability, implicating that it has a profound application in genetic engineering to breed new pest_resistant cotton varieties.

The cotton mitochondrial chimeric gene orf610a causes male sterility by disturbing the dynamic balance of ATP synthesis and ROS burst

Plant cytoplasmic male sterility(CMS)is maternally inherited and often manifested as aborted pollen development,but the molecular basis of abortion remains to be identified.To facilitate an investigation of CMS in cotton,the complete sequence of cotton mitochondrial(mt)genome for CMS-D2 line ZBA was determined.The mt genome was assembled as a single circular molecule with 634,036 bp in length.A total of 194 ORFs,36 protein-coding genes,six r RNAs,and 24 t RNAs were identified.Several chimeric genes encoding hypothetical proteins with transmembrane domains were identified.Among them,a previously unknown chimeric gene,orf610a,which is composed of atp1 and a 485-bp downstream sequence of unknown nature,was identified.RT-PCR and q RT-PCR validation indicated that orf610a was expressed specifically in a sterile line.Ectopic expression of orf610a in yeast resulted in excessive accumulation of reactive oxygen species and reduction in ATP content,in addition to inhibition of cellular growth.Transgenic A.thaliana overexpressing orf610a fused with a mitochondrial targeting peptide displayed partial male sterility.Interaction between ORF610a and the nuclear-encoded protein RD22 indicated an association between ORF610a and pollen abortion.Positive feedback during transcriptional regulation between nuclear regulatory factors and the mt CMS gene may account for the male sterility of ZBA.

Progress in Chimeric Vector and Chimeric Gene Based Cardiovascular Gene Therapy

Gene therapy for cardiovascular diseases has developed from preliminary animal experiments to clinical trials. However, vectors and target genes used currently in gene therapy are mainly focused on viral, nonviral vector and single target gene or monogene. Each vector system has a series of advantages and limitations. Chimeric vectors which combine the advantages of viral and nonviral vector, chimeric target genes which combine two or more target genes and novel gene delivery modes are being developed. In this article, we summarized the progress in chimeric vectors and chimeric genes based cardiovascular gene therapy, which including proliferative or occlusive vascular diseases such as atheroslerosis and restenosis, hypertonic vascular disease such as hypertension and cardiac diseases such as myocardium ischemia, dilated cardiomyopathy and heart failure, even heart transplantation. The development of chimeric vector, chimeric gene and their cardiovascular gene therapy is promising.

The human application of gene therapy to re-program T-cell specificity using chimeric antigen receptors

The adoptive transfer of T cells is a promising approach to treat cancers. Primary human T cells can be modified using viral and non-viral vectors to promote the specific targeting of cancer cells via the introduction of exogenous T-cell receptors(TCRs) or chimeric antigen receptors(CARs). This gene transfer displays the potential to increase the specificity and potency of the anticancer response while decreasing the systemic adverse effects that arise from conventional treatments that target both cancerous and healthy cells. This review highlights the generation of clinical-grade T cells expressing CARs for immunotherapy, the use of these cells to target B-cell malignancies and, particularly, the first clinical trials deploying the Sleeping Beauty gene transfer system, which engineers T cells to target CD19+ leukemia and non-Hodgkin's lymphoma.

In vivo anti-tumor activity of murine hematopoietic stem cells expressing a p185HER2-specific chimeric T-cell receptor gene

We have confirmed efficient anti-tumor activities of the peripheral lymphocytes transduced with a p185HEH2-specific chimeric T-cell receptor gene both in murine and in human in our previous studies. To further test the feasibility of chimeric T-cell receptor in a bone marrow transplantation model, we first, made two routine tumor cell lines： MT901 and MCA-205, to express human p185HER2 by retroviral gene transduction. Murine bone marrow cells were retrovirally transduced to express the chimeric T-cell receptor and gene-modified bone marrow cells were transplanted into lethally irradiated mouse. Six months post transplantation, p185HER2-positive tumor ceils： MT-901/HER2 or MCA-205/ HER2 was subcutaneously or intravenously injected to make mouse models simulating primary breast cancer or pulmonary metastasis. The in vivo anti-tumor effects were monitored by the size of the subcutaneous tumor or counting the tumor nodules in the lungs after India ink staining. The size of the subcutaneous tumor was significantly inhibited and the number of pulmonary nodules were significantly decreased in mouse recipients transplanted with chimeric T-cell receptor modified bone marrow cells compared with the control group. Our results suggest the efficient in vivo anti-tumor activities of chimeric T-cell receptor gene modified bone marrow cells.

