ABSTRACT
Geobacillus thermoglucosidasius is a kind of Gram-positive facultative anaerobic bacteria. The fast growth rate under high temperature and less susceptibility to microbial contamination enable G. thermoglucosidasius to be a desirable producer of biofuels and high-value-added chemicals for the next-generation industrial biotechnology. However, compared with the classical model strain Escherichia coli, the applications of G. thermoglucosidasius are hampered by its low transformation efficiency. This study aimed at obtaining competent cells with high transformation efficiency through inactivating restriction enzymes, adding cell membrane inhibitors and cell wall weakening agents. The results showed that the electro-transformation efficiency achieved 1.2×104 CFU/(μg DNA) by knocking out four genes encoding restriction enzymes. Adding a certain amount of tween 80, dl-threonine and glycine further increased the competent efficiency about 22.5, 44, and 334 times, respectively. The electro-transformation efficiency was enhanced to 4.6×106 CFU/(μg DNA) under the optimized conditions, laying a foundation for genetic manipulation and metabolic engineering of G. thermoglucosidasius.
Subject(s)
Electroporation , Electroporation Therapies , Bacillaceae , Cell Membrane , Escherichia coli/geneticsABSTRACT
BACKGROUND@#High-frequency irreversible electroporation (H-FIRE) is a novel, next-generation nanoknife technology with the advantage of relieving irreversible electroporation (IRE)-induced muscle contractions. However, the difference between IRE and H-FIRE with distinct ablation parameters was not clearly defined. This study aimed to compare the efficacy of the two treatments in vivo.@*METHODS@#Ten Bama miniature swine were divided into two group: five in the 1-day group and five in the 7-day group. The efficacy of IRE and H-FIRE ablation was compared by volume transfer constant (Krans), rate constant (Kep) and extravascular extracellular volume fraction (Ve) value of dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI), size of the ablation zone, and histologic analysis. Each animal underwent the IRE and H-FIRE. Temperatures of the electrodes were measured during ablation. DCE-MRI images were obtained 1, 4, and 7 days after ablation in the 7-day group. All animals in the two groups were euthanized 1 day or 7 days after ablation, and subsequently, IRE and H-FIRE treated liver tissues were collected for histological examination. Student's t test or Mann-Whitney U test was applied for comparing any two groups. One-way analysis of variance (ANOVA) test and Welch's ANOVA test followed by Holm-Sidak's multiple comparisons test, one-way ANOVA with repeated measures followed by Bonferroni test, or Kruskal-Wallis H test followed by Dunn's multiple comparison test was used for multiple group comparisons and post hoc analyses. Pearson correlation coefficient test was conducted to analyze the relationship between two variables.@*RESULTS@#Higher Ve was seen in IRE zone than in H-FIRE zone (0.14 ± 0.02 vs. 0.08 ± 0.05, t = 2.408, P = 0.043) on day 4, but no significant difference was seen in Ktrans or Kep between IRE and H-FIRE zones at all time points (all P > 0.05). For IRE zone, the greatest Ktrans was seen on day 7, which was significantly higher than that on day 1 (P = 0.033). The ablation zone size of H-FIRE was significantly larger than IRE 1 day (4.74 ± 0.88 cm2vs. 3.20 ± 0.77 cm2, t = 3.241, P = 0.009) and 4 days (2.22 ± 0.83 cm2vs. 1.30 ± 0.50 cm2, t = 2.343, P = 0.041) after treatment. Apoptotic index (0.05 ± 0.02 vs. 0.73 ± 0.06 vs. 0.68 ± 0.07, F = 241.300, P 0.05). Electrode temperature variations were not significantly different between the two zones (18.00 ± 3.77°C vs. 16.20 ± 7.45°C, t = 0.682, P = 0.504). The Ktrans value (r = 0.940, P = 0.017) and the Kep value (r = 0.895, P = 0.040) of the H-FIRE zone were positively correlated with the number of hepatocytes in the ablation zone.@*CONCLUSIONS@#H-FIRE showed a comparable ablation effect to IRE. DCE-MRI has the potential to monitor the changes of H-FIRE ablation zone.
