Bioprocess optimization of interferon ß-1-a in Pichia pastoris and its improved inhibitory effect against hepatocellular carcinoma cells

Interferon-ß-1a (INF-ß-1a) has gained significant attention due to its emerging applications in the treatment of different human diseases. Therefore, many researchers have attempted to produce it in large quantities and also in a biologically active form using different expression systems. In the present study, we aimed to improve the expression level of INF-ß-1a by Pichia pastoris using optimization of culture conditions. The codon-optimized INF-ß- 1a gene was cloned into pPICZαA plasmid under the control of alcohol oxidase I (AOX1) promoter. The protein expression was induced using different concentrations of methanol at different pHs and temperatures. The biological activity of produced protein was evaluated by anti-proliferative assay. The ideal culture conditions for the expression of INF-ß-1a by P. pastoris were found to be induction with 2% methanol at pH 7.0 culture medium at 30 C which yielded a concentration of 15.5 mg/L INF-ß-1a in a shake flask. Our results indicate that differences in glycosylation pattern could result in different biological activities as INF- ß-1a produced by P. pastoris could significantly more reduce the cell viability of HepG-2 cells, a hepatocellular carcinoma cell line, than a commercially available form of this protein produced by CHO

Quantum dots induced interferon beta expression via TRIF-dependent signaling pathways by promoting endocytosis of TLR4.

Quantum dots (QDs) are nano-sized semiconductors. Previously, intratracheal instillation of QD705s induces persistent inflammation and remodeling in the mouse lung. Expression of interferon beta (IFN-ß), involved in tissue remodeling, was induced in the mouse lung. The objective of this study was to understand the mechanism of QD705 induced interferon beta (IFN-ß) expression. QD705-COOH and QD705-PEG increased IFN-ß and IP-10 mRNA levels during day 1 to 90 post-exposure in mouse lungs. QD705-COOH increased IFN-ß expression via Toll/interleukin-1 receptor domain-containing adapter protein (TRIF) dependent Toll-like receptor (TLR) signaling pathways in macrophages RAW264.7. Silencing TRIF expression with siRNA or co-treatment with a TRIF inhibitor tremendously abolished QD705s-induced IFN-ß expression. Co-treatment with a TLR4 inhibitor completely prevented IFN-ß induction by QD705-COOH. QD705-COOH readily entered cells, and co-treatment with either inhibitors of endocytosis or intracellular TLRs prevented IFN-ß induction. Thus, activation of the TRIF dependent TLRs pathway by promoting endocytosis of TLR4 is one of the mechanisms for immunomodulatory effects of nanoparticles.

Mir-302c mediates influenza A virus-induced IFNß expression by targeting NF-κB inducing kinase.

Little is known about the role of microRNA during influenza A virus (IAV) infection. We observed that NIK 3'UTR luciferase activity was elevated during IAV infection. Further studies demonstrated that miR-302c reduced NIK expression, resulting in the reduction of IFNß mRNA expression. We found that miR-302c prevented the translocation of NF-κB from the cytosol to the nucleus. Furthermore, IAV infection downregulated miR-302c expression, leading to the activation of IFNß expression and the inhibition of viral replication. Compared to miR-302c, miR-520e cannot promote viral replication and production, although the two microRNAs target the same site of the NIK 3'UTR. Collectively, our work defines a novel signaling pathway implicated in the control of IFNß mRNA expression during IAV infection.

Immunostimulatory Defective Viral Genomes from Respiratory Syncytial Virus Promote a Strong Innate Antiviral Response during Infection in Mice and Humans.

Human respiratory syncytial virus (RSV) is a major cause of severe respiratory illness in children and susceptible adults. RSV blocks the development of the innate antiviral immune response and can grow to high titers in the respiratory tract. Here we demonstrate that immunostimulatory defective viral genomes (iDVGs) that are naturally generated during RSV replication are strong inducers of the innate antiviral response to RSV in mice and humans. In mice, RSV iDVGs stimulated the expression of antiviral genes, restricted viral replication, and prevented weight loss and lung inflammation. In human cells, the antiviral response to RSV iDVGs was dominated by the expression of IFN-λ1 over IFN-ß and was driven by rapid intranuclear accumulation of the transcription factor IRF1. RSV iDVGs were detected in respiratory secretions of hospitalized patients, and their amount positively correlated with the level of expression of antiviral genes in the samples. Infection of explanted human lung tissue from different donors revealed that most humans can respond to RSV iDVGs and that the rate of accumulation of iDVGs during infection directly correlates with the quality of the antiviral response. Taken together, our data establish iDVGs as primary triggers of robust antiviral responses to RSV and provide the first evidence for an important biological role for naturally occurring iDVGs during a paramyxovirus infection in humans.

Monthly corticosteroids decrease neutralizing antibodies to IFNbeta1 b: a randomized trial in multiple sclerosis.

Neutralizing antibodies (NAB) to interferon beta (IFNbeta) occur in some multiple sclerosis (MS) patients, particularly during the first year of treatment. The presence of NAB may be associated with an attenuation of the therapeutic effect. The aim of this study was to compare the frequency of NAB occurrence in patients treated with IFNbeta-1 b with that in patients treated with IFNbeta-1 b combined with monthly pulses of intravenous methylprednisolone (MP). One hundred and sixty-one patients with relapsing-remitting MS were randomized in two treatment arms: 8 MIU of IFNbeta- 1 b subcutaneously injected every other day either alone or in combination with 1000 mg of monthly intravenous MP. NAB were evaluated at baseline and at months 3,6,9,12 and 15 by the MxA assay in a specialized laboratory. Positivity was defined as a titer of > or = 20 neutralizing units according to two different definitions: I) one or more non-consecutive positive samples, II) at least two consecutive positive samples. NAB (definition I) were observed in 26.8% of patients in the IFNbeta-1 b alone arm and in 12.1% of patients in the combination therapy arm (p = 0.05 by the chi-square test), which corresponds to a relative reduction of 54.9%, whereas according to definition II, these figures dropped to 22.5 % for the IFNbeta-1 b alone arm, and 10.6% for the combination therapy arm (relative reduction 52.9%, p = 0.10, NS). A higher probability of remaining in the NAB-free status was observed in patients treated with the combination therapy (p = 0.031 for definition I and p = 0.o49 for definition II, by the Wilcoxon-Gehan test). Methylprednisilone combined with IFNbeta-1 b reduces the incidence of neutralizing bodies to in terferon-beta during the first year of treatment in MS patients.

Cytokine-inducing activity of a proline-rich polypeptide complex (PRP) from ovine colostrum and its active nonapeptide fragment analogs.

A complex of proline-rich polypeptides (PRP) was isolated from ovine colostrum in our laboratory and was shown to possess immunomodulatory properties and psychotropic activity, including beneficial effects in the treatment of Alzheimer's disease. A nonapeptide fragment (NP): Val-Glu-Ser-Tyr-Val-Pro-Leu-Phe-Pro, isolated from the chymotryptic digestion products of PRP, and its C-terminal fragment, a hexapeptide (HP): Tyr-Val-Pro-Leu-Phe-Pro also exhibited immunoregulatory activity. Although NP and HP expressed activity similar to that of PRP in studies on humoral and cellular immune responses, in other immune processes, e.g. induction of cytokines, they showed markedly lower activity than PRP. In the search for more active peptides, in the present study, we compared the cytokine-inducing ability of PRP, NP, HP, and linear oligomers of NP or HP. For this purpose, the induction of IFN, TNF-alpha, IL-6, and IL-10 in human whole blood cell cultures was measured. NP, HP, and their oligomers showed differential effects in the induction of cytokines, generally lower than that of PRP. Only the PRP complex showed a bell-shaped dose-response dependence suggesting regulatory properties. There were no distinct differences between monomeric forms of NP (NP1) or HP (HP1) and their oligomers in the induction of IFN and TNF-alpha (Th1 cytokines) but such differences were found in the induction of IL-6 and IL-10 (Th2 cytokines). Dimer (NP2) was less active than the monomeric NP1 nonapeptide in the induction of IL-6 and IL-10. On the other hand, oligomers: HP3 and HP4, showed a significantly higher ability to induce Th2 cytokines compared to HP1, HP2 or NP peptides. This was especially evident in the case of IL-10 induction, where the activity of HP4 surpassed the activity of PRP and approached the activity of LPS-PHA. The results obtained showed that some of the peptides studied, when used at higher concentrations (100 microg/ml) may replace the PRP complex as cytokine inducers. Our data also suggest the possibility of using certain oligomers for selective induction of particular cytokines.