Cloning of 3H11 mAb variable region gene and expression of 3H11 human-mouse chimeric light chain

IM To clone mouse antihuman gastric cancer mAb(3H11) variable genes and to construct 3H11 humanmouse chimeric antibody.METHODS The entire VH and VL genes of antigastric cancer mAb 3H11 were cloned by RTPCR method from 3H11 hybridoma cells, using 5′ primers for leader sequences. The 3H11 VL gene was then inserted into humanmouse chimeric light chain expression vector and transfected into murine Sp2/0 myeloma cells.RESULTS DNA sequence analysis indicated that the cloned genes included the whole leader sequences and the mature Ig variable region encoding sequences. After gene transfection, transient expression of chimeric light chain protein was detected.CONCLUSION DNA sequences and transient expression indicated that the cloned gene was functional. This work laid basis for constructing 3H11 humanmouse chimeric antibody in the future..

Tumor Antigen Specific Activation of Primary Human T-Cells Expressing a Virally Encoded Chimeric T-Cell Receptor Specific for p185HER2

We have developed and tested chimeric T-cell receptors (TCR) specific for p185HER2. In these experiments, retroviral vectors expressing the N29γ or N29ζ receptors were constructed in pRET6. Amphotropic viral producer cells were established in the GALV-based PG13 packaging cell line. Ficoll purified human peripheral blood lymphocytes (PBL) were virally transduced using an optimized protocol incorporating activation with immobilized anti-CD3/anti-CD28 monoclonal anti- bodies, followed by viral infection in the presence of fibronectin fragment CH296. Transduced cells were co-cultured with human tumor cell lines that overexpress (SK-OV-3) or underexpress (MCF7) p185HER2 to assay for antigen specific im- mune responses. Both CM+ and CD8+ T-cells transduced with the N29γ or N29ζ chTCR demonstrated HER2-specific anti- gen responses, as determined by release of Th1 like cytokines, and cellular cytotoxicity assays. Our results support the fea- sibility of adoptive immunotherapy with genetically modified T-cells expressing a chTCR specific for p185HER2.

Molecular and cellular changes in the post-traumatic spinal cord remodeling after autoinfusion of a genetically-enriched leucoconcentrate in a mini-pig model

Post-traumatic spinal cord remodeling includes both degenerating and regenerating processes,which affect the potency of the functional recovery after spinal cord injury(SCI).Gene therapy for spinal cord injury is proposed as a promising therapeutic strategy to induce positive changes in remodeling of the affected neural tissue.In our previous studies for delivering the therapeutic genes at the site of spinal cord injury,we developed a new approach using an autologous leucoconcentrate transduced ex vivo with chimeric adenoviruses(Ad5/35)carrying recombinant cDNA.In the present study,the efficacy of the intravenous infusion of an autologous genetically-enriched leucoconcentrate simultaneously producing recombinant vascular endothelial growth factor(VEGF),glial cell line-derived neurotrophic factor(GDNF),and neural cell adhesion molecule(NCAM)was evaluated with regard to the molecular and cellular changes in remodeling of the spinal cord tissue at the site of damage in a model of mini-pigs with moderate spinal cord injury.Experimental animals were randomly divided into two groups of 4 pigs each:the therapeutic(infused with the leucoconcentrate simultaneously transduced with a combination of the three chimeric adenoviral vectors Ad5/35‐VEGF165,Ad5/35‐GDNF,and Ad5/35‐NCAM1)and control groups(infused with intact leucoconcentrate).The morphometric and immunofluorescence analysis of the spinal cord regeneration in the rostral and caudal segments according to the epicenter of the injury in the treated animals compared to the control mini-pigs showed:(1)higher sparing of the grey matter and increased survivability of the spinal cord cells(lower number of Caspase-3-positive cells and decreased expression of Hsp27);(2)recovery of synaptophysin expression;(3)prevention of astrogliosis(lower area of glial fibrillary acidic protein-positive astrocytes and ionized calcium binding adaptor molecule 1-positive microglial cells);(4)higher growth rates of regeneratingβIII-tubulin-positive axons accompanied by a higher number of oligodendrocyte transcription factor 2-positive oligodendroglial cells in the lateral corticospinal tract region.These results revealed the efficacy of intravenous infusion of the autologous genetically-enriched leucoconcentrate producing recombinant VEGF,GDNF,and NCAM in the acute phase of spinal cord injury on the positive changes in the post-traumatic remodeling nervous tissue at the site of direct injury.Our data provide a solid platform for a new ex vivo gene therapy for spinal cord injury and will facilitate further translation of regenerative therapies in clinical neurology.

