Lipocalin-2基因表达产物对人胚肾细胞增殖的影响

目的构建Lipocalin-2(Lcn-2)基因真核表达质粒PL-2,并检测其及前期原核表达的重组Lcn-2蛋白对人胚肾细胞HEK293增殖的影响。方法利用RT-PCR从鼠巨噬细胞RAW264.7中扩增Lcn-2基因,克隆入真核表达质粒pEGFP-C1中,构建重组质粒PL-2。转染HEK293细胞,通过荧光观察和RT-PCR鉴定Lcn-2基因的表达。将重组质粒PL-2和前期原核表达的重组Lcn-2蛋白作用于HEK293细胞,通过MTT法检测细胞增殖情况,Westernblot法检测细胞增殖核抗原(PCNA)的表达。结果重组真核表达质粒PL-2经酶切和测序鉴定,证明构建正确。经荧光观察和RT-PCR鉴定,转染重组质粒PL-2的HEK293细胞中有Lcn-2基因的表达。加入重组Lcn-2蛋白后,HEK293细胞较对照组明显增殖,细胞中PCNA的表达也较对照组明显升高,而重组质粒PL-2对HEK293细胞增殖以及细胞中PCNA的表达均无影响。结论已成功构建了Lcn-2基因真核表达质粒,其对HEK293细胞的增殖无影响,而原核表达的重组Lcn-2蛋白对HEK293细胞的增殖有一定的促进作用,推测Lcn-2基因的表达产物可能通过与细胞膜受体结合促进HEK293细胞的增殖。     

人Makorin环指蛋白1基因沉默对HEK293细胞的影响

目的探讨特异性抑制人Makorin环指蛋白1(MKRN1)基因的表达对HEK293细胞的影响。方法用脂质体将前期筛选出的含最有效干扰序列的人MKRN1基因shRNA真核表达质粒,转染至HEK293细胞中,观察其对人端粒酶逆转录酶(hTERT)基因mRNA转录水平、蛋白表达水平及细胞增殖的影响。结果人MKRN1基因shRNA真核表达质粒转染HEK293细胞后,在mRNA和蛋白水平均能明显上调细胞hTERT基因的表达,且细胞明显增殖。结论抑制HEK293细胞中人MKRN1基因的表达,可导致hTERT基因mRNA转录水平和蛋白表达水平上调,并促进细胞增殖。     

Proteomic Landscape of Adeno-Associated Virus (AAV)-Producing HEK293 Cells

Adeno-associated viral (AAV) vectors are widely used for gene therapy, providing treatment for diseases caused by absent or defective genes. Despite the success of gene therapy, AAV manufacturing is still challenging, with production yields being limited. With increased patient demand, improvements in host cell productivity through various engineering strategies will be necessary. Here, we study the host cell proteome of AAV5-producing HEK293 cells using reversed phase nano-liquid chromatography and tandem mass spectrometry (RPLC-MS/MS). Relative label-free quantitation (LFQ) was performed, allowing a comparison of transfected vs. untransfected cells. Gene ontology enrichment and pathway analysis revealed differential expression of proteins involved in fundamental cellular processes such as metabolism, proliferation, and cell death. Furthermore, changes in expression of proteins involved in endocytosis and lysosomal degradation were observed. Our data provides highly valuable insights into cellular mechanisms involved during recombinant AAV production by HEK293 cells, thus potentially enabling further improvements of gene therapy product manufacturing.     

Activation of the Integrated Stress Response and ER Stress Protect from Fluorizoline-Induced Apoptosis in HEK293T and U2OS Cell Lines

The prohibitin (PHB)-binding compound fluorizoline as well as PHB-downregulation activate the integrated stress response (ISR) in HEK293T and U2OS human cell lines. This activation is denoted by phosphorylation of eIF2α and increases in ATF4, ATF3, and CHOP protein levels. The blockage of the activation of the ISR by overexpression of GRP78, as well as an increase in IRE1 activity, indicate the presence of ER stress after fluorizoline treatment. The inhibition of the ER stress response in HEK293T and U2OS led to increased sensitivity to fluorizoline-induced apoptosis, indicating a pro-survival role of this pathway after fluorizoline treatment in these cell lines. Fluorizoline induced an increase in calcium concentration in the cytosol and the mitochondria. Finally, two different calcium chelators reduced fluorizoline-induced apoptosis in U2OS cells. Thus, we have found that fluorizoline causes increased ER stress and activation of the integrated stress response, which in HEK293T and U2OS cells are protective against fluorizoline-induced apoptosis.     

