Characterization of a sigma class GST (GSTS6) required for cellular detoxification and embryogenesis in Tribolium castaneum.

The sigma glutathione S-transferases (GSTSs) are a class of cytosolic glutathione S transferases (GSTs) that play important roles in antioxidant defense in insects, but the mechanisms by which GSTSs contribute to antioxidant activity remain unclear. Here, we isolated a GSTS (GSTS6) from Tribolium castaneum and explored its function. Homology and phylogenetic analysis revealed that TcGSTS6 shared high identity with other evolutionarily conserved GSTSs. The recombinant TcGSTS6 protein had strong activity toward cumene hydroperoxide and 4-hydroxynonenal but low activity toward the universal substrate 1-chloro-2,4-dinitrobenzene. Exposure to various types of oxidative stress, including heat, cold, UV and pathogenic microbes, significantly induced TcGSTs6 expression, which indicates that it is involved in antioxidant defense. Knockdown TcGSTs6 by using RNA interference (RNAi) caused reduced antioxidant capacity, which was accomplished by cooperating with other antioxidant genes. Moreover, treatment with various insecticides such as phoxim, lambda-cyhalothrin, dichlorvos and carbofuran revealed that TcGSTS6 plays an important role in insecticide detoxification. The RNAi results showed that TcGSTS6 is essential for embryogenesis in T. castaneum. Our study elucidates the mechanism by which a GSTS contributes to antioxidant activity and enhances our understanding of the functional diversity of GSTSs in insects.

Interaction of heat shock protein 60 (HSP60) with microRNA in Chinese mitten crab during Spiroplasma eriocheiris infection.

Heat shock protein 60 from the Chinese mitten crab Eriocheir sinensis (EsHSP60) was previously identified in relation to Spiroplasma eriocheiris infection by isobaric tags for relative and absolute quantitation labelling followed by liquid chromatography-tandem mass spectrometry. In the present study, to validate the immune function of this protein, the cDNA of the EsHSP60 gene was cloned. Various crab tissues were assessed using real-time PCR, which showed that EsHSP60 transcription occurred in all tissues examined. The expression profiles of EsHSP60 in haemolymph at transcription and protein levels when infected with S. eriocheiris were investigated by real-time PCR and Western blot analysis, respectively. A significant increase of EsHSP60 transcription and protein expression appeared post-injection in response to S. eriocheiris infection when compared to the control group. The double-luciferase reporter gene assay showed that the microRNA PC-533-3p interacted with the 3'-untranslated region of EsHSP60 and inhibited the translation of EsHSP60. The expression profiles of PC-533-3p during S. eriocheiris infection were also investigated by real-time PCR. However, the change tendency of PC-533-3p was opposite to that of the EsHSP60 after S. eriocheiris challenge. These data indicate that the EsHSP60 proteins may play an important role in mediating the immune responses of E. sinensis to an S. eriocheiris challenge.

A simple kinetic model for myeloma cell culture with consideration of lysine limitation.

A simple kinetic model is developed to describe the dynamic behavior of myeloma cell growth and cell metabolism. Glucose, glutamine as well as lysine are considered as growth limiting substrates. The cell growth was restricted as soon as the extracellular lysine is exhausted and then intracellular lysine becomes a growth limiting substrate. In addition, a metabolic regulator model together with the Monod model is used to deal with the growth lag phase after inoculation or feeding. By using these models, concentrations of substrates and metabolites, as well as densities of viable and dead cells are quantitatively described. One batch cultivation and two fed-batch cultivations with pulse feeding of nutrients are used to validate the model.

[Comparison of adsorbent with varying arm length and ligand density for the purification of recombinant hepatitis B virus surface antigen].