Research Progress of Chimeric RNA and Health

With the development of deep sequencing and bioinformatics technology, a large number of products produced by abnormal RNA splicing, such as chimeric RNA and chimeric/fusion proteins, have been discovered. Natural chimeric/fusion genes are new genes formed by natural fusion of two or more independent genes. Chimeric RNAs can be transcribed by natural chimeric genes, and can also be formed by cis-splicing or trans-splicing of two or more precursor mRNAs. Unlike fusion genes, the production of chimeric RNAs does not involve changes in the DNA level of chromosomes. At first, chimeric RNAs were found as tumor markers. With the deepening of research, researchers also found a large number of chimeric RNAs in normal tissues. From the perspective of biological function, chimeric RNAs can play a biological role in regulating the expression of corresponding maternal genes, translating into chimeric proteins, and forming long non-coding RNAs. The objective of the present study focused on the frontiers of chimeric RNA and reviewed its role in health and tumor study to reveal research progress of chimeric RNA and health and provide a new sight of relative disease treatment. The main conclusion of this review is that chimeric RNA may serve as a biomarker for specific tumor diagnose and treatment while its role in normal physiology needs to be revealed.

Effects of chimeric intron on the epithelial-mesenchymal transformation of non-small cell lung cancer PC-9

Objective:To investigate the effects of Intron on the EMT capability of non-small cell lung cancer cell line PC-9.Methods:Firstly,using the psiCHECK-2 plasmid as a basic framework to construct the recombinant plasmid of psiCHECK-2-Intron dual-luciferase reporter gene;secondly,the psiCHECK-2-Intron and psiCHECK-2 were transfected into PC-9 cells respectively.The migration and invasion abilities of PC-9 cells were analyzed by Matrigel assay.The expression changes of EMT related hallmarks,including N-cadherin,β-catenin and snail,were detected by qRT-PCR and Western Blotting.Results:Compared with the control group,the migration and invasion abilities of PC-9 cells in Intron group significantly decreased(p<0.001).The expression of N-cadherin,β-catenin and snail also down-regulated(p<0.001).Conclusion:The introns could inhibit the EMT of PC-9 cells.

IL-21和CCL19修饰可提高NKP30 CAR-T细胞对肺癌的杀伤效率并促进其肿瘤浸润

目的探讨细胞因子IL-21和趋化因子CCL19修饰的NKP30 CAR-T细胞是否增强对肺癌的杀伤和浸润作用。方法在NKP30 CAR基础上融合基因IL-21和CCL19构建IL-21-CCL19 NKP30 CAR;CAR-T细胞的培养使用CD3CD28单抗及细胞因子IL-2刺激;流式细胞术检测免疫细胞表型;迁移实验检测IL-21对免疫细胞的迁移作用;乳酸脱氢酶(LDH)及成球实验检测CAR-T细胞的杀伤及浸润能力;酶联免疫斑点技术(ELISPOT)检测IFN-γ的分泌数量;ELISA检测IL-21及CCL19的分泌情况;体内实验中,将肿瘤细胞显微注射到斑马鱼卵黄囊,构建斑马鱼移植瘤模型,24 h后将免疫细胞注射至同样部位,体式荧光显微镜拍摄荧光。结果NKP30配体(B7H6)在正常组织及血液细胞不表达,在肺癌细胞上高表达(90%以上)。IL-21-CCL19 NKP30 CAR-T细胞与NKP30 CAR-T细胞和常规T细胞相比,具有更强的增殖能力、迁移能力及中心记忆T细胞的形成(P<0.001),免疫抑制分子CTLA4与PD1显著降低(P<0.005),对肺癌细胞具有更强的杀伤能力(P<0.001),伴随IFN-γ数量明显增加(P<0.001)。IL-21-CCL19 CAR-T细胞杀伤肺癌细胞中产生大量细胞因子IL‑21(3152.33±526.74 pg/mL)和趋化因子CCL19(1853±211.95 pg/mL)。体内实验中,CAR-T细胞和普通T细胞比较,具有较强的杀伤能力和增殖能力,但2种CAR-T细胞无明显差异(P>0.05)。结论IL-21-CCL19 NKP30 CAR-T细胞更容易浸润到肿瘤内部,有效杀伤肿瘤细胞,同时产生更多的记忆T细胞。

