Establishment and characterization of a novel ovarian clear cell adenocarcinoma cell line, TU-OC-1, with a mutation in the PIK3CA gene

A new cell line of human ovarian clear cell adenocarcinoma (CCC), TU-OC-1, was established and characterized. The cells showed a polygonal-shaped morphology and grew in monolayers without contact inhibition and were arranged like a jigsaw puzzle. The chromosome numbers ranged from 64 to 90. A low rate of proliferation was observed, similar to other CCC cell lines tested (OVTOKO, RMG-I, and OVAS), and the doubling time was 38.4 h. The respective IC₅₀ values of cisplatin and paclitaxel were 12.2 μM and 58.3 nM. Mutational analysis revealed that TU-OC-1 cells harbored a PIK3CA mutation at codon 542 (E542K) in exon 9, which is a mutation hot spot on this gene. We observed that phosphorylated Akt protein was overexpressed in TU-OC-1 cells by western blot analysis. Heterotransplantation to nude mice produced tumors that reflected the original. This cell line may be useful to study the chemoresistant mechanisms of CCC and contribute to novel treatment strategies.     

Establishment and characterization of a novel uterine carcinosarcoma cell line,TU-ECS-1, with mutations of <Emphasis Type="Italic">TP53</Emphasis> and <Emphasis Type="Italic">KRAS</Emphasis>

A new human uterine carcinosarcoma (UCS) cell line, TU-ECS-1, was established and characterized. The morphological appearance of the cultured cells was an insular of epithelial-like cells arranged in the form of a jigsaw puzzle and mesenchymal-like cells with a spindle-shaped or fibroblast-like morphology. A relatively high proliferation rate was observed with a doubling time of 18.2 h. The chromosome number ranged from 44 to 49 and had an extra chromosome 12 (trisomy 12). The respective half-maximal inhibitory concentrations of cisplatin, paclitaxel, and doxorubicin were 2.9 µM, 154 nM, and 219 ng/mL, respectively. Mutational analysis revealed that TU-ECS-1 cells have mutations of TP53 in exons 4, 6, and 8 and of KRAS at codon 12 (G12D) in exon 2, which is a mutation hot spot on this gene. Western blot analysis showed that p53 protein was overexpressed in TU-ECS-1 cells. Immunostaining of the cultured cells and in vivo tumors showed that the TU-ECS-1 cells and xenografts were positive for epithelial marker cytokeratin AE1/3 and mesenchymal marker vimentin. These results suggested that TU-ECS-1 cells might have both epithelial and mesenchymal characteristics. This cell line may be useful to study the carcinogenesis of UCS and contribute to the development of novel treatment strategies.     

Establishment and characterization of a novel ovarian serous adenocarcinoma cell line, TU-OS-4, that overexpresses EGFR and HER2

A new line of human ovarian serous adenocarcinoma cells, TU-OS-4, was established and characterized. The cells showed a short, spindle-shaped morphology and grew in monolayers without contact inhibition while forming an arrangement resembling a jigsaw puzzle. Chromosome numbers ranged from 55 to 73. The proliferation rate was lower than other serous adenocarcinoma cell lines tested (KF, SHIN-3, and SK-OV-3), and the doubling time was 53.3 h. Western blot analysis showed that TU-OS-4 cells overexpressed epidermal growth factor receptor, human epidermal growth factor receptor (HER) 2, and phosphorylated HER2 protein. The IC₅₀ values to cisplatin, paclitaxel, and lapatinib were 25.8 μM, 686 nM, and 183 nM, respectively. Heterotransplantation in nude mice reflected the original tumor of the cells. These results suggested that this cell line would be useful to study chemoresistant mechanisms and contribute to establishing novel treatment strategies for patients with ovarian cancer.     

A new epithelial cell line,HBF from caudal fin of endangered yellow catfish,Horabagrus brachysoma (Gunther, 1864)

A new epithelial cell line, Horabagrus brachysoma fin (HBF), was established from the caudal fin tissue of yellow catfish, H. brachysoma and characterized. This HBF cell line was maintained in Leibovitz’s-15 medium supplemented with 15 % fetal bovine serum (FBS) and subcultured more than 62 times over a period of 20 months. The HBF cell line consists predominantly of epithelial cells and is able to grow at temperatures between 20 and 35 °C with an optimum temperature of 28 °C. The growth rate of these cells increased as the proportion of FBS increased from 5 to 20 % at 28 °C with optimum growth at the concentrations of 15 % FBS. Partial amplification and sequencing of fragments of two mitochondrial genes 16S rRNA and COI confirmed that HBF cell line originated from yellow catfish. The HBF cells showed strong positive reaction to the cytokeratin marker, indicating that it was epithelial in nature. HBF cell line was inoculated with tissue homogenate from juveniles of Sea bass, Lates calcarifer infected with viral nervous necrosis virus (VNNV) and found not susceptible to VNNV. The extracellular products of Vibrio cholerae MTCC 3904 were toxic to the HBF cells. These cells were confirmed for the absence of Mycoplasma sp by PCR.     

