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ABSTRACT Zika virus (ZIKV) is an enveloped, single-stranded RNA arbovirus belonging to the genus Flavivirus. It was first isolated from a sentinel monkey in Uganda in 1947. More recently, ZIKV has undergone rapid geographic expansion and has been responsible for outbreaks in Southeast Asia, the Pacific Islands, and America. In this review, we have highlighted the influence of viral genetic variants on ZIKV pathogenesis. Two major ZIKV genotypes (African and Asian) have been identified. The Asian genotype is subdivided into Southwest Asia, Pacific Island, and American strains, and is responsible for most outbreaks. Non-synonymous mutations in ZIKV proteins C, prM, E, NS1, NS2A, NS2B, NS3, and NS4B were found to have a higher prevalence and association with virulent strains of the Asian genotype. Consequently, the Asian genotype appears to have acquired higher cellular permissiveness, tissue persistence, and viral tropism in human neural cells. Therefore, mutations in specific coding regions of the Asian genotype may enhance ZIKV infectivity. Considering that mutations in the genomes of emerging viruses may lead to new virulent variants in humans, there is a potential for the re-emergence of new ZIKV cases in the future.
ABSTRACT
BACKGROUND: Juglone is a naphthoquinone currently obtained by chemical synthesis with biological activities including antitumor activity. Additionally, juglone is present in the green husk of walnut, which suggests evaluating the effect of GH extracts on carcinogenic cell lines. RESULTS: Walnut green husk ethanolic extract was obtained as 169.1 mg juglone/100 g Green Husk and antioxidant activity (ORAC) of 44,920 µmol Trolox Equivalent/100 g DW Green Husk. At 1 µM juglone in HL-60 cell culture, green husk extract showed an antiproliferative effect, but pure juglone did not; under these conditions, normal fibroblast cells were not affected. A dose-dependent effect on mitochondrial membrane potential loss was observed. Apoptosis of HL-60 was detected at 10 µM juglone. Despite high ORAC values, neither purified juglone nor the extract showed protective effects on HL-60 cells under oxidative conditions. CONCLUSIONS: Green husk extract generates an antiproliferative effect in HL-60 cells, which is related to an induction of the early stages of apoptosis and a loss of mitochondrial membrane potential. The normal cells were not affected when juglone is present at concentrations of 1 µM, while at higher concentrations, there is loss of viability of both cancerous and healthy cells.
Subject(s)
Apoptosis , HL-60 Cells/metabolism , Juglans/chemistry , Polyphenols/metabolism , Antioxidants/metabolism , Cell Survival , Chromatography, High Pressure Liquid , Cell Culture Techniques , Membrane Potential, MitochondrialABSTRACT
O câncer cervical é um dos tipos de câncer mais comuns entre as mulheres, e a infecção persistente pelos HPV-16 e HPV-18 é responsável por 70% dos casos. As vacinas profiláticas disponíveis possuem alta eficácia na prevenção da infecção pelos tipos mais prevalentes de HPV. No entanto, este tipo de abordagem não beneficia mulheres que já apresentam lesões precursoras ou tumores cervicais avançados, e a busca por abordagens terapêuticas para esse tipo de câncer é considerada uma necessidade. A qualidade do antígeno representa um aspecto fundamental para o sucesso de vacinas terapêuticas baseadas em proteínas recombinantes. Neste sentido, os sistemas de expressão em células eucarióticas, como leveduras e células de mamíferos são considerados adequados para a produção de proteínas com aplicação biotecnológica. O objetivo principal deste trabalho contemplou a expressão das proteínas de fusão gDE7E6 do HPV-16 e do HPV-18 e a oncoproteína E7 do HPV-16 em células da levedura Pichia pastoris e expressão da gDE7E6 do HPV-16 e do HPV-18 em células de mamífero HEK293T e CHODG-44 para obtenção de antígenos purificados com futura aplicação em vacinas terapêuticas contra tumores associados ao HPV-16 e HPV-18. Os genes que codificam as proteínas gDE7E6 dos HPV-16 e HPV-18 e da E7 do HPV-16 foram clonados no vetor pPIC9K, os quais foram linearizados por digestão enzimática e utilizados na transformação da P. pastoris. A expressão das proteínas foi analisada nos tempos de 24, 48, 72 e 96 horas, no entanto, não foi observada a produção das proteínas no sobrenadante e nem no lisado celular. Diante desta constatação, iniciamos a expressão das proteínas gDE7E6 do HPV-16 e gDE7E6 do HPV-18 em células de mamíferos HEK293T e CHODG-44. As sequências genéticas das proteínas gDE7E6 do HPV-16 e do HPV-18 foram clonadas no vetor de expressão pNU1 e analisadas por digestão enzimática. Análises de SDS-PAGE e western blot demonstraram a expressão das proteínas gDE7E6 do HPV-16 e do HPV-18 em até 96 horas em células HEK293T. Em paralelo, realizamos a transfecção estável dos plasmídeos contendo as sequencias da gDE7E6 do HPV-16 e gDE7E6 do HPV-18 em células CHO-DG44. Com o intuito de aumentar a expressão das proteínas de interesse na população mista de CHODG-44, realizamos amplificação genômica com metotrexato (MTX), sendo possível observar aumento da expressão das proteínas, conforme aumento gradativo nas concentrações de MTX. Posteriormente, foram feitas tentativas para isolar um clone produtor das proteínas gDE7E6 HPV-16 e HPV-18, através de clonagem por diluição limitante e sistema automatizado, sendo possível isolar um clone para cada construção através de matriz semisólida, confirmado por western blot e citometria de fluxo. Apesar de demonstrar a expressão das proteínas de interesse em sistema de expressão baseado em células de mamífero, o rendimento obtido após a purificação por afinidade ao níquel foi extremamente baixo, o que dificulta a obtenção dos antígenos para fins vacinais
Cervical cancer is one of the most common cancers among women, and persistent infection with HPV-16 and HPV-18 accounts for 70% of the cases. Available prophylactic vaccines are highly effective in preventing infection by the most prevalent types of HPV. However, this type of approach does not benefit women who already have precursor lesions or advanced cervical tumors, and the search for therapeutic approaches to this type of cancer is considered a necessity. Antigen quality represents a key aspect for the success of therapeutic vaccines based on recombinant proteins. In this sense, expression systems based in eukaryotic cells such as yeast and mammalian cells are considered suitable for the production of proteins with biotechnological applications. The main objective of this work was to express the gDE7E6 fusion proteins HPV-16 and HPV-18 and the E7 oncoprotein HPV-16 in Pichia pastoris and expression of gDE7E6 HPV-16 and HPV-18 in mammalian cells HEK293T and CHODG-44 to obtain purified antigens with future applications in therapeutic vaccines against HPV-16 and HPV-18 associated tumors. The genes encoding the gDE7E6 proteins HPV-16 and HPV-18 and E7 HPV-16 were cloned into the pPIC9K vector, which were linearized by enzymatic digestion and used in the transformation of P. pastoris. Expression of the proteins was analyzed at 24, 48, 72 and 96 hours, however, the production of the proteins in the supernatant and in the cell lysate was not observed. In light of this finding, we initiated the expression of gDE7E6 proteins HPV-16 and HPV-18 in mammalian cells HEK293T and CHODG-44. The genetic sequences of gDE7E6 proteins HPV-16 and HPV-18 were cloned into the pNU1 expression vector and analyzed by enzymatic digestion. SDSPAGE and western blot analyzes demonstrated expression of gDE7E6 proteins HPV-16 and HPV-18 within 96 hours in HEK293T cells. In parallel, we performed stable transfection of plasmids containing gDE7E6 HPV-16 and HPV-18 sequences into CHODG44 cells. In order to increase the expression of the proteins in the mixed population of CHODG-44, we performed genomic amplification with methotrexate (MTX), and it was possible to observe an increase in protein expression, as a gradual increase in MTX concentrations. Therefore, attempts were made to isolate a clone producing gDE7E6 proteins HPV-16 and HPV-18 by limiting dilution and automated system, being possible to isolate one clone for each construct through a semisolid matrix, confirmed by western blot and flow cytometry. Despite observing protein expression in mammalian cell-based expression system, the yield obtained after nickel affinity purification was extremely low, which makes it difficult to obtain the antigens for vaccine purposes
Subject(s)
Oncogene Proteins/classification , Human papillomavirus 16 , Human papillomavirus 18 , Pichia , Uterine Cervical Neoplasms/physiopathology , Herpesvirus 1, Human , Eukaryota , Antigens/analysisABSTRACT
The 21st century is regarded as the century of biotechnological drugs, among which monoclonal antibodies and their derived targeting drugs have established themselves as the leading modality of biopharmaceutical pharmaceutics for a wide range of indications covering malignant tumors and autoimmune disorders. Since the manufacturing of the first antibody drug from hybridoma cells, the technologies have been intensely studied and there emerged numerous breakthroughs in recombinant cell line establishment, antibody expression and purification, quality control and other related areas. This article summarizes the critical progresses of antibody drugs expression technologies, especially of mammalian cell expression system, Escherichia coli expression system, the transgenic animal reactor and the cell free protein synthesis system, to give a detailed illustration of the recent advances in antibody drugs development.
Subject(s)
Animals , Antibodies, Monoclonal , Biotechnology , Cell Line , Escherichia coli , HybridomasABSTRACT
Thiamin pyrophosphate (TPP) is a thiamine (vitamin B1) derivative and an essential cofactor in oxidative metabolism of the sugars,fatty acids and amino acids in living cells.By now,numerous TPP-dependent artificial riboswitch systems have been developed to regulate target gene expression but limited in bacteria,fungi or plant cells.Herein,the activating (switch-on) and inhibiting (switch-off) TPP-depended hammerhead ribozyme switches,which are from previous reported structures of prokaryotes screening,were investigated in mammalian cells.These ribozyme switches were inserted into the 3'UTR of the enhanced green fluorescence protein (EGFP) gene to construct the efficient ribozyme-based artificial switches through overlap extension PCR cloning.The HEK293 cells were transfected with the engineered ribozyme switches at increasing concentration of TPP.The EGFP gene-regulatory ability was analyzed with fluorescent microscope and flow cytometry.These TPP-inducible gene regulation devices showed the obvious ligand dose-dependency and excellent specificity.Two switch-on and one switch-off constructs demonstrated 3.1-fold or 1.9-fold increment and 2.3-fold reduction of EGFP level respectively with 150 μ mol/L TPP.The ligand-responsive ribozyme switches,by tuning the change of TPP concentration into the visual reporter genetic expression in cells,enable an efficient development of label-free,noninvasive and high-specific biosensors in living mammalian cells.
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One of a rapid growing mycobacteria (RGM), Mycobacterium abscessus (MAB), is the most causative agents of RGM pulmonary disease. MAB can change their morphology that smooth (S) type to more virulent type of rough (R). Bacterial invasion into host cells is an important first step to initiate their infection. The phagocytic and invasion mechanisms of Mycobacterium tuberculosis through the host-parasite interaction have been researched. Although MAB causes a wide range of clinical diseases, little is known about their invasion ability or why the R type is more virulent than the S type. To compare invasion ability of R with S types, their infection abilities to dermal fibroblast, HaCaT cells, A549 cells and bone marrow derived macrophages were analyzed. After 2 h of infection, intracellular survival numbers of the R type were significantly higher in all infected cells than S types. The fluorescence-activated cell sorting (FACS) and confocal microscopy assay also revealed that red fluorescent amount and intracellular bacterial numbers in all of the cells infected with MAB R type expressing the red fluorescent protein (RFP) were significantly higher than the S type. Our data suggest that the virulence of MAB is proportionally related to the invasion ability into mammalian cells and macrophages.
Subject(s)
Fibroblasts , Flow Cytometry , Host-Parasite Interactions , Infections , Lung Diseases , Macrophages , Microscopy, Confocal , Mycobacterium tuberculosis , Mycobacterium , VirulenceABSTRACT
O DNA está constantemente exposto a danos causados tanto por agentes endógenos quanto exógenos. Estes podem causar diferentes tipos de lesões incluindo modificações de bases e do açúcar, além de quebras de fitas simples ou duplas. As quebras de duplas fitas, quando comparadas às demais, constituem as mais citotóxicas e podem resultar em deleções no DNA e instabilidade genética. Deleções no DNA mitocondrial (mtDNA) causam diversas doenças e estão envolvidas no processo de envelhecimento. No núcleo, as quebras de duplas fitas no DNA podem ser reparadas por recombinação homóloga (HR), ligação de pontas não homólogas (NHEJ) e anelamento de fita simples (SSA). No entanto, em mitocôndrias de células de mamíferos, o reparo de quebras de duplas fitas ainda não foi completamente caracterizado. Experimentos in vitro usando extratos mitocondriais de células de roedores mostraram que estes são capazes de reparar essas quebras, no entanto pouco é sabido sobre quais proteínas são responsáveis por cada etapa de reparo, bem como sua implicação na manutenção da integridade do genoma mitocondrial. Sendo assim, nesse trabalho investigamos a localização e função mitocondrial das proteínas ATM, Rad51, Rad52, Ku70/86 e DNA-PKCs, que são sabidamente envolvidas em reparo de quebras de duplas fitas no núcleo. Para identificar essas proteínas em mitocôndrias de células de mamíferos, mitocôndrias foram isoladas a partir de células da linhagem HEK293T, usando centrifugação diferencial seguida por gradiente de Percoll. Para as proteínas de recombinação homóloga, ATM e Rad51, imunodetectamos isoformas semelhantes em todos os compartimentos celulares. Já para a proteína Rad52 o mesmo anticorpo imunodetectou duas bandas distintas na mitocôndria ao passo que no núcleo foram quatro. Além disso, verificamos que baixos níveis de proteína Rad52, induzidos pela expressão de shRNA (short hairping RNA) específico, resultam em diminuição do número de cópias de mtDNA bem como acúmulo de deleções no genoma mitocondrial. Para as proteínas de NHEJ, DNA-PKCs e a subunidade Ku70, identificamos isoformas semelhantes em todos os compartimentos celulares. Já para a subunidade 86 do heterodímero Ku70/86 o anticorpo detectou, somente em mitocôndrias, uma banda menor de 50 kDa, a qual difere na região N-terminal da subunidade detectada no núcleo (86 KDa). Experimentos de co-imunprecitação de proteínas mostraram que essa isoforma menor compõe o heterodímero mitocondrial juntamente com a subunidade 70 (mtKu70/50) e que esse interage com DNA ligase III mitocondrial. Nossos resultados também mostraram que a estabilidade proteica de mtKu70/50 é regulada por ATM. Tratamento das células com peróxido de hidrogênio, que induz quebras de duplas fitas, aumentou a associação do heterodímero mtKu70/50 com o mtDNA, de forma independente de aumento da concentração proteica intra-mitocondrial. Já a diminuição dos níveis proteicos de Ku, induzida através de shRNA, resultou em diminuição do número de cópias de mtDNA e acumulo de danos nesse genoma. Extratos mitocondriais de células knockdown para Ku apresentaram menor atividade de reparo NHEJ em um ensaio in vitro, sugerindo que o acúmulo de danos nestas células é provavelmente devido a deficiências na via de NHEJ. Em conjunto, nossos dados sugerem que tanto HR quanto NHEJ operam em mitocôndrias. Além disso, a via de NHEJ mitocondrial utiliza o heterodímero mitocondrial Ku70/50 o qual está envolvido na manutenção do mtDNA. Ademais, nossos resultados mostram uma grande conservação molecular e funcional entre as vias de reparo de NHEJ e HR no núcleo e na mitocôndria, o que reforça sua importância para a manutenção da estabilidade genômica mitocondrial e, provavelmente a função mitocondrial