Salvianolic Acid A,as a Novel ETA Receptor Antagonist,Shows Inhibitory Effects on Tumor in Vitro

Endothelin-1 (ET-1) autocrine and paracrine signaling modulate cell proliferation of tumor cells by activating its receptors, endothelin A receptor (ET_AR) and endothelin B receptor (ET_BR). Dysregulation of ET_AR activation promotes tumor development and progression. The potential of ET_AR antagonists and the dual-ET_AR and ET_BR antagonists as therapeutic approaches are under preclinical and clinical studies. Salvianolic acid A (Sal A) is a hydrophilic polyphenolic derivative isolated from Salvia miltiorrhiza Bunge (Danshen), which has been reported as an anti-cancer and cardio-protective herbal medicine. In this study, we demonstrate that Sal A inhibits ET_AR activation induced by ET-1 in both recombinant and endogenous ET_AR expression cell lines. The IC₅₀ values were determined as 5.7 µM in the HEK293/ET_AR cell line and 3.14 µM in HeLa cells, respectively. Furthermore, our results showed that Sal A suppressed cell proliferation and extended the doubling times of multiple cancer cells, including HeLa, DU145, H1975, and A549 cell lines. In addition, Sal A inhibited proliferation of DU145 cell lines stimulated by exogenous ET-1 treatment. Moreover, the cytotoxicity and cardio-toxicity of Sal A were assessed in human umbilical vein endothelial cells (HUVEC) and Human-induced pluripotent stem cell-derived cardiomyocytes (hiPS-CMs), which proved that Sal A demonstrates no cytotoxicity or cardiotoxicity. Collectively, our findings indicate that Sal A is a novel anti-cancer candidate through targeting ET_AR.     

Clonal selection of high producing,stably transfected HEK293 cell lines utilizing modified,high‐throughput FACS screening

BACKGROUND: Human embryonic kidney‐293 (HEK‐293) cells are commonly used as a transient expression host but their application in stable therapeutic protein production is limited. This is presumably due to the absence of a suitable amplifiable expression system and hence limited protein output compared with other mammalian cells such as Chinese hamster ovary cells. This paper describes a rapid clonal selection method for isolating HEK293 cell lines with high specific productivity, for a non‐amplifiable expression system, to achieve high‐level, scalable expression of recombinant antibodies. RESULTS: Flow cytometry utilizing cold capture of secreted protein on the cell surface was applied to isolate high expressing clones from a stable antibiotic resistant pool. The top three isolated clones showed a five‐ to seven‐fold improvement in volumetric outputs compared with the initial resistant pool (～20 mg L^?1) under batch conditions. In fed‐batch conditions using commercially available hydrolysate supplements, the final titre was further increased to 500–600 mg L^?1 in shaker flasks. One clone was scaled up to 25 L bag production using a similar hydrolysate feeding regime. The antibody titre reached 655 mg L^?1, and 12 g of antibody was recovered after purification, demonstrating scalability of the process. The process of clonal selection through to fed‐batch production of gram quantities was completed within 4 months. CONCLUSION: HEK‐293 cells can be used as a stable host for the production of biopharmaceuticals, producing gram quantities of recombinant proteins for preclinical development. Copyright © 2011 Society of Chemical Industry     

RNA聚合酶Ⅱ转录的ALU序列对HEK293细胞凋亡的影响

目的探讨RNA聚合酶Ⅱ转录的ALU序列对人胚肾293(HEK293)细胞凋亡的影响以及干扰素(IFN)在此机制中的作用。方法取对数生长期的HEK293细胞,分为6组,ALU-293组(瞬时转染重组质粒pcDNA3.1-ALU)、pcDNA3.1-293组[瞬时转染空质粒pcDNA3.1(-),作为阴性对照]、Poly I∶C-293组[瞬时转染dsRNA的多聚肌苷胞苷酸(Poly I∶C),作为阳性对照]、IFNβ-293组(加入1.65×104 U IFNβ,作为阳性对照)、空白对照组(未经处理的HEK293细胞)和HBs-293组(瞬时转染重组质粒pcDNA3.1-HBs),转染后48 h,采用MTT法检测细胞的增殖活性;Cellular DNA Fragmentation ELISA和DNA Ladder法检测细胞的凋亡情况;Real-time PCR检测细胞中IFNβ基因mRNA的水平。结果瞬时转染重组质粒pcDNA3.1-ALU能够抑制HEK293细胞增殖,并促使其凋亡,且细胞中IFNβmRNA的水平显著上调。结论 RNA聚合酶Ⅱ转录的ALU序列能够通过激活干扰素系统来诱导细胞凋亡。     