Subject(s)
Animals , Contrast Media , Electroporation , Follow-Up Studies , Liver/surgery , Magnetic Resonance Imaging , SwineABSTRACT
This study firstly introduced the mechanism, benefits and applications of irreversible electroporation(IRE) for tumor ablation. In addition, this study also introduced the most advanced IRE systems cleared by FDA or CFDA and IRE research equipment. The clinically licensed IRE systems include the Nanoknife 3.0 of Angiodynamics, the Dophi
Subject(s)
Humans , Electricity , Electroporation , Heart Rate , Neoplasms/therapyABSTRACT
A project of control of a high voltage pulse generator based on Arduino and its peripheral pulse sensor and temperature sensor was proposed for cell irreversible electroporation (IRE) test. By programming Arduino board, the analog photoelectric signal and the partial voltage signal of thermistor collected by pulse and temperature sensors were converted into digital signal and temperature value. The threshold of ECG R wave (>550) and temperature threshold (<37 oC) was set as trigger condition to control an 800 W high voltage pulse generator to release a fixed period pulse. Human lung cancer cells cultured in vitro were used to test and verify, and cell staining was used to evaluate the perforation. The results showed that Arduino and its sensors were sensitive to trigger and feedback. When the high voltage pulse generator was controlled to release 100 pulses with the parameters of 600 V, 1 200 V/cm and 100 ms pulse width, more than 95% of the cells showed nonthermal irreversible electroporation.
Subject(s)
Humans , ElectroporationABSTRACT
Aims@#This study aimed to evaluate the effect of electroporation on the growth characteristics and antimicrobial activity of lactic acid bacteria (LAB) including Bifidobacterium longum ATCC 15707, Lactobacillus acidophilus ATCC 314, Lactobacillus casei ATCC 393 and Lactobacillus fermentum ATCC 14931.@*Methodology and results@# Electroporation with the strength of electric field at 1.0–3.0 kV/cm for 2-4 millisecond were applied on the bacterial cultures. All bacterial cultures showed significant (P<0.05) increased in cell viability (40%-325%) upon electroporation. Such treatment also increased the acidity of the cell where the pH of cells decreased upon treatment. In tandem with the increased viability, electroporated bacterial cultures also showed higher proteolytic activity compared to the control (P<0.05). The electroporation treatment also increased (P<0.05) the bacteriocin activity of treated cells compared to the control. However, the molecular weight of bacteriocins produced were not affected by electroporation. Treated cells also possessed better antimicrobial activity. According to the results collected, all treated LAB strains showed 11.5%-113.8% higher (P<0.05) inhibitory activity compared to untreated control against tested pathogenic bacteria, Escherichia coli and Listeria monocytogenes that commonly associated with food contamination. Microarray data analysis showed that electroporation regulated the entities encoding for surface protein and transporter.@*Conclusion, significance and impact of study@#The results from this study suggested that electroporation could enhance the growth characteristics and antimicrobial activity of LAB by modifying the surface regions of the cells. This result may serve as the reference for food manufacturers to opt for effective biopreservation method and produce food with extended shelf life.
Subject(s)
Electroporation , LactobacillalesABSTRACT
Irreversible electroporation (IRE) is an emerging tissue ablation technique. Compared with thermal ablation technique such as radiofrequency, IRE can achieve focal ablation in a shorter time without heat sink effect while sparing the tissue scaffold. IRE has been demonstrated to be a feasible therapeutic modality for the liver, pancreatic, and prostatic cancer. In recent years, several studies regarding of catheter-directed IRE for digestive tract, bronchus, urinary tract, and myocardium have been performed, which preliminarily demonstrated the safety and efficacy of IRE for tissue ablation under endoscopic or interventional technique. This study summarized the research progress of catheter-directed IRE for tissue ablation. The critical technique and future direction of catheter-based IRE are prosp.
Subject(s)
Humans , Catheter Ablation , Catheters , Electroporation , EndoscopyABSTRACT
Pancreatic cancer has a very poor prognosis. Complete surgical resection remains the only current curative treatment. Locally advanced pancreatic cancer (LAPC) is considered as unresectable because of involvement of celiac and/or mesenteric vessels. The treatment of LAPC is a challenge. Current guidelines suggest systemic therapy. However, the majority of patients will never experience conversion to surgical resection. Thus, in these patients, ablation is an alternative therapy for local control, which causes local destruction while ideally avoiding injury to surrounding healthy tissue. Irreversible electroporation (IRE) is an energy delivery system, effective in ablating tumors by inducing irreversible membrane destruction of cells. IRE demonstrated to be safe in previous studies. However, it is not free from complications, even serious. Here, we reported two cases of the IRE in LAPC patients.