IL-7的诱导表达增强靶向GPC3 CAR-T细胞的增殖及体外抗肿瘤活性

目的:探讨IL-7的诱导表达对靶向磷脂酰肌醇蛋白聚糖3(GPC3)嵌合抗原受体基因修饰T淋巴细胞(CAR-T细胞)的增殖和体外抗肿瘤活性的影响。方法:通过无缝克隆将GPC3 CAR序列片段插入GV400载体的Bam HⅠ/Eco RⅠ位置,构建第二代CAR慢病毒载体GPC3-BBZ及GPC3-BBZ-NFAT-IL-7,以293T细胞包装相应的慢病毒载体后,感染人T细胞制备CAR-T细胞。实验分为未转导T细胞(NT)组、GPC3-BBZ CAR-T细胞组、GPC3-BBZ-NFAT-IL-7 CAR-T细胞组。采用流式细胞术检测各组CAR-T细胞中CAR的表达水平,qPCR法检测经GPC3蛋白激活的CAR-T细胞中IL-7 m RNA的表达水平,细胞计数法检测CAR-T细胞在GPC3抗原刺激下的增殖能力,ELISA检测CAR-T细胞在受到肿瘤细胞刺激后IL-7、IFN-γ和TNF-α的分泌水平。应用实时细胞分析(RTCA)技术检测CAR-T细胞对人肝癌Huh-7细胞的杀伤作用。结果:成功构建慢病毒载体GPC3-BBZ和GPC3-BBZ-NFAT-IL-7,制备出靶向GPC3的CAR-T细胞。经GPC3抗原激活后,GPC3-BBZ-NFAT-IL-7 CAR-T细胞可有效表达IL-7 mRNA(P<0.01),其表现出更强的增殖能力(P<0.05)。与GPC3-BBZ CAR-T细胞相比,GPC3-BBZ-NFAT-IL-7 CAR-T细胞与GPC3阳性靶细胞Huh-7细胞共培养后,分泌更高水平的IL-7、IFN-γ和TNF-α(P<0.01或P<0.001)。RTCA结果显示,GPC3-BBZ-NFAT-IL-7 CAR-T细胞对GPC3阳性Huh-7细胞的杀伤活性显著高于GPC3-BBZ CAR-T细胞(P<0.05)。结论:成功制备可诱导表达IL-7的靶向GPC3的CAR-T细胞,IL-7的诱导表达增强靶向GPC3 CAR-T细胞的免疫活性,在体外展现出较强的肿瘤细胞杀伤能力。

基于颗粒酶B启动子的磁共振报告基因成像监测CAR-T细胞激活状态

目的利用颗粒酶B(granzyme B,GB)启动子控制铁蛋白(ferritin heavy chain,FTH1)报告基因表达,探讨通过磁共振成像(magnetic resonance imaging,MRI)监测嵌合抗原受体T细胞(chimeric antigen receptor T cells,CAR-T细胞)激活状态的可行性。方法通过Ficoll密度梯度离心法以及流式分选得到细胞毒性T淋巴细胞(cytotoxic T lymphocytes,CTLs)。将GB启动子和FTH1基因连接,连同二唾液酸神经节苷脂(disialoganglioside 2,GD2)嵌合抗原受体(chimeric antigen receptor,CAR)以慢病毒为载体转入CTLs,构建GD2-CAR-T/pGB-FTH1细胞,以GD2-CAR-T/pCMV-FTH1、GD2-CAR-T和T细胞为对照。CytoTox96@非放射性细胞毒性检测各组细胞与人神经母细胞瘤细胞(SK-N-SH)共培养后的杀伤效果,ELISA检测共孵育因子以及GB分泌量,Western blot、普鲁士蓝染色、细胞MRI检测共培养后FTH1基因的表达。结果成功获得CTLs并构建GD2-CAR-T/pGB-FTH1、GD2-CAR-T/pCMV-FTH1、GD2-CAR-T细胞,3组细胞对肿瘤细胞杀伤效果、共孵育因子以及GB分泌量均显著高于T细胞组,GB表达水平在与SK-N-SH细胞共培养后1 d最高,3 d和7 d依次降低。GD2-CAR-T/pGB-FTH1组FTH1相对表达量以及铁含量变化趋势与GB表达一致,MRI信号呈逐渐升高趋势。GD2-CAR-T/pCMV-FTH1组FTH1相对表达量、铁含量及MRI信号在各时间点均无显著差异。GD2-CAR-T和T细胞组无明显FTH1表达及聚铁效应。结论基于GB启动子的MRI报告基因成像可实时反映CAR-T细胞的GB表达水平和肿瘤杀伤作用,为CAR-T治疗提供了一种监测细胞激活状态的可视化手段。