Glycosylation Modulates Plasma Membrane Trafficking of CD24 in Breast Cancer Cells

In breast cancer, expression of Cluster of Differentiation 24 (CD24), a small GPI-anchored glycoprotein at the cell periphery, is associated with metastasis and immune escape, while its absence is associated with tumor-initiating capacity. Since the mechanism of CD24 sorting is unknown, we investigated the role of glycosylation in the subcellular localization of CD24. Expression and localization of wild type N36- and/or N52-mutated CD24 were analyzed using immunofluorescence in luminal (MCF-7) and basal B (MDA-MB-231 and Hs578T) breast cancer cells lines, as well as HEK293T cells. Endogenous and exogenously expressed wild type and mutated CD24 were found localized at the plasma membrane and the cytoplasm, but not the nucleoplasm. The cell lines showed different kinetics for the sorting of CD24 through the secretory/endocytic pathway. N-glycosylation, especially at N52, and its processing in the Golgi were critical for the sorting and expression of CD24 at the plasma membrane of HEK293T and basal B type cells, but not of MCF-7 cells. In conclusion, our study highlights the contribution of N-glycosylation for the subcellular localization of CD24. Aberrant N-glycosylation at N52 of CD24 could account for the lack of CD24 expression at the cell surface of basal B breast cancer cells.     

The inclusion of fetal bovine serum in gelatin/PCL electrospun scaffolds reduces short‐term osmotic stress in HEK 293 cells caused by scaffold components

Components of gelatin/polycaprolactone (PCL) electrospun scaffolds are released to surrounding media and cause osmotic changes that adversely affect cell viability and proliferation. In this study, the physiological properties of gelatin/PCL scaffolds were investigated by qRT‐PCR and by performing cellular studies on HEK 293 cells. Components released from gelatin/PCL scaffolds were found to induce osmotic stress response in these cells. However, osmotic stress was inhibited by adding fetal bovine serum (FBS) to scaffolds. In addition, focal adhesion related genes were found to be up‐regulated in HEK 293 cells on gelatin/PCL/20% FBS scaffolds, and this induced the down‐regulations of cell‐death related genes. Furthermore, the inclusion of 20% FBS improved the viabilities of HEK 293 cells on gelatin/PCL scaffolds. This study indicates that adding FBS to gelatin/PCL scaffolds improves scaffold bio‐affinity. © 2013 Wiley Periodicals, Inc. J. Appl. Polym. Sci., 2013     

Individual Expression of Hepatitis A Virus 3C Protease Induces Ferroptosis in Human Cells In Vitro

Regulated cell death (RCD) is a fundamental process common to nearly all living beings and essential for the development and tissue homeostasis in animals and humans. A wide range of molecules can induce RCD, including a number of viral proteolytic enzymes. To date, numerous data indicate that picornaviral 3C proteases can induce RCD. In most reported cases, these proteases induce classical caspase-dependent apoptosis. In contrast, the human hepatitis A virus 3C protease (3Cpro) has recently been shown to cause caspase-independent cell death accompanied by previously undescribed features. Here, we expressed 3Cpro in HEK293, HeLa, and A549 human cell lines to characterize 3Cpro-induced cell death morphologically and biochemically using flow cytometry and fluorescence microscopy. We found that dead cells demonstrated necrosis-like morphological changes including permeabilization of the plasma membrane, loss of mitochondrial potential, as well as mitochondria and nuclei swelling. Additionally, we showed that 3Cpro-induced cell death was efficiently blocked by ferroptosis inhibitors and was accompanied by intense lipid peroxidation. Taken together, these results indicate that 3Cpro induces ferroptosis upon its individual expression in human cells. This is the first demonstration that a proteolytic enzyme can induce ferroptosis, the recently discovered and actively studied type of RCD.     

应用AdMax系统构建携带HCV核心基因Core的重组腺病毒载体

目的应用AdMax系统构建携带丙型肝炎病毒(HCV)核心基因Core的重组腺病毒载体,为进一步研究防止HCV感染的基因疫苗和基因治疗奠定基础。方法RT-PCR法从丙型肝炎患者血清中扩增HCVCore基因,连接到腺病毒穿梭质粒的多克隆位点上,构建重组穿梭质粒pDC315-Core,在脂质体介导下与腺病毒辅助大质粒pBHGlox(delta)E1,3Cre共转染HEK293细胞,包装产生复制缺陷型重组腺病毒pAd-Core,经HEK293细胞扩增后,离子交换柱层析法纯化病毒,测定病毒颗粒数及滴度,并计算比活性及单细胞产量。结果重组腺病毒pAd-Core感染的HEK293细胞经PCR检测,可扩增出HCV核心基因Core片段,经测序证明,其插入序列与设计的HCV Core基因序列一致。扩增纯化后,重组腺病毒的比活性达0.034IU/VP,单细胞产量可达2.63×104VP/细胞。结论已成功构建重组腺病毒载体pAd-Core,为Core基因在腺病毒介导下的基因免疫和基因治疗的研究奠定了基础。     