Subject(s)
Humans , Electroporation , Membranes , Pancreatic Neoplasms , PrognosisABSTRACT
OBJECTIVE: The aim of our study was to investigate the effect of Transforming growth factor beta-1 (TGF-β1) gene therapy on the surface markers, multilineage differentiation, viability, apoptosis, cell cycle, DNA damage and senescence of human Dental Pulp-derived Mesenchymal Stromal Cells (hDPSC). METHODS: hDPSCs were isolated from human teeth, and were cultured with 20% Fetal Bovine Serum (FBS) in minimum essential media-alpha (α-MEM). TGF-β1 gene transfer into hDPSCs was performed by electroporation method after the plasmid was prepared. The transfection efficiency was achieved by using western blot and flow cytometry analyses and GFP transfection. Mesenchymal stem cell (MSC) markers, multilineage differentiation, cell proliferation, apoptosis, cell cycle, DNA damage and cellular senescence assays were performed by comparing the transfected and non-transfected cells. Statistical analyses were performed using GraphPad Prism. RESULTS: Strong expression of TGF-β1 in pCMV-TGF-β1-transfected hDPSCs was detected in flow cytometry analysis. TGF-β1 transfection efficiency was measured as 95%. Western blot analysis showed that TGF-β1 protein levels increased at third and sixth days in pCMV-TGF-β1-transfected hDPSCs. The continuous TGF-β1 overexpression in hDPSCs did not influence the immunophenotype and surface marker expression of MSCs. Our results showed that TGF-β1 increased osteogenic and chondrogenic differentiation, but decreased adipogenic differentiation. Overexpression of TGF-β1 increased the proliferation rate and decreased total apoptosis in hDPSCs (p<0.05). The number of cells at “S” phase was higher with TGF-β1 transfection (p<0.05). Cellular senescence decreased in TGF-β1 transfected group (p<0.05). CONCLUSIONS: These results reflect that TGF-β1 has major impact on MSC differentiation. TGF-β1 transfection has positive effect on proliferation, cell cycle, and prevents cellular senescence and apoptosis.
Subject(s)
Humans , Aging , Apoptosis , Blotting, Western , Cellular Senescence , Cell Cycle , Cell Differentiation , Cell Proliferation , DNA Damage , Electroporation , Flow Cytometry , Genetic Therapy , Mesenchymal Stem Cells , Methods , Plasmids , Population Characteristics , Tooth , Transfection , Transforming Growth FactorsABSTRACT
Ralstonia solanacearum strain PRS-84 used in this study was isolated from diseased Pogostemon cablin plants in our previous study.The competent cells of R.solanacearum strain PRS-84 were transformed by electroporation with Tn5 transposon and then were plated on TTC agar plates containing kanamycin to select for kanamycin-resistant colonies.The detection of kanamycin-resistant gene in kanamycin-resistant colonies was performed by PCR.Further,the flanking fragments of Tn5 transposon insertion site in the mutants were amplified by inverse PCR,and the flanking fragments were sequenced and analyzed.The results indicated that the kanamycin-resistant colonies were obtained in the transformation experiment of R.solanacearum strain PRS-84 by electroporation with Tn5 transposon.A specific band of approximately 700 bp was amplified by PCR from kanamycin-resistant colonies.The flanking sequences of Tn5 transposon insertion site in the transformants were obtained by inverse PCR.After sequencing and sequence analysis of Tn5 transposon insertion site in mutants,we preliminarily speculated that the Tn5 transposon inserted in the typ A gene,rec O gene and gid A gene in three mutants,respectively.A random mutagenesis system of R.solanacearum strain PRS-84 by electroporation with Tn5 transposon has been established,and the Tn5 insertion mutants have been obtained.This study might facilitate the creation of mutant library and the discovery of the virulence gene of R.solanacearum isolated from P.cablin.
Subject(s)
DNA Transposable Elements , Electroporation , Genes, Bacterial , Mutagenesis, Insertional , Pogostemon , Microbiology , Ralstonia solanacearum , Genetics , VirulenceABSTRACT
Rheb (Ras homolog enriched in the brain) is a small GTPase protein that plays an important role in cell signaling for development of the neocortex through modulation of mTORC1 (mammalian-target-of-rapamycin-complex-1) activity. mTORC1 is known to control various biological processes including axonal growth in forming complexes at the lysosomal membrane compartment. As such, anchoring of Rheb on the lysosomal membrane via the farnesylation of Rheb at its cysteine residue (C180) is required for its promotion of mTOR activity. To test the significance of Rheb farnesylation, we overexpressed a farnesylation mutant form of Rheb, Rheb C180S, in primary rat hippocampal neurons and also in mouse embryonic neurons using in utero electroporation. Interestingly, we found that Rheb C180S maintained promotional effect of axonal elongation similar to the wild-type Rheb in both test systems. On the other hand, Rheb C180S failed to exhibit the multiple axon-promoting effect which is found in wild-type Rheb. The levels of phospho-4EBP1, a downstream target of mTORC1, were surprisingly increased in Rheb C180S transfected neurons, despite the levels of phosphorylated mTOR being significantly decreased compared to control vector transfectants. A specific mTORC1 inhibitor, rapamycin, also could not completely abolish axon elongation characteristics of Rheb C180S in transfected cells. Our data suggests that Rheb in a non-membrane compartment can promote the axonal elongation via phosphorylation of 4EBP1 and through an mTORC1-independent pathway.
Subject(s)
Animals , Mice , Rats , Axons , Biological Phenomena , Cysteine , Electroporation , GTP Phosphohydrolases , Hand , Membranes , Neocortex , Neurons , Phosphorylation , Prenylation , Protein Prenylation , Sirolimus , TOR Serine-Threonine KinasesABSTRACT
Genetic manipulation of bacteria is a procedure necessary to obtain new strains that express peculiar and defined genetic determinants or to introduce genetic variants responsible for phenotypic modifications. This procedure can be applied to explore the biotechnological potential associated with environmental bacteria and to utilize the functional properties of specific genes when inserted into an appropriate host. In the past years, marine bacteria have received increasing attention because they represent a fascinating reservoir of genetic and functional diversity that can be utilized to fuel the bioeconomy sector. However, there is an urgent need for an in-depth investigation and improvement of the genetic manipulation tools applicable to marine strains because of the paucity of knowledge regarding this. This review aims to describe the genetic manipulation methods hitherto used in marine bacteria, thus highlighting the limiting factors of the different techniques available today to increase manipulation efficiency. In particular, we focus on methods of natural and artificial transformations (especially electroporation) and conjugation because they have been successfully applied to several marine strains. Finally, we emphasize that, to avoid failure, future work should be carried out to establish tailored methodologies for marine bacteria.
Subject(s)
Seawater/microbiology , Bacteria/genetics , Genetic Engineering , Transformation, Bacterial , Genome , Electroporation , Conjugation, Genetic , Metagenomics , Single-Cell Analysis , Genetic VectorsABSTRACT
OBJECTIVE: To compare short-, mid-, and long-term follow-up ablation zone volume alterations as well as imaging features on contrast-enhanced computed tomography (CT) after irreversible electroporation (IRE) of primary and secondary liver tumors with findings subsequent to radiofrequency ablation (RFA). MATERIALS AND METHODS: Volume assessment of 39 ablation zones (19 RFA, 20 IRE) after intervention was performed at four time intervals (day 0 [t1; n = 39], day 1–7 [t2; n = 25], day 8–55 [t3; n = 28], after day 55 [t4; n = 23]) on dual-phase CT. Analysis of peripheral rim enhancement was conducted. Lesion's volume decrease relative to the volume at t1 was calculated and statistically analyzed with respect to patient's sex, age, ablation modality (IRE/RFA), and history of platinum-based chemotherapy (PCT). RESULTS: No influence of patient's sex or age on ablation volume was detected. The decrease in ablation zones' volume was significantly larger (p < 0.05 for all time intervals) after IRE (arterial phase, 7.5%; venous phase, 9.7% of initial volume) compared to RFA (arterial phase, 39.6%; venous phase, 45.3% of initial volume). After RFA, significantly smaller decreases in the ablation volumes, in general, were detected in patients treated with PCT in their history (p = 0.004), which was not detected after IRE (p = 0.288). In the arterial phase, peripheral rim enhancement was frequently detected after both IRE and RFA. In the venous phase, rim-enhancement was depicted significantly more often following IRE at t1 and t2 (pt1 = 0.003, pt2 < 0.001). CONCLUSION: As per our analysis, ablation zone volume decreased significantly in a more rapid and more profound manner after IRE. Lesion's remodeling after RFA but not IRE seems to be influenced by PCT, possibly due to the type of cell death induced by the different ablation modalities.
Subject(s)
Humans , Catheter Ablation , Cell Death , Drug Therapy , Electroporation , Follow-Up Studies , Liver , Tumor BurdenABSTRACT
The electrical conductivity is a passive material property primarily determined by concentrations of charge carriers and their mobility. The macroscopic conductivity of a biological tissue at low frequency may exhibit anisotropy related with its structural directionality. When expressed as a tensor and properly quantified, the conductivity tensor can provide diagnostic information of numerous diseases. Imaging conductivity distributions inside the human body requires probing it by externally injecting conduction currents or inducing eddy currents. At low frequency, the Faraday induction is negligible and it has been necessary in most practical cases to inject currents through surface electrodes. Here we report a novel method to reconstruct conductivity tensor images using an MRI scanner without current injection. This electrodeless method of conductivity tensor imaging (CTI) utilizes B1 mapping to recover a high-frequency isotropic conductivity image which is influenced by contents in both extracellular and intracellular spaces. Multi-b diffusion weighted imaging is then utilized to extract the effects of the extracellular space and incorporate its directional structural property. Implementing the novel CTI method in a clinical MRI scanner, we reconstructed in vivo conductivity tensor images of canine brains. Depending on the details of the implementation, it may produce conductivity contrast images for conductivity weighted imaging (CWI). Clinical applications of CTI and CWI may include imaging of tumor, ischemia, inflammation, cirrhosis, and other diseases. CTI can provide patient-specific models for source imaging, transcranial dc stimulation, deep brain stimulation, and electroporation.