DNA is constantly exposed to damaging agents from both endogenous and exogenous sources. These can cause different types of DNA lesions that include base and sugar modifications and single and double strand breaks. DNA doublestrand breaks (DSBs) are among the most cytotoxic DNA lesions, which can result in deletions and genetic instability. Deletions in the mitochondrial DNA (mtDNA) cause numerous human diseases and drive normal aging. DSBs in the nuclear DNA are repaired by non-homologous DNA end joining (NHEJ), homologous recombination (HR) or Single Strand Annealing (SSA). Yet, repair of DSBs in mammalian mitochondria has not been fully characterized. Mitochondrial extracts from rodent cells are proficient in ligating DNA ends in vitro, but little is known about which proteins are responsible for each enzymatic step and its implication in mitochondrial genome maintenance. Thus, we investigated mitochondrial localization and function of DSBR (double strand break repair) proteins ATM, Rad51, Rad52, the Ku70/86 heterodimer and DNA-PKCs.To identify DSBR proteins in mammalian mitochondria, highly purified mitochondria from HEK293T cells were isolated using differential centrifugation followed by Percoll gradient. For HR proteins, we detected similar isoforms for ATM and Rad51 proteins in all cellular compartments. Two mitochondriaspecific isoforms of Rad52 were detected, while the same antibody detected four isoforms in the nucleus. In addition, lower Rad52 protein levels, induced by specific shRNA expression, result in decreased mtDNA copy number and accumulation of deleted mitochondrial genomes. For NHEJ proteins, similar isoforms of DNA-PKcs and the Ku70 subunit were detected in all cellular compartments. On the other hand, antibodies against the Ku86 subunit detected a smaller band in mitochondrial extracts (50 KDa), lacking the N-terminal region of the canonical isoform detected in the nucleus (86 KDa). The mitochondrial Ku70/50 heterodimer interacts with mitochondrial DNA ligase III, suggesting a role in DSBR. Moreover, stability of the mtKu heterodimer is regulated by ATM. Hydrogen peroxide treatment, which induces DSBs, increases mtKu70/50 association with the mtDNA and cells with reduced Ku levels, also induced by shRNA transfection, have lower mtDNA copy number and accumulate mtDNA damage. Moreover, mitochondrial extracts from Ku knockdown cells show lower NHEJ repair activity in an in vitro assay, suggesting that damage accumulation in these cells is likely due to deficiencies in NHEJ. Together, our data suggest that both HR and NHEJ operate in mitochondria. Also, mtNHEJ requires the Ku heterodimer and is involved in mtDNA maintenance. Moreover, our results indicate that there is a significant molecular and functional conservation between NHEJ and HR repair pathways in the nucleus and in mitochondria, which reinforces their importance for maintenance of mitochondrial genomic stability and, likely mitochondrial function
Subject(s)
DNA End-Joining Repair/genetics , DNA, Mitochondrial/genetics , DNA/analysis , Ataxia Telangiectasia Mutated Proteins , Ku Autoantigen , Rad51 Recombinase , Rad52 DNA Repair and Recombination ProteinABSTRACT
The number of biopharmaceuticals for medical and veterinarian use produced in mammalian cells is increasing year after year. All of them are obtained by stable recombinant cell lines. However, it is recognized that transient gene expression produces high level expression in a short time. In that sense, viral vectors have been extensively used for producing recombinant proteins on lab-scale. Among them, Semliki Forest virus is commonly employed for this purpose. This review discusses the main aspects related to the use of Semliki Forest virus technology as well as its advantages and drawbacks which limit currently its utilization in biopharmaceutical industry on large-scale.