Enhancement of paclitaxel content in induced tetraploid <Emphasis Type="Italic">Corylus avellana</Emphasis> L. cell suspension culture with regulating the expression of genes in paclitaxel biosynthetic pathway

During recent years, hazel cell suspension culture has been significantly considered as a new important source of paclitaxel. Artificial polyploidy alters different characters in plants which results in amplifying the secondary metabolites in medicinal plants. In this paper, the effects of tetraploidy induction on paclitaxel content and gene expression in hazel cell suspension culture were investigated. Various concentrations of colchicine and duration of exposure in solid and liquid media were examined and the ploidy level of cells was determined using flow cytometric analysis. The tetraploid cells were obtained from 0.2% colchicine in the exposure time of 5 and 6 days in solid medium and 0.3% colchicine in the exposure time of 3 and 4 days in liquid medium. Tetraploid cells were employed to prepare cell suspension. 3 µM of phenylalanine and 0.05 mM of vanadyl sulfate were added to both tetraploid and diploid (control) suspension to elicit paclitaxel induction. High performance liquid chromatography analysis demonstrated that the tetraploid cell suspensions produced paclitaxel of about [9.88 µg g^?1 (DW)] 1.7-fold compared with diploid cells [5.74 µg g^?1 (DW)]. The application of phenylalanine and vanadyl sulfate increased the concentration of paclitaxel in both diploid and tetraploid cells. Moreover, qRT-PCR analysis showed that the expression of GGPPS gene was significantly increased and PAL gene expression was altered after tetraploidization.     

Nutritional demands and metabolic characteristics of the DSIR-HA-1179 insect cell line during growth and infection with the <Emphasis Type="Italic">Oryctes</Emphasis> nudivirus

The DSIR-HA-1179 coleopteran cell line has been identified as a susceptible and permissive host for the in vitro replication of the Oryctes nudivirus, which can be used as a biopesticide against the coconut rhinoceros beetle, pest of palms. The major challenge to in vitro large-scale Oryctes nudivirus production is ensuring process economy. This rests, among other requisites, on the use of low-cost culture media tailored to the nutritional and metabolic needs of the cell line, both in uninfected and infected cultures. The aim of the present study was to characterize the nutritional demands and the metabolic characteristics of the DSIR-HA-1179 cell line during growth and subsequent infection with Oryctes nudivirus in the TC-100 culture medium. Serum-supplementation of the culture medium was found to be critical for cell growth, and addition of 10% fetal bovine serum v/v led to a maximum viable cell density (16.8 × 10⁵ cells ml^?1) with a population doubling time of 4.2 d. Nutritional and metabolic characterization of the cell line revealed a trend of glucose and glutamine consumption but minimal uptake of other amino acids, negligible production of lactate and ammonia, and the accumulation of alanine, both before and after infection. The monitoring of virus production kinetics showed that the TC-100 culture medium was nutritionally sufficient to give a peak yield of 7.38 × 10⁷ TCID₅₀ ml^?1 of OrNV at the 6th day post-infection in attached cultures of DSIR-HA-1179 cells in 25 cm² T-flasks. Knowledge of the cell line’s nutritional demands and virus production kinetics will aid in the formulation of a low-cost culture medium and better process design for large-scale OrNV production in future.     

Paclitaxel administration and its effects on clinically relevant human cancer and non cancer cell lines

Comparisons of the effects of clinically relevant concentrations of the anticancer agent paclitaxel on growth, viability, and apoptosis were determined using in vitro human cell cultures. Growth of the cervical cancer cell line, HeLa-S3, was significantly reduced, and apoptotic index was significantly increased, after 24 h in cultures treated with 12 nM paclitaxel. In contrast, hepatic carcinoma (HEpG2) cells capable of detoxifying paclitaxel were only affected at paclitaxel concentrations ge120 nM. The previously uncharacterized non-cancerous human microvessel endothelial cell line HMEC-1, was more sensitive to paclitaxel treatment than both HeLa-S3 and HEpG2 cells, demonstrating decreased growth and increased apoptosis with 1.2 nM paclitaxel. These results are significant in the design of in vitro cell culture systems to study drug metabolism and toxicity.     

Efficient expression of functional human coagulation factor IX in stably-transfected <Emphasis Type="Italic">Drosophila melanogaster</Emphasis> S2 cells; comparison with the mammalian CHO system

Objective

To compare stably-transfected Drosophila melanogaster S2 and mammalian Chinese hamster ovary (CHO) cells for the expression and secretion efficiency of biologically-active human coagulation factor IX (hFIX).