Subject(s)
Animals , Animal Experimentation , Anisotropy , Brain , Deep Brain Stimulation , Diffusion , Electric Conductivity , Electrodes , Electroporation , Extracellular Space , Fibrosis , Human Body , Inflammation , Intracellular Space , Ischemia , Magnetic Resonance Imaging , MethodsABSTRACT
A enzima L-Asparaginase (ASNase) é um biofámaco utilizado no tratamento da leucemia linfoblástica aguda, no entanto, a evolução da produção da ASNase como um medicamento desde o final da década de 1970 resultou em apenas quatro alternativas disponíveis no mercado farmacêutico, com relatos de graves reações imunogênicas e toxicidade. Desse modo, a nanotecnologia é uma plataforma que pode ser explorada para administração dessa enzima diminuindo a exposição da mesma a proteases e aumentando a sua meia-vida aparente. Os polimerossomos (PL) são opções que pela nanoestrutura vesicular poderiam encapsular a ASNase em seu core aquoso e pela presença de uma membrana polimérica, são mais robustos que os lipossomos. Assim, neste trabalho objetivou-se desenvolver PL para encapsulação da ASNase como uma alternativa às formulações deste biofármaco existentes. Foram desenvolvidos PL de PEG-PLA, PMPC-PDPA, PEG-PDPA e Pluronic® L-21. Foram estudados fatores relacionados à composição dos copolímeros (fração hidrofílica, responsividade a fatores externos tais como pH e temperatura) e métodos de elaboração (hidratação do filme polimérico, troca de pH e temperatura) bem como foi feita a caracterização dos PL obtidos (tamanho, índice de polidispersão, espessura de membrana, formação de excessivo bulk polimérico, obtenção de micelas). Também foi feito um planejamento racional para encapsulação da ASNase (hidratação direta do filme polimérico e encapsulação por eletroporação, autoagregação com encapsulação por troca de pH ou de temperatura). Para os PL preparados com PEG-PLA, a extrusão resultou em distribuição de tamanhos mais estreitos correspondentes aos valores de PDI de 0,345, 0,144 e 0,081 para PEG45-PLA69, PEG114-PLA153 e PEG114-PLA180, respectivamente. Foi demonstrado que copolímeros com menor fração hidrofóbica resultam em maior eficiência de encapsulação para proteínas, já que possuem volumes aquosos maiores. Com o PMPC25-PDPA72 foi possível encapsular em média três unidades de ASNase por vesículas através da eletroporação ou troca de pH, sendo que no primeiro método houve formação de túbulos e no último método as micelas não foram completamente removidas. Para PEG100-PDPA80, grandes agregados permaneceram após a purificação levando a um PDI alto, mas não foi observada a formação de túbulos, já a troca de pH para este copolímero resultou em maior perda de copolímeros como bulk polimérico precipitado. Para o copolimero tribloco Pluronic® L-121, foi observado que as vesículas eram estáveis durante uma semana à temperatura ambiente, contrariando o que era descrito na literatura. Nesses sistemas, quando preparados por hidratação do filme, a encapsulação da ASNase foi realizada por eletroporação mas a proteína não foi detectada dentro das vesículas. Atribuímos a não-encapsulação à organização da bicamada Pluronic® L-121 sem conformação definida das cadeias poliméricas, dificultando a reorganização do bloco hidrofílico na porção interna do poro durante eletroporação. Por troca de temperatura, cerca de 5 % de ASNase foi encapsulada e o método resultou em total recuperação da atividade da enzima. Desse modo foram obtidos diferentes PL com diferentes características nanoestruturais de acordo com os copolímeros utilizados para carreamento da ASNase
The enzyme L-Asparaginase (ASNase) is a biopharmaceutical used in the treatment of acute lymphoblastic leukemia, still the industrial production of ASNase as a marketable drug since the late 1970s has resulted in only four alternatives available in the pharmaceutical market, with reports of severe immunogenic reactions and toxicity. In this sense, nanotechnology is a platform that can be exploited to administer this enzyme by decreasing its exposure to proteases and increasing its apparent half-life. Polymerosomes (PL) are interesting routes which by its intrinsically vesicular nanostructure could encapsulate the ASNase in its aqueous core and by the presence of a polymeric membrane, being more robust than the liposomes. Thus, in this work it was intended to develop PL for ASNase encapsulation as an alternative to existing formulations of this biopharmaceutical. PL of PEG-PLA, PMPC-PDPA, PEG-PDPA and Pluronic® L-21 were developed. It was studied the copolymers composition (i.e. hydrophilic fraction, responsiveness to external factors such as pH and temperature), PL design (i.e. polymer film hydration, pH change and temperature) and PL characterization (i.e. size, polydispersity index - PDI, membrane thickness, formation of excessive polymer bulk, micelles production). A suitable experimental planning for ASNase encapsulation (i.e. direct hydration of the polymeric film and encapsulation by electroporation, self-aggregation with encapsulation by pH or temperature change) was also performed. For the PL prepared with PEG-PLA, the extrusion resulted in narrower size distribution corresponding to the PDI values of 0.345, 0.144 and 0.081 for PEG45-PLA69, PEG114-PLA153 and PEG114-PLA180, respectively. It has been shown that copolymers with lower hydrophobic fraction result in higher encapsulation efficiency for proteins, since they have larger aqueous volumes. With PMPC25-PDPA72 PL, it was possible to encapsulate three units of ASNase per vesicles through electroporation or pH change. In the first method, tubules were formed and in the latter one the micelles were not completely removed. For PEO100-PDPA80 PL, large aggregates remained after purification leading to a high PDI value, nevertheless no tubule formation was observed, since the pH change for this copolymer resulted in greater loss of copolymers as a precipitated polymer bulk. For the Pluronic® L-121 triblock copolymer PL, it was observed that the vesicles were stable for one week at room temperature, contrary to what was described in the literature. These PLs were prepared by film hydration method and ASNase encapsulation was performed by electroporation, nonetheless the protein was not detected within the vesicles. It is attributed the non-encapsulation to the organization of the Pluronic® L-121 bilayer without defined conformation of the polymer chains, making it difficult to reorganize the hydrophilic block in the internal portion of the pore during electroporation. By temperature change, about 5% of ASNase was encapsulated and the method resulted in complete recovery of enzyme activity. In conclusion, several PLs with a vast range of differential nanostructural characteristics were obtained according to the copolymers used for ASNase loading
Subject(s)
Asparaginase/analysis , Nanostructures/classification , Capsules , Electroporation , Precursor Cell Lymphoblastic Leukemia-Lymphoma/drug therapyABSTRACT
Electrochemotherapy is a local anticancer treatment in which non-permeant chemotherapeutic drugs are associated with electric pulses of well-established parameters. The electric pulses cause pores to open on the plasma membrane and facilitate drug transport, enhancing cytotoxicity and reducing side effects. Assessment of electrochemotherapy effects on Ehrlich solid tumor development in this work aims to evaluate in vivo usage of the electroporator device developed by the Department of Electrical Engineering of Engineering School of UFMG. Therefore, 40 Swiss mice were inoculated with Ehrlich tumor cells, and developed the tumor in solid form. After 21 days, mice were subjected to specific treatment protocols (control, bleomycin, electric pulses and electrochemotherapy); 17 days later they were euthanized and the tumors collected for histopathology analysis. Electrochemotherapy induced discrete weight loss and an inflammatory response in the tumor, which was not seen on the other treatment groups. Bleomycin alone induced necrosis. Both groups showed lower cellular proliferation rates. From this study, it was concluded that the animals tolerated electrochemotherapy treatment under anesthesia and the electroporator device developed by the Engineering School of UFMG was adequate when used in an electrochemotherapy protocol.(AU)
Eletroquimioterapia é uma modalidade de tratamento local contra o câncer em que a administração de quimioterápicos não penetrantes à membrana plasmática é associada à aplicação de pulsos elétricos com parâmetros bem estabelecidos, que abrem poros na membrana plasmática e facilitam a entrada desses fármacos nas células, aumentando sua citotoxicidade e reduzindo efeitos colaterais. A avaliação dos efeitos da eletroquimioterapia sobre o desenvolvimento do tumor sólido de Ehrlich em camundongos Swiss neste trabalho teve como objetivo testar o uso in vivo do aparelho eletroporador desenvolvido pelo Departamento de Engenharia Elétrica da Escola de Engenharia da UFMG. Para tanto, foram utilizados 40 camundongos fêmeas da linhagem Swiss, nos quais foram inoculadas células de tumor de Ehrlich, para o desenvolvimento do tumor na forma sólida. Após 21 dias, os camundongos foram submetidos ao protocolo de tratamento específico (controle, bleomicina, pulsos elétricos e eletroquimioterapia); 17 dias depois foram eutanasiados e seus tumores coletados para análise histopatológica e imuno-histoquímica. A eletroquimioterapia induziu perda de peso discreta e uma resposta inflamatória no tumor que não foi observada nos outros grupos. O grupo bleomicina apresentou maior porcentagem de necrose. Ambos os grupos apresentaram menor índice de proliferação celular. Com este estudo, pode-se concluir que o tratamento sob anestesia foi bem tolerado pelos animais e que o aparelho eletroporador desenvolvido pela Escola de Engenharia da UFMG é adequado para utilização em um protocolo de eletroquimioterapia.(AU)
Subject(s)
Animals , Female , Mice , Carcinoma, Ehrlich Tumor/therapy , Electrochemotherapy/veterinary , Electroporation/veterinaryABSTRACT