PNP-TK融合自杀基因系统对肝癌细胞杀伤作用的实验研究

目的分析PNP-TK融合自杀基因系统对HepG2肝癌细胞的杀伤作用及其对肝癌细胞的杀伤机制。方法利用重组PCR定点诱变法制备PNP-TK融合基因,将其插入真核表达载体pcDNA3.0中,构建融合基因表达载体pcDNA3.0/PNP-TK,经酶切、PCR及测序鉴定重组体,G418筛选获得稳定转染了pcDNA3.0/PNP-TK的抗性细胞克隆。RT-PCR和Western Blotting检测PNP-TK基因在HepG2细胞中的表达。台盼兰排斥法测定细胞生长曲线,MTT法检测细胞对相应前药的敏感性及分别在一种和两种前药作用下所导致的旁观者效应。结果融合基因片段PNP-TK正确插入了pcDNA3.0载体中,pcDNA3.0/PNP-TK在肝癌细胞株HepG2中实现了表达。细胞抗性克隆对相应的前药十分敏感。在两种前药的联合作用下,pcDNA3.0/PNP-TK对肝癌细胞产生了良好的旁观者效应。结论具有双自杀基因功能的表达载体pcDNA3.0/PNP-TK对肝癌细胞HepG2有着良好的杀伤作用,有望将其应用于肝癌体内治疗。

CAR-T细胞体内外扩增方法的优化策略

嵌合抗原受体基因修饰T(CAR-T)细胞免疫治疗被认为是最有前景的肿瘤治疗方法之一,效应CAR-T细胞的数量是决定CAR-T细胞疗法治疗效果的关键因素。CAR-T细胞的体外扩增耗时耗力,回输体内后,CAR-T细胞大量耗竭且难以浸润实体瘤,导致能有效抑制实体瘤的CAR-T细胞数量大幅下降。目前,CAR-T细胞的扩增方法在提高扩增特异性和治疗安全性等方面均存在问题,为CAR-T细胞疗法的临床转化造成困难。近年来,新型免疫激动剂及其下游信号的发现为CAR-T细胞扩增方案提供了更多选择,免疫激动剂给药方式的更新迭代进一步提高了其在体内扩增CAR-T细胞的安全性。本文分析了目前扩增CAR-T细胞面临的挑战,系统阐述了近年来在体内外扩增CAR-T细胞的新策略,为CAR-T细胞疗法的疗效和产能优化提供了新思路。

基因介导的精准免疫疗法在急性髓系白血病治疗中的进展

急性髓系白血病(acute myeloid leukemia,AML)是一种骨髓内造血干细胞的克隆异常,进而导致大量异常分化的髓系细胞在骨髓内聚集而产生的疾病。传统的治疗手段难以治愈AML,嵌合抗原受体T细胞(chimeric antigen receptor Tcell,CAR-T)免疫疗法的成功应用预示着血液肿瘤的治疗进入精准免疫疗法新阶段。然而CAR-T免疫疗法在临床应用中存在诸多问题,例如治疗周期长、价格高昂、产生脱靶效应、发生细胞因子释放综合征等,因此,需要扩展嵌合抗原受体的应用或提出改进措施来提升治疗效果。本文综述了CAR免疫细胞基因工程化改造新策略、原位编辑产生CAR-T的研究进展与应用,同时对体内递送基因药物的新方法进行了简要介绍,旨在为扩展和改进精准免疫疗法在AML中的应用提供新思路和理论依据。