Modulation of Nitrosative Stress via Glutathione-Dependent Formaldehyde Dehydrogenase and S-Nitrosoglutathione Reductase

Glutathione-dependent formaldehyde dehydrogenase (GFD) from Taiwanofungus camphorata plays important roles in formaldehyde detoxification and antioxidation. The enzyme is bifunctional. In addition to the GFD activity, it also functions as an effective S-nitrosoglutathione reductase (GSNOR) against nitrosative stress. We investigated the modulation of HEK (human embryonic kidney) 293T cells under nitrosative stress by transfecting a codon optimized GFD cDNA from Taiwanofungus camphorata (Tc-GFD-O) to these cells. The parental and transfected HEK 293T cells were then subjected to S-nitrosoglutathione treatment to induce nitrosative stress. The results showed that in Tc-GFD-O-transfected 293T cells, the expression and activity of GFD increased. Additionally, these cells under the nitrosative stress induced by S-nitrosoglutathione showed both higher viability and less apoptosis than the parental 293T cells. This finding suggests that the Tc-GFD-O in HEK 293T cells may provide a protective function under nitrosative stress.     

Identification of the Novel Interacting Partners of the Mammalian Target of Rapamycin Complex 1 in Human CCRF-CEM and HEK293 Cells

The present study was undertaken to identify proteins that interact with the mammalian target of rapamycin complex 1 (mTORC1) to enable it to carry out its crucial cell signaling functions. Endogenous and myc-tag mTORC1 was purified, in-gel tryptic digested and then identified by nano-LC ESI Q-TOF MS/MS analysis. A total of nine novel interacting proteins were identified in both endogenous and myc-tag mTORC1 purifications. These new mTORC1 interacting partners include heterogeneous nuclear ribonucleoproteins A2/B1, enhancer of mRNA decapping protein 4, 60S acidic ribosomal protein, P0, nucleolin, dynamin 2, glyceraldehyde 3 phosphate dehydrogenase, 2-oxoglutarate dehydrogenase, glycosyl transferase 25 family member 1 and prohibitin 2. Furthermore hnRNP A2/B1 and dynamin 2 interaction with mTORC1 was confirmed on immunoblotting. The present study has for the first time identified novel interacting partners of mTORC1 in human T lymphoblasts (CCRF-CEM) and human embryonic kidney (HEK293) cells. These new interacting proteins may offer new targets for therapeutic interventions in human diseases caused by perturbed mTORC1 signaling.     

人巨细胞病毒糖蛋白gB基因重组腺病毒载体的构建及包装

目的构建携带有人巨细胞病毒(HCMV)糖蛋白gB基因的重组腺病毒载体,并在HEK293细胞中进行包装。方法将gB基因克隆至穿梭质粒Track-CMV,构建重组质粒Track-CMV/gB,亚克隆至转移载体pAD-Easy-1,构建重组质粒pAD-Easy-1/gB,将该重组骨架质粒转染HEK293细胞,利用HEK293细胞产生重组腺病毒。空斑法及PCR法挑选重组病毒,荧光显微镜观察标志蛋白(绿色荧光蛋白)的表达,利用噬斑法检测病毒滴度。结果重组腺病毒载体经酶切鉴定证明构建正确,转染重组腺病毒载体的HEK293细胞经PCR扩增,可见约700bp的目的基因片段,荧光显微镜观察可见绿色荧光蛋白表达,空斑试验检测病毒滴度为2×106PFU/ml。结论已成功构建了含有gB基因的重组腺病毒载体,为进一步研制重组腺病毒载体HCMV疫苗提供了条件。     

Engineered Sleeping Beauty Transposon as Efficient System to Optimize Chimp Adenoviral Production

Sleeping Beauty (SB) is the first DNA transposon employed for efficient transposition in vertebrate cells, opening new applications for genetic engineering and gene therapies. A transposon-based gene delivery system holds the favourable features of non-viral vectors and an attractive safety profile. Here, we employed SB to engineer HEK293 cells for optimizing the production of a chimpanzee Adenovector (chAd) belonging to the Human Mastadenovirus C species. To date, chAd vectors are employed in several clinical settings for infectious diseases, last but not least COVID-19. A robust, efficient and quick viral vector production could advance the clinical application of chAd vectors. To this aim, we firstly swapped the hAd5 E1 with chAd-C E1 gene by using the CRISPR/Cas9 system. We demonstrated that in the absence of human Ad5 E1, chimp Ad-C E1 gene did not support HEK293 survival. To improve chAd-C vector production, we engineered HEK293 cells to stably express the chAd-C precursor terminal protein (ch.pTP), which plays a crucial role in chimpanzee Adenoviral DNA replication. The results indicate that exogenous ch.pTP expression significantly ameliorate the packaging and amplification of recombinant chAd-C vectors thus, the engineered HEK293ch.pTP cells could represent a superior packaging cell line for the production of these vectors.     

Biocompatibility of hydrophilic silica-coated CdTe quantum dots and magnetic nanoparticles

Fluorescent magnetic nanoparticles exhibit great application prospects in biomedical engineering. Herein, we reported the effects of hydrophilic silica-coated CdTe quantum dots and magnetic nanoparticles (FMNPs) on human embryonic kidney 293 (HEK293) cells and mice with the aim of investigating their biocompatibility. FMNPs with 150 nm in diameter were prepared, and characterized by high-resolution transmission electron microscopy and photoluminescence (PL) spectra and magnetometer. HEK293 cells were cultured with different doses of FMNPs (20, 50, and 100μ g/ml) for 1-4 days. Cell viability and adhesion ability were analyzed by CCK8 method and Western blotting. 30 mice were randomly divided into three groups, and were, respectively, injected via tail vein with 20, 60, and 100 μg FMNPs, and then were, respectively, raised for 1, 7, and 30 days, then their lifespan, important organs, and blood biochemical parameters were analyzed. Results show that the prepared water-soluble FMNPs had high fluorescent and magnetic properties, less than 50 μg/ml of FMNPs exhibited good biocompatibility to HEK293 cells, the cell viability, and adhesion ability were similar to the control HEK293 cells. FMNPs primarily accumulated in those organs such as lung, liver, and spleen. Lung exposed to FMNPs displayed a dose-dependent inflammatory response, blood biochemical parameters such as white blood cell count (WBC), alanine aminotransferase (ALT), and aspartate aminotransferase (AST), displayed significant increase when the FMNPs were injected into mice at dose of 100μg. In conclusion, FMNPs exhibit good biocompatibility to cells under the dose of less than 50 μg/ml, and to mice under the dose of less than 2mg/kg body weight. The FMNPs' biocompatibility must be considered when FMNPs are used for in vivo diagnosis and therapy.     

Shikonin Inhibits the Migration and Invasion of Human Glioblastoma Cells by Targeting Phosphorylated β-Catenin and Phosphorylated PI3K/Akt: A Potential Mechanism for the Anti-Glioma Efficacy of a Traditional Chinese Herbal Medicine

Shikonin is an anthraquinone derivative extracted from the root of lithospermum. Shikonin is traditionally used in the treatment of inflammatory and infectious diseases such as hepatitis. Shikonin also inhibits proliferation and induces apoptosis in various tumors. However, the effect of shikonin on gliomas has not been fully elucidated. In the present study, we aimed to investigate the effects of shikonin on the migration and invasion of human glioblastoma cells as well as the underlying mechanisms. U87 and U251 human glioblastoma cells were treated with shikonin at 2.5, 5, and 7.5 μmol/L and cell viability, migration and invasiveness were assessed with CCK8, scratch wound healing, in vitro Transwell migration, and invasion assays. The expression and activity of matrix metalloproteinase-2 (MMP-2) and matrix metalloproteinase-9 (MMP-9) and the expression of phosphorylated β-catenin (p-β-catenin) and phosphorylated PI3K/Akt were also checked. Results showed that shikonin significantly inhibited the cell proliferation, migration, invasion, and expression of MMP-2 and MMP-9 in U87 and U251 cells. The expression of p-β-catenin showed contrary trends in two cell lines. It was significantly inhibited in U87 cells and promoted in U251 cells. Results in this work indicated that shikonin displayed an inhibitory effect on the migration and invasion of glioma cells by inhibiting the expression and activity of MMP-2 and -9. In addition, shikonin also inhibited the expression of p-PI3K and p-Akt to attenuate cell migration and invasion and MMP-2 and MMP-9 expression in both cell lines, which could be reversed by the PI3K/Akt pathway agonist, insulin-like growth factor-1 (IGF-1).