Background: Zymomonas mobilis is a Gram-negative microaerophilic bacterium with excellent ethanol-producing capabilities. The RecET recombination system provides an efficient tool for direct targeting of genes in the bacterial chromosome by PCR fragments. Results: The plasmids pSUZM2a-RecET and pSUZM2a-RecE588T were first developed to co-express RecE or RecE588 and RecT for homologous recombination. Thereafter, the PCR fragments of the tetracycline resistance marker gene flanked by 60 bp of adhA (alcohol dehydrogenase I) or adhB (alcohol dehydrogenase II) homologous sequences were electroporated directly into ZM4 cells harboring pSUZM2a-RecET or pSUZM2a-RecE588T. Both adhA and adhB were replaced by the tetracycline resistance gene in ZM4, yielding two mutant strains, Z. mobilis ZM4 ΔadhA and Z. mobilis ZM4 ΔadhB. These two mutants showed varying extent of reduction in ethanol production, biomass generation, and glucose metabolism. Furthermore, enzyme activity of alcohol dehydrogenase II in Z. mobilis ZM4 ΔadhB exhibited a significant reduction compared to that of wild-type ZM4. Conclusion: This approach provided a simple and useful method for introducing mutations and heterologous genes in the Z. mobilis genome.
Subject(s)
Zymomonas/genetics , Homologous Recombination , Plasmids , Recombination, Genetic , Alcohol Dehydrogenase/metabolism , Zymomonas/enzymology , Electroporation , Ethanol/metabolism , Gene Knockout Techniques , MutationABSTRACT
The generation of T cells with maximal anti-tumor activities will significantly impact the field of T-cell-based adoptive immunotherapy. In this report, we found that OKT3/IL-2-stimulated T cells were phenotypically more heterogeneous, with enhanced anti-tumor activity in vitro and when locally administered in a solid tumor mouse model. To further improve the OKT3/IL-2-based T cell manufacturing procedure, we developed a novel T cell stimulation and expansion method in which peripheral blood mononuclear cells were electroporated with mRNA encoding a chimeric membrane protein consisting of a single-chain variable fragment against CD3 and the intracellular domains of CD28 and 4-1BB (OKT3-28BB). The expanded T cells were phenotypically and functionally similar to T cells expanded by OKT3/IL-2. Moreover, co-electroporation of CD86 and 4-1BBL could further change the phenotype and enhance the in vivo anti-tumor activity. Although T cells expanded by the co-electroporation of OKT3-28BB with CD86 and 4-1BBL showed an increased central memory phenotype, the T cells still maintained tumor lytic activities as potent as those of OKT3/IL-2 or OKT3-28BB-stimulated T cells. In different tumor mouse models, T cells expanded by OKT3-28BB RNA electroporation showed anti-tumor activities superior to those of OKT3/IL-2 T cells. Hence, T cells with both a less differentiated phenotype and potent tumor killing ability can be generated by RNA electroporation, and this T cell manufacturing procedure can be further optimized by simply co-delivering other splices of RNA, thus providing a simple and cost-effective method for generating high-quality T cells for adoptive immunotherapy.
Subject(s)
Animals , Humans , Mice , CD28 Antigens , Genetics , Allergy and Immunology , Electroporation , Immunity, Cellular , Interleukin-2 , Allergy and Immunology , K562 Cells , Muromonab-CD3 , Allergy and Immunology , Neoplasms, Experimental , Genetics , Allergy and Immunology , Pathology , RNA, Messenger , Genetics , Allergy and Immunology , T-Lymphocytes , Allergy and Immunology , Tumor Necrosis Factor Receptor Superfamily, Member 9 , Genetics , Allergy and ImmunologyABSTRACT
BACKGROUND: In March 2013, human infection with avian influenza A (H7N9) virus emerged in China, causing serious public health concerns and raising the possibility of avian-source pandemic influenza. Thus, the development of an effective vaccine for preventing and rapidly controlling avian influenza A (H7N9) virus is needed. In this study, we evaluated the immunogenicity of a synthetic DNA vaccine against H7 HA antigens in mice. MATERIALS AND METHODS: The synthetic consensus H7 HA DNA vaccine (25 or 50 µg) was administered to BALB/c mice at 0, 14, and 28 days by intramuscular injection followed by electroporation. Humoral and cellular immune responses were analyzed in a hemagglutination inhibition test and interferon-gamma enzyme-linked immunospot (ELISpot) assay, respectively. RESULTS: H7 HA-vaccinated mice showed 100% seroprotection and seroconversion rate against H7N9 reassortant influenza virus after both second and third immunizations. The geometric mean titer by the hemagglutination inhibition test increased with an increasing number of immunizations. However, there was no significant difference in geometric titer between the two groups injected with 25 and 50 µg of H7 HA DNA vaccine after two (79.98 vs. 107.65, P = 0.39) and three (159.96 vs. 215.28, P = 0.18) doses. In addition, the ELISpot assay revealed that administration of H7 HA DNA vaccine induced potent interferon-gamma production from mouse splenocytes. CONCLUSIONS: This study demonstrated the humoral and cellular immunogenicity of synthetic consensus H7 HA DNA vaccine in mice. This work demonstrates the potential of the H7 HA DNA vaccine as an efficient tool for the rapid control of emerging influenza A (H7N9) virus.
Subject(s)
Animals , Humans , Mice , China , Consensus , DNA , Electroporation , Enzyme-Linked Immunospot Assay , Hemagglutination Inhibition Tests , Immunity, Cellular , Immunization , Influenza in Birds , Influenza, Human , Injections, Intramuscular , Interferon-gamma , Orthomyxoviridae , Pandemics , Public Health , SeroconversionABSTRACT
A eletroquimioterapia compreende a utilização conjunta de fármacos antineoplásicos e aplicação regional de pulsos elétricos (eletroporação), maximizando a concentração intracelular destes fármacos, assim propiciando maior ação citotóxica. A bleomicina, fármaco antimicrobiano dotado de propriedade antineoplásica, apresenta restrita penetrabilidade na membrana celular, dada a sua hidrossolubilidade. Todavia, uma vez administrada via intralesional ou intravenosa associada à eletroporação, demonstra citotoxicidade potencializada. Foram utilizados 21 felinos acometidos por carcinoma de células escamosas tegumentar. Padronizou-se o protocolo eletroquimioterápico empregando-se sulfato de bleomicina, pela via intravenosa, na dose de 15U/m2 de superfície corpórea. A eletroporação foi perfilada com eletrodo composto por agulhas, pulsos elétricos com tensão de 1000 V, em onda quadrada unipolar, com duração de 100 microsegundos, totalizando oito ciclos. Verificou-se remissão neoplásica integral em 21 felinos inclusos no estudo (100%). Inexistiram complicações e/ou efeitos adversos decorrentes do procedimento. O protocolo avaliado neste trabalho revelou-se exequível, eficaz e seguro na terapêutica antineoplásica de carcinoma de células escamosas tegumentar felino.
Electrochemotherapy is characterized as a protocol which combines the use of antineoplastic agents and localized application of electric pulses (electroporation) to improve the intracellular concentration of these agents, increasing its cytotoxic action. Bleomycin, an antibiotic agent with antineoplastic properties, is a hydrophilic molecule, having a restricted transport through the cellular membrane. However, when it is administered intralesionally or intravenously and associated to electroporation, its cytotoxicity is maximized. There were utilized 21 cats affected by cutaneous squamous cell carcinoma. The electrochemotherapy protocol was standardized using intravenous bleomycin sulfate at a dose of 15U/m2 body surface area. Electroporation was performed using an electrode composed of needles and electric pulses with 1000 V voltage, in unipolar square wave and 100 microseconds duration, totalizing eight cycles. There was complete neoplastic remission in 21 cats (100%). There were no complications or side effects associated with the procedure. The protocol studied in this work showed to be feasible, effective and safe for antineoplastic therapy in feline cutaneous squamous cell carcinoma.
Subject(s)
Animals , Cats , Carcinoma, Squamous Cell/drug therapy , Carcinoma, Squamous Cell/veterinary , Electroporation/veterinary , Electrochemotherapy , Electrochemotherapy/veterinary , Neoplasms/drug therapy , Neoplasms/veterinaryABSTRACT
BACKGROUNDS/AIMS: Resection or enucleation is currently the treatment of choice for small pancreatic neuroendocrine tumors (NETs). Irreversible electroporation is a novel ablative method that is used for locally advanced pancreatic adenocarcinoma, but little data exists for its use for pancreatic NETs. We report an early experience of IRE for early pancreatic NETs. METHODS: Between April 2014 and March 2015, 3 patients with small (<2 cm) pancreatic NETs were treated with percutaneous IRE. RESULTS: There were no adverse effects during the procedure. Mean hospital stay was 2.6 days. All patients remained disease free on 12-19 months follow up. One patient developed recurrent pancreatitis with pseudocyst formation. CONCLUSIONS: IRE for small tumors of the pancreas is practical and may offer advantages over other thermal ablative techniques, since it preserves vital structures such as blood vessels, bile and pancreatic ducts. Further data regarding the long term disease free interval is required to establish efficacy.