Transient expression of murine interferon-alpha genes in mouse and monkey cells

Role of KSRP in control of type I interferon and cytokine expression

Cytokines and chemokines are key participants in pathways that drive inflammatory, immune, and other cellular responses to exogenous insults such as infection, trauma, and physiological stress. Persistent and aberrant expression of these factors has been linked to autoimmune, degenerative, and neoplastic diseases. Consequently, cytokine and chemokine expression is tightly governed at each level of gene regulation. Recent studies have demonstrated a role for KH-type splicing regulatory protein (KSRP) in curtailing cytokine and chemokine expression through transcriptional and post-transcriptional mechanisms, including promotion of microRNA maturation. Understanding the role of KSRP in cytokine mRNA metabolism should identify promising targets for the modulation of immune and inflammatory responses.

Generation and analysis of an androgen-responsive myoblast cell line indicates that androgens regulate myotube protein accretion

Androgens have anabolic actions in skeletal muscle and could potentially act to: (a) increase proliferation of myoblasts; (b) delay differentiation to myotubes; and (c) induce protein accretion in post-proliferative myofibers. To identify the site of androgens action, we investigated the proliferative response of the C2C12 mouse myoblast cell line to testosterone and dihydrotestosterone (DHT) treatment. Neither androgens affected cell proliferation after up to 7 days treatment, nor was there a synergistic effect of androgens on the proliferative response of C2C12 cells to IGF-I treatment. However, proliferating C2C12 cells expressed 0.1% of the level of androgen receptor (AR) mRNA found in adult mouse gastrocnemius muscle (p<0.01). Therefore, we generated mouse C2C12 myoblast cell lines stably transfected with the mouse AR cDNA driven by the SV40 promoter (C2C12-AR). C2C12-AR cell proliferation, differentiation, and protein content were analyzed in response to androgen treatment. Our data demonstrated that androgen treatment does not alter either proliferation rate or differentiation rate of C2C12-AR cells. However, treatment of differentiated C2C12-AR myotubes with 100 nM DHT for 3 days caused a 20% increase in total protein content vs vehicle treatment (p<0.05). This effect was not observed in control C2C12 cells transfected with empty vector. These data suggest that androgens act via the AR to upregulate myotube protein content. This model cell line will be useful to further investigate the molecular mechanisms via which androgens regulate protein accretion.

Post-transcriptional control of the interferon system

The interferon (IFN) system is a well-controlled network of signaling, transcriptional, and post-transcriptional processes that orchestrate host defense against microbes. The IFN response comprises a multi-array of IFN-stimulated gene products that mediate a variety of biological processes designed to control infection and regulate specific immune responses. In this review, we focus on post-transcriptional mechanisms of gene regulation that occur during the course of IFN induction and during the response of cells to IFN. Post-transcriptional mechanisms involve different levels of regulation such as mRNA stability, alternative splicing, and translation. Such controls offer a fine tuning mechanism for efficient and rapid response and as a negative feedback control in IFN biosynthesis and response.

Antiviral activity of transiently expressed IFN-kappa is cell-associated

Most type I interferons (IFNs) are expressed by the majority of cell types in response to viral infection. In contrast, IFN-kappa has been reported to have a cellular distribution limited to keratinocytes and certain lymphoid cell populations. Recombinant expressed IFN-kappa has been shown previously to possess weak antiviral activity when directly compared with IFN-beta. In order to expand on the antiviral potential of IFN-kappa, we transiently transfected human cell lines to circumvent the need to purify recombinant proteins and to avoid the possible loss of biologic activity by the purification process. We evaluated the transcriptional signaling and antiviral activity of IFN-kappa in parallel with IFN-alpha2b with mammalian expression vectors to express each protein transiently. Both IFN-kappa and IFN-alpha2b exhibited comparable transcriptional and antiviral activities. However, in contrast to IFN-alpha2b transcriptional signaling and antiviral activity, IFN-kappa activity was not detectable in conditioned cell culture medium. Subsequent experiments revealed there was a direct relationship between IFN-kappa-expressing cells and antiviral activity. These results were confirmed in immunocytochemical studies. Furthermore, IFN-kappa exhibited cell-associated antiviral activity against a hepatitis C virus (HCV) replicon cell line. This novel IFN signaling strategy may represent an important distinct and divergent mechanism for limiting viral infections.