Novel hydrophobic absorbents were synthesized by immobilizing butyl derivative onto the highly cross-linked agarose beads manufatured in China, which are used as matrix. The effect of the spacer arm length (3C, 8C and 10C) and ligand density (from 13 to 45 micromol/mL) on the hydrophobicity were investigated using purified Hepatitis B surface antigen (HBsAg) expressed by CHO cell lines. Also considering the effects of salt concentration and pH on HBsAg recovery and purification factor, orthogonal experiment design method was used to evaluated the absorbents. The results showed the butyl-S absorbent with the spacer arm length of C8, the ligand density of 22 micromol/mL gel showed the best performance for the separation of HBsAg. Approximately 100% HBsAg recovery and 60 as purification fold were achieved by this media under the operating condition of pH 7.0 and 9% of salt concentrateion.

A population balance model describing the cell cycle dynamics of myeloma cell cultivation.

A multi-staged population balance model is proposed to describe the cell cycle dynamics of myeloma cell cultivation. In this model, the cell cycle is divided into three stages, i.e., G1, S, and G2M phases. Both DNA content and cell volume are used to differentiate each cell from other cells of the population. The probabilities of transition from G1 to S and division of G2M are assumed to be dependent on cell volume, and transition probability from S to G2M is determined by DNA content. The model can be used to simulate the dynamics of DNA content and cell volume distributions, phase fractions, and substrate and byproduct concentrations, as well as cell densities. Measurements from myeloma cell cultivations, especially the FACS data with respect to DNA distribution and cell fractions in different stages, are employed for model validation.

[Development of a new hydrophobic interaction chromatography absorbent and its application to the purification of recombinant hepatitis B surface antigen].

A new hydrophobic absorbent based on homemade highly cross-linked agarose beads was synthesized by immobilizing butyl derivative onto the matrix linkage. The density of ligand was controlled by adjusting the concentration of butanethiol and the synthesis route was optimized by evaluating the purification efficiency of recombinant Hepatitis B surface antigen (HBsAg) expressed by Chinese hamster ovary (CHO) cell line. A high performance absorbent was finally screened out with up to 80% of HBsAg recovery and purification-fold (PF) about 20. Furthermore, the column pressure was about 0.06 MPa under the flow rate of 500cm/h, and no leaked butyl were detected after exposing the gel in common buffers, chaotropic agents, high concentrations of denaturing agents such as guanidine hydrochloride, urea and polar organic solvents. These results demonstrated that the absorbent have high physico-chemical stability, so it was available for the downstream process. Finally, after scaled up to 2L wet gel/batch, the absorbent was applied to the integration of three-step chromatography and obtained the purified CHO-HBsAg with 95% purity by SDS-PAGE and HPLC, which meet the requirements of SFDA. The purification efficiency and the reproducible ability of the absorbents were also evaluated from batch-to-batch. The results demonstrated that the absorbent met the requirement of scalable, reproducible, economic effect as well. This absorbent is a promising alternative exported HIC gel for wildly being used in Chinese pharmaceutical industries.

A cyanopropyl reversed phase chromatography enables resolution of huperzine A and B on analytical and preparative scales.

Huperzine A (HupA) and huperzine B (HupB) are two medically important components of Huperzia serrata. It is difficult to obtain high yields of the separation from the plant using conventional liquid extraction and chromatography. However, this study has found that RP chromatography with cyanopropyl (CN) medium was able to separate these two analogs simultaneously from the plant extract with higher resolution. Comparison between a CN medium and a popular C18 medium demonstrated the superiority of the CN over the C18 in resolution for both analytical and preparative separation of HupA and HupB. A preparative process was developed for simultaneous purification of HupA and HupB from H. serrata. The yields on the basis of the mass of the herbal powder for HupA and HupB were 0.019 and 0.008% respectively, which were about 1.9 and 10 times of those reported in the literature.

[Separation and purification of PEGylated rhG-CSF by two-step ion-exchange chromatography].

In order to separate and purify the PEGylated recombinant human granulocyte stimulating factor (rhG-CSF) at large laboratory-scale level, a two-step ion-exchange chromatographic separation procedure was designed. Cation-exchange chromatography was applied first to separate PEGylated rhG-CSF from un-reacted rhG-CSF, followed by anion-exchange chromatography to dissolve individual PEG-rhG-CSF species (mono-, di- and tri-PEGylated rhG-CSF) and remove the free PEG. The molecular weight of individual PEGylated rhG-CSF was determined by MALDI-TOF and SDS-PAGE. MALDI-TOF mass spectrometry revealed that the molecular weights of mono-, di- and tri-PEGylated rhG-CSF are 23.8 kD, 28.6kD and 33.8kD, respectively. Cell proliferation activity was detected by MTT assay using NFS-60 cell. The in vitro residual bioactivity of mono-, di- and tri-PEGylated rhG-CSF were 90%, 75% and 43% respectively, comparing with the un-conjugated rhG-CSF. These results indicated that the un-conjugated rhG-CSF and excess free PEG can be removed completely and the three conjugate species can be purified into homogeneity by the two consecutive ion-exchange chromatographic steps. The purification procedure is easy to scale-up, high in performance and recovery.

[Polyethylene glycol-accompanied ion-exchange chromatography to purify recombinant hepatitis B virus surface antigen].

The dissociation of virus-like particles of Hepatitis B surface antigen (HBsAg) during the adsorption-desorption on the solid-phase of chromatography is a main challenge for its purification. Herein, poly (ethylene glycol) (PEG) was applied as an additive during the purification of HBsAg from recombinant Chinese hamster ovary (CHO) cell culture to improve the HBsAg recovery and protect its structural assembly. The presence of 1% of PEG10000 in the mobile phase of ion-exchange chromatography (IEC) of DEAE-Sepharose FF column could increase the recovery of HBsAg from about 55% to 80%, with a similar purification (-fold) (about 12) compared with the absence of PEG. Importantly, glycosylated protein forms of HBsAg were reserved well by PEG-accompanied chromatography. Furthermore, size exclusion chromatography-multiangle laser light scattering (SEC-MALLS) analysis was performed on line to monitor the aggregates, particle size and molecular weight distribution of HBsAg. The results demonstrated that the HBsAg particle size and assembly are more homogenous after adding PEG in the mobile phase of IEC than no PEG added in the mobile phase.

Uncoupling of cell growth and proliferation results in enhancement of productivity in p21CIP1-arrested CHO cells.

Chinese hamster ovary cells have been engineered to inducibly over-express the p21(CIP1) cyclin-dependent kinase inhibitor, to achieve cell cycle arrest and increase cell productivity. In p21(CIP1)-arrested cells production of antibody from a stably integrated lgG4 gene, was enhanced approximately fourfold. The underlying physiological basis for enhanced productivity was investigated by measuring a range of cellular and metabolic parameters. Interestingly, the average cell volume of arrested cells was approximately fourfold greater than that of proliferating cells. This was accompanied by significant increases in mitochondrial mass, mitochondrial activity, and ribosomal protein S6 levels. Our results suggest that p21(CIP1)-induced cell cycle arrest uncouples cell growth from cell-cycle progression, and provides new insight into how improved productivity can be achieved in a cell line commonly used for large-scale production of pharmaceutical proteins.

Human c-fos promoter mediates high-level, inducible expression in various mammalian cell lines.

The promoter activity of the human c-fos and human cytomegalovirus (CMV) immediate early promoter was compared in transient and stable transfection experiments with six cell lines of mouse, human, and hamster origin which are all of commercial importance. The c-fos promoter was 1.8-5.6-fold stronger than the CMV promoter in BHK-A, BHK-B, CHO-DHFR(-), and mouse NIH-3T3 in stable transfectants and less effective in mouse myeloma or human 293 cells, suggesting a new transcriptional control element for high-level expression and protein production in mammalian cells. The induction profiles determined in the presence and absence of serum are dependent on the cell line used. Induction levels of up to 8-fold could be achieved in preselected cell pools.