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In this paper, the function of the iel gene from baculovirus Spodoptera exigua multiple nucleopolyhedrovirus (SeMNPV), belonging to group Ⅱ nucleopolyhedrovirus, was studied in mammalian cells.We amplified the SeMNPV ie1 gene and expressed it by fusing to the C terminal of enhanced GFP protein in HEK 293 cells. Confocal microscopy revealed that the IE1-GFP fusion protein was localized in the nucleus of the mammalian cells. The promoter sequences of AcMNPV gp64, SeMNPV F protein and Drosophila hsp70 were also analyzed, to further study the function of SeMNPV IE1. The results showed that, in the absence of the hr sequence, IE1 improved the expression of the F promoter but didn't influence the gp64 promoter significantly, but IE1 moderately stimulated the hsp70 promoter.
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Fed-batch culture is the predominant mode of the current animal cell culture process for many recombinant protein production. Fed-batch culture operation is mainly based on the nutrient continuous consumption and demand of cells to design continuous or semi-continuous concentration feed medium to maintain or support high-density cell growth and improve volumetric productivity of target protein in the reactor. The main methods to improve production efficiency of fed-batch cells culture include the optimization of medium design, selection and optimization of feed strategy and regulation of cell metabolism.
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The baculovirus expression system has been used extensively for the expression of recombinant proteins in insect cells.Recently,recombinant baculoviruses containing mammalian cell-active promoter element have been used to transduce a broad spectrum of primary and established mammalian cells,including non-hepatic cells.Recombinant baculoviruses have been used successfully for transient or stable gene delivery in mammalian cells in vitro,while the efficiency of delivering gene in vivo is inhibited obviously by complements,but efforts have been made to overcome the problems,for instance,VSV-G-pseudotyped baculoviruses display complement resistance.The mechanism of the transduction is still not clearly understood,though many researches have been done.The baculovirus is able to replicate only in insect cells,but it is incapable of initiating replication cycle in mammalian cells,which guarantees high biosafety of this gene delivery system.In addition,this system is easily manipulated and able to carry large inserts.These attributes will undoubtedly lead to the increased application and continued development of this system for highly effective gene delivery into mammalian cells.
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In order to construct recombinant baculovirus carrying Schistosoma japonicum 26 ku glutathione S-transferase gene (Sj26), and observe the expression of Sj26 in mammalian cells, the Sj26 gene was amplified with plasmid pGEX-3X as template by PCR, and then recombined into Tvector for sequencing. Sj26 gene was inserted into the downstream of CMV promoter of donor plasmid pFBDGC, and the recombinant donor plasmid pFBDGC-Sj26 transformed into DH10Bac,then the recombinant bacmid AcCMVSj26 was isolated and transfected into Sf9 cells. The recombinant baculovirus was harvested and final titer of vAcCMVSj26 was measured. BHK cells were transducted with recombinant baculovirus in vitro. By using Western blot, the expression of 26 ku glutathione S-transferase (GST) was detected. The results showed that after enzyme digestion and sequencing, the donor plasmid was successfully constructed. PCR confirmed that pFBDGC-Sj26 and Bacmid homologous recombination occurred in E. coli. After transfection of Sf9 cells with recombinant Bacmid, recombinant baculovirus was replicated in Sf9 cells and expressed green fluorescent protein. PCR further revealed recombinant baculovirus contained Sj26. The titer of the harvested baculovirus was 1.24 × 108. Western blot demonstrated that recombinant baculovirus could express 26 ku GST in BHK cells. It was concluded that Sj26 recombinant baculovirus was successfully constructed, and the 26 ku GST was expressed in mammalian cells.
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The developments of domestic and foreign researches on mutagenesis of sulfur dioxide were briefly reviewed in this paper from different aspects: microbiological experiments, the experiments of cultured mammalian cells in vitro,experiments on mammal and population in vivo.