基于BCMA突变体构建BCMA CAR-T细胞体外杀伤功能评价模型

目的:为解决野生型B细胞成熟抗原(BCMA)被γ分泌酶切割导致表达不稳定的问题,构建抵抗γ分泌酶切割的BCMA突变体并构建靶细胞,用于评价BCMA CAR-T细胞的杀伤功能。方法:将野生型BCMA的穿膜域替换为人CD8α穿膜域,构建抵抗γ分泌酶切割的BCMA突变体(BCMA-CD8αTM),构建过表达该突变体的U266(U266^(BCMA Mut))、K562(K562^(BCMA Mut))、SKOV3(SKOV3^(BCMA Mut))和CHO(CHO^(BCMA Mut))细胞;构建装载NFAT-EGFP报告基因的BCMA CAR Jurkat细胞(BCMA-CAR-Jurkat-Reporter)与U266^(BCMA Mut)细胞共培养,采用FCM检测该细胞中EGFP表达水平以指示NFAT激活水平,荧光素酶法检测BCMA CAR-T细胞对Luciferase标记的K562^(BCMA Mut)细胞的杀伤作用,实时无标记动态细胞分析技术(RTCA)检测BCMA CAR-T细胞对SKOV3^(BCMA Mut)和CHO^(BCMA Mut)细胞的杀伤作用。结果:应用γ分泌酶抑制剂LY411575抑制γ分泌酶活性,显著增强野生型U266细胞表面BCMA表达水平,平均荧光强度上调10倍以上;但撤除抑制剂后BCMA表达水平逐渐降低(P<0.01);BCMA-CD8αTM突变体可抵抗γ分泌酶的切割作用,在U266细胞表面稳定表达(P>0.05);U266细胞及过表达BCMA-CD8αTM的U266细胞与BCMA-CAR-Jurkat-Reporter细胞共培养后都可激活Reporter系统、增强EGFP表达,但该效应在BCMA-CD8αTM过表达的U266细胞中更显著(P<0.01);BCMA-CD8αTM在BCMA表达阴性的K562、SKOV3和CHO 3种靶细胞中成功过表达,且在LY411575处理下该突变体的表达水平仅有小幅度升高;荧光素酶法检测结果显示,不同效靶比下,BCMA CAR-T细胞均可特异、高效杀伤过表达BCMA-CD8αTM的K562细胞;RTCA结果显示,不同效靶比下,BCMA CAR-T细胞均可有效识别、杀伤过表达BCMACD8αTM的SKOV3和CHO细胞,但同等效靶比下的Mock-T细胞无此效应。结论:本实验构建的BCMA-CD8αTM突变体能够抵抗γ分泌酶的切割,在多种靶细胞表面稳定表达,为评价BCMA CAR-T细胞体外杀伤的有效性和特异性提供多种检测手段。

On the origin and evolution of new genes——a genomic and experimental perspective

The inherent interest on the origin of genetic novelties can be traced back to Darwin. But it was not until recently that we were allowed to investigate the fundamental process of origin of new genes by the studies on newly evolved young genes. Two indispensible steps are involved in this process： origin of new gene copies through various mutational mechanisms and evolution of novel functions, which fur- ther more leads to fixation of the new copies within populations. The theoretical framework for the former step formed in 1970s. Ohno proposed gene duplication as the most important mechanism producing new gene copies. He also believed that the most common fate for new gene copies is to become pseudogenes. This classical view was validated and was also challenged by the characterization of the first functional young gene jingwei in Drosophila. Recent genome-wide comparison on young genes of Drosophila has elucidated a compre- hensive picture addressing remarkable roles of various mechanisms besides gene duplication during origin of new genes. Case surveys revealed it is not rare that new genes would evolve novel structures and functions to contribute to the adaptive evolution of organisms. Here, we review recent advances in understanding how new genes originated and evolved on the basis of genome-wide results and ex- perimental efforts on cases. We would finally discuss the future directions of this fast-growing research field in the context of functional genomics era.

Chimeraplasty基因修复技术及其应用

基因治疗是目前生物学和医学领域里的一个研究热点 ,传统的基因替代方法有许多很难克服的缺点 ,与之相比 ,基因修复策略有着明显的优点 .在此 ,文章介绍了近年来发展起来的具有较好应用价值和医学前景的一种基因修复新技术——