Result

Selection of an hFIX-expressing cell line derived from stably-transfected S2 cells was performed over 2 weeks, while the same procedure required 2 months for stably-transfected CHO cells. Furthermore, the selected S2 cell line was superior in producing of total hFIX protein (70 % increase), biologically-active hFIX (35 % increase), and specific hFIX activity (20 % increase) relative to the selected CHO cell line. Enrichment for functional, fully γ-carboxylated hFIX species via barium citrate adsorption demonstrated that up to 90 % of the hFIX expressed by S2 cells was γ-carboxylated versus 79 % of CHO-expressed hFIX. Inhibition of N-glycosylation by tunicamycin indicated that N-glycosylation of S2-expressed hFIX had occurred to a similar extent as in the CHO-produced hFIX.

Conclusion

The Drosophila S2 cell system is an attractive candidate for the efficient production of recombinant hFIX as it has the potential of significantly reducing the cell development time, while producing functional hFIX.

     

Brassinosteroids improve photosystem II efficiency,gas exchange,antioxidant enzymes and growth of cowpea plants exposed to water deficit

Water deficit is considered the main abiotic stress that limits agricultural production worldwide. Brassinosteroids (BRs) are natural substances that play roles in plant tolerance against abiotic stresses, including water deficit. This research aims to determine whether BRs can mitigate the negative effects caused by water deficiency, revealing how BRs act and their possible contribution to increased tolerance of cowpea plants to water deficit. The experiment was a factorial design with the factors completely randomised, with two water conditions (control and water deficit) and three levels of brassinosteroids (0, 50 and 100 nM 24-epibrassinolide; EBR is an active BRs). Plants sprayed with 100 nM EBR under the water deficit presented significant increases in Φ_PSII, q_P and ETR compared with plants subjected to the water deficit without EBR. With respect to gas exchange, P _N, E and g _s exhibited significant reductions after water deficit, but application of 100 nM EBR caused increases in these variables of 96, 24 and 33%, respectively, compared to the water deficit + 0 nM EBR treatment. To antioxidant enzymes, EBR resulted in increases in SOD, CAT, APX and POX, indicating that EBR acts on the antioxidant system, reducing cell damage. The water deficit caused significant reductions in Chl a, Chl b and total Chl, while plants sprayed with 100 nM EBR showed significant increases of 26, 58 and 33% in Chl a, Chl b and total Chl, respectively. This study revealed that EBR improves photosystem II efficiency, inducing increases in Φ_PSII, q_P and ETR. This substance also mitigated the negative effects on gas exchange and growth induced by the water deficit. Increases in SOD, CAT, APX and POX of plants treated with EBR indicate that this steroid clearly increased the tolerance to the water deficit, reducing reactive oxygen species, cell damage, and maintaining the photosynthetic pigments. Additionally, 100 nM EBR resulted in a better dose–response of cowpea plants exposed to the water deficit.     

Measurement of individual cell strength of <Emphasis Type="Italic">Botryococcus braunii</Emphasis> in cell culture

Botryococcus braunii is a microalga considered for biofuel production and may require physical disruption of cells/colonies for efficient hydrocarbon extraction. In this study, the strength of individual cells of B. braunii was measured using a nanoindenter. From the load and cell size, the pressure for bursting the cell was calculated to be 56.9 MPa. This value is 2.3–10 times those of Saccharomyces cerevisiae and Chlorella vulgaris found in another research, because B. braunii has two types of cell walls with different thicknesses. The energy required to disrupt 1 g of dry B. braunii cells, estimated by load-displacement curves, is 3.19 J g^?1 which is 0.19–1.2 times higher than those of S. cerevisiae and C. vulgaris. When using a high-pressure homogenizer for disrupting B. braunii cells, the cell disruption degree increased with the treatment pressure at above 30 MPa, and 70% of cells were disrupted at 80 MPa.     

Evaluation of in vitro antioxidant and anticancer activity of <Emphasis Type="Italic">Allophylus cobbe</Emphasis> leaf extracts on DU-145 and PC-3 human prostate cancer cell lines

Allophylus cobbe (L.) Raeusch. belonging to the family Sapindaceae, is a commonly distributed small shrub in Western Ghats of India previously reported for its traditional medicinal properties. It is used for the treatment of various ailments. The present study is aimed at investigating preliminary phytochemicals, inducing the determination of the total phenolic contents, antioxidant assays and anticancer activity of A. cobbe leaf extracts on (DU-145) and (PC-3) cell lines. Preliminary phytochemical screening showed a broad spectrum of secondary metabolites. Highest amount of phenolic content was present in aqueous extract (91.96 ± 0.61 mg/g GAE) and it also proved to have the most potent antioxidant activity at a concentration of 100 mg/ml (64.71 ± 0.15%). IC₅₀ value was (431.10 ± 15.05 µg/mL) for DU-145 and (362.08 ± 24.17 µg/mL) for PC-3 cell lines while the standard drug paclitaxel showed an IC₅₀ value of 0.3 µM/mL. Morphological changes was observed in cancerous cells undergoing apoptosis in human prostate cancer cell lines (DU-145 and PC-3) while the extract showed no cytotoxicity towards normal cells (MEF-L929). It can be concluded that the tested extracts holds significant antioxidant and anticancer activities. However further investigation on lead compounds of A. cobbe will enable its therapeutic use.     

Targeted delivery of vitamin D3-loaded nanoparticles to C6 glioma cell line increased resistance to doxorubicin,epirubicin, and docetaxel in vitro

In recent years, targeted delivery systems have been used along with combinatorial therapy to decrease drug resistance and increase cancer therapy efficacy. The anti-proliferative effects of vitamin D3 (VD3) on cancerous cells, such as C6 glioma, with active hedgehog pathways raised the question as to whether pre-targeting C6 glioma cells with VD3-loaded nanoparticles (VD3NPs) can enhance the anti-tumor effects of doxorubicin, epirobicin, and docetaxel on this drug-resistant cell line. Here, studying at cellular, nuclear, protein, and gene levels we demonstrated that VD3NP-doxorubicin and VD3NP-epirobicin combinations increased the probability of chemotherapy/radiotherapy resistance and cancer stem cell (CSC) properties in C6 glioma significantly (P < 0.05), compared to doxorubicin and epirobicin alone. However, VD3NP-docetaxel combination may have the potential in sensitizing C6 cells to ionizing irradiation, but this combination also increased the CSC properties and the probability of drug resistance significantly (P < 0.05), compared to docetaxel alone. Although our previous study showed that targeted delivery of VD3 reduced the rate of proliferation significantly (P < 0.05) in C6 glioma cells (a drug-resistant cell line), here we concluded that combinatorial therapy of exogenous VD3 with doxorubicin, epirobicin, and docetaxel not only did not lead to the enhancement of cytotoxic effects of the aforementioned drugs but also increased the cancerous characteristics in C6 glioma, in vitro.     

Deciphering the role of the AT-rich interaction domain and the HMG-box domain of ARID-HMG proteins of Arabidopsis thaliana

ARID-HMG DNA-binding proteins represent a novel group of HMG-box containing protein family where the AT-rich interaction domain (ARID) is fused with the HMG-box domain in a single polypeptide chain. ARID-HMG proteins are highly plant specific with homologs found both in flowering plants as well as in moss such as Physcomitrella. The expression of these proteins is ubiquitous in plant tissues and primarily localises in the cell nucleus. HMGB proteins are involved in several nuclear processes, but the role of ARID-HMG proteins in plants remains poorly explored. Here, we performed DNA-protein interaction studies with Arabidopsis ARID-HMG protein HMGB11 (At1g55650) to understand the functionality of this protein and its individual domains. DNA binding assays revealed that AtHMGB11 can bind double-stranded DNA with a weaker affinity (K_d?=?475?±?17.9 nM) compared to Arabidopsis HMGB1 protein (K_d?=?39.8?±?2.68 nM). AtHMGB11 also prefers AT-rich DNA as a substrate and shows structural bias for supercoiled DNA. Molecular docking of the DNA-AtHMGB11 complex indicated that the protein interacts with the DNA major groove, mainly through its ARID domain and the junction region connecting the ARID and the HMG-box domain. Also, predicted by the docking model, mutation of Lys⁸⁵ from the ARID domain and Arg¹⁹⁹ & Lys²⁰² from the junction region affects the DNA binding affinity of AtHMGB11. In addition, AtHMGB11 and its truncated form containing the HMG-box domain can not only promote DNA mini-circle formation but are also capable of inducing negative supercoils into relaxed plasmid DNA suggesting the involvement of this protein in several nuclear events. Overall, the study signifies that both the ARID and the HMG-box domain contribute to the optimal functioning of ARID-HMG protein in vivo.     

An angiotensin-converting enzyme-inhibitory metabolite with partial structure of microginin in a cyanobacterium <Emphasis Type="Italic">Anabaena fertilissima</Emphasis> CCC597, producing fibrinolytic protease

Whole cell matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) of Anabaena fertilissima CCC597 revealed the presence of a microginin (M _r?=?565 Da), which was purified using ODS C18 solid-phase extraction followed by quaternary methyl ammonium (QMA)-ion exchange and reverse-phase liquid chromatography. Its partial structure was deduced upon LC-MS/MS as β-amino-α-hydroxy-decanoic acid-Ala-MeLeu-Tyr. Microginin-565 inhibited rabbit angiotensin-converting enzyme activity at an apparent IC₅₀?=?9.8 μM.