D2 dopamine receptor and GABA(A) receptor beta3 subunit genes and alcoholism

As the dopaminergic and GABAergic systems have been implicated in alcohol-related behaviors, variants of the D2 dopamine receptor (DRD2) and GABA(A) receptor beta3 subunit (GABRB3) genes were determined in a population-based association study of Caucasian non-alcoholic and alcoholic subjects. In severe alcoholics, compared to non-alcoholics, a significant increase was found in the prevalence (P = 1.7 x 10(-5)) and frequency (P = 1.6 x 10(-5)) of the DRD2 minor (A1) allele. Moreover, a significant progressive increase was observed in A1 allelic prevalence (P = 3.1 x 10(-6)) and frequency (P = 2.7 x 10(-6)) in the order of non-alcoholics, less severe and severe alcoholics. In severe alcoholics, compared to non-alcoholics, a significant decrease was found in the prevalence (P = 4.5 x 10(-3)) and frequency (P = 2.7 x 10(-2)) of the GABRB3 major (G1) allele. Furthermore, a significant progressive decrease was noted in G1 allelic prevalence (P = 2.4 x 10(-3)) and frequency (P = 1.9 x 10(-2)) in non-alcoholics, less severe and severe alcoholics, respectively. In sum, in the same population of non-alcoholics and alcoholics studied, variants of both the DRD2 and GABRB3 genes independently contribute to the risk for alcoholism, with the DRD2 variants revealing a stronger effect than the GABRB3 variants. However, when the DRD2 and the GABRB3 variants are combined, the risk for alcoholism is more robust than when these variants are considered separately.

The D2 dopamine receptor gene: a review of association studies in alcoholism and phenotypes

The role of the D2 dopamine receptor (DRD2) gene in alcoholism and other substance use disorders has come under intense investigation since the minor TaqI A (A1) allele of the DRD2 gene was first reported to be associated with alcoholism. In a meta-analysis of 15 US and international studies of European (non-Hispanic) Caucasians, consisting of 1015 alcoholics (more severe and less severe) and 898 controls (unassessed and assessed for alcoholism), alcoholics had a higher prevalence (p < 10(-7)) and frequency (p < 10(-5)) of the A1 allele than controls. The prevalence of the A1 allele was 1.5-fold higher in more severe than less severe alcoholics (p < 10(-4)), whereas unassessed controls had a twofold higher prevalence of the A1 allele than assessed controls (p < 10(-4)). Whereas more severe alcoholics had a threefold higher A1 allelic prevalence than assessed controls (p < 10(-10)), A1 allelic prevalence was virtually identical in less severe alcoholics and in unassessed controls. The A1 allele has also been associated with other drug problems including cocaine, nicotine, and polysubstance abuse. Furthermore, the minor TaqI B (B1) allele of the DRD2 gene has been associated with alcoholism and psychostimulant (cocaine, amphetamine) abuse. Beyond association studies, phenotypic differences exist between genotypes containing the TaqI A minor (A1A1 and A1A2) and major (A2A2) alleles of the DRD2. These different phenotypes have been identified through a number of approaches, including pharmacological, neurophysiological, neuropsychological, stress, personality, metabolic, and treatment studies. In conclusion, the present review suggests that the type of alcoholics and the nature of controls used are among critical factors in DRD2 association studies in alcoholism. Intronic mutations in both the 3'(TaqI A) and 5'(TaqI B) regions of the DRD2 associate with alcoholism and other drug use disorders. The identification of phenotypes of DRD2 genotypes suggests that the observed intronic DRD2 mutations may have functional consequences that predispose individuals to a variety of substance use disorders.

High-level expression of a cDNA for human granulocyte colony-stimulating factor in Chinese hamster ovary cells. Effect of 3'-noncoding sequences

We compared the production of recombinant human granulocyte colony-stimulating factor (rhG-CSF) by Chinese hamster ovary (CHO) cells in a transient expression system, using different analogous vectors carrying a human G-CSF-encoding cDNA under the transcriptional control of the murine cytomegalovirus (CMV) major immediate early promoter. Comparison of two transcription units carrying a human (h)G-CSF cDNA deleted of 3'-untranslated (UTR) sequences containing AT-rich elements (ARE) and using 3'-UTR sequences for processing of transcripts from the SV40 early region or from the rabbit beta 1-globin gene showed that use of the sequences from the rabbit beta 1-globin gene resulted in 7- to 12-fold higher levels of rhG-CSF production. Deletion of ARE of hG-CSF cDNA resulted in increased rhG-CSF synthesis when transcription units using 3'-UTR sequences from the rabbit beta 1-globin gene were compared. By contrast, deletion of ARE did not appear to affect rhG-CSF production when 3'-UTR sequences from the SV40 early region were used. The most efficient G-CSF transcription unit, fused to a dihydrofolate reductase (DHFR) marker gene and transfected into a CHO cell line, yielded initial transfectant CHO cell lines secreting up to 21 micrograms rhG-CSF/1 x 10(6) cells in 24 h. After two rounds of DHFR gene amplification, a cell line was isolated that contains approx 12 copies of the vector and produces rhG-CSF at a rate of 90 micrograms/1 x 10(6) cells in 24 h.

Efficiency of different viral promoters in directing gene expression in mammalian cells: effect of 3'-untranslated sequences

We compared (i) the enhancer/promoter (mCMV promoter) from the murine cytomegalovirus (CMV) major immediate early gene,(ii) the enhancer/promoter from human CMV major immediate early gene, containing a short promoter (h1CMV) or a long stretch of 5' untranslated region (UTR) from the gene promoter (h2CMV) and (iii) the simian virus 40 (SV40) enhancer/early region promoter (SV2) for their ability to direct foreign gene expression in transiently transfected mammalian cell lines. Two series of recombinant plasmids containing the different viral promoters fused to the cat reporter gene and 3'-UTR for processing of transcripts from either the SV40 early region or the rabbit Beta 1-globin-encoding gene (Glb) were also analyzed for their effect on transient gene expression. The mCMV was the most active in dihydrofolate reductase-deficient Chinese hamster ovary (CHOdhfr-) cells and BALB/3T3 clone A31 mouse embryo cells. The h2CMV was more active than the other promoters in Bowes human melanoma cells and in Vero African green monkey kidney cells. In human hepatoma (Hep G2) cells, similar levels of CAT synthesis were observed with the h2CMV- and the mCMV-based vectors. In Hep G2 and Bowes cells, 3'-UTR from the SV40 early region resulted in consistently higher levels of cat expression, as compared to the rabbit beta 1-Glb gene, while the converse was true in BALB/3T3 clone A31 and Vero cells. SV40 early region and rabbit beta1-Glb gene 3'-UTR resulted in similar cat expression in CHOdhfr- cells.

Postinduction turnoff of beta-interferon gene expression

Viral induction of the human beta-interferon (IFN-beta) gene leads to a transient accumulation of high levels of IFN-beta mRNA. Previous studies have shown that the increase in IFN-beta mRNA levels after induction is due to an increase in the rate of IFN-beta gene transcription. In this paper, we show that the rapid postinduction decrease in the level of IFN-beta mRNA is due to a combination of transcriptional repression and rapid turnover of the mRNA. This transcriptional repression can be blocked with cycloheximide, suggesting that the synthesis of a virus-inducible repressor is necessary for the postinduction turnoff of the IFN-beta gene. Analysis of the sequence requirements for IFN-beta mRNA instability revealed two regions capable of destabilizing a heterologous mRNA. One destabilizer is an AU-rich sequence in the 3' untranslated region, and the other is located 5' to the translation stop codon.

Postinduction turnoff of beta-interferon gene expression

Viral induction of the human beta-interferon (IFN-beta) gene leads to a transient accumulation of high levels of IFN-beta mRNA. Previous studies have shown that the increase in IFN-beta mRNA levels after induction is due to an increase in the rate of IFN-beta gene transcription. In this paper, we show that the rapid postinduction decrease in the level of IFN-beta mRNA is due to a combination of transcriptional repression and rapid turnover of the mRNA. This transcriptional repression can be blocked with cycloheximide, suggesting that the synthesis of a virus-inducible repressor is necessary for the postinduction turnoff of the IFN-beta gene. Analysis of the sequence requirements for IFN-beta mRNA instability revealed two regions capable of destabilizing a heterologous mRNA. One destabilizer is an AU-rich sequence in the 3' untranslated region, and the other is located 5' to the translation stop codon.

Construction and properties of an Epstein-Barr-virus-derived cDNA expression vector for human cells

A cDNA expression vector containing the element oriP and the sequence encoding the Epstein-Barr virus (EBV) nuclear antigen 1 (EBNA-1) as well as the hygromycin B-resistance dominant marker gene has been constructed. Its characteristics have been compared to a similar vector lacking the EBV sequences. (a) The EBV+ vector is maintained as an episome with a copy number of approx. 50 per cell, whereas the number of the integrated EBV- copies is in general smaller than 10, when simian virus 40-transformed xeroderma pigmentosum fibroblasts (XP20S-SV) constitute the recipient cell line. (b) The presence of the EBV sequences in the vector resulted in a five- to ten-fold higher transfection efficiency with the Ca.phosphate precipitation technique. (c) cDNA inserts in the EBV+ vector are shown to be efficiently and properly expressed in the recipient cell. (d) If transfection is performed with a mixture of EBV+ vectors with different inserts, transfectants are shown to harbour different plasmids within one cell. (e) The ratio between these plasmids in one cell can be shifted in favour of a vector with a particular insert, when selection for this insert is performed. (f) Reconstruction experiments indicated that isolation of a low-abundance sequence from a mixture of vectors is at least 100-fold more efficient with the EBV+ system, than with the EBV- system. (g) Rescue of the episomal vector from transfected cells can be readily achieved.

Transient expression in mammalian cells of the bacterial reporter gene encoding mercuric reductase: effects of various regulatory elements

The effect of several transcriptional regulatory elements on gene expression in mammalian cells was investigated. As a reporter gene we have used the bacterial gene merA coding for the enzyme mercuric reductase. Several plasmids were constructed with different promoter/enhancer sequences (pSV/E, pSV/L, pMT, pRSV or pAd) at the 5' end and different splicing (small intron of the T antigen of SV40 or the second intron of the rabbit beta-globin gene) and/or polyadenylation signals (AEn, ALn or AR beta Gn) at the 3' end of the merA gene. Expression was measured in five different mammalian cell lines. In COS cells the highest level of expression is obtained with pSV/L and the lowest level with pSV/E. In HeLa, CV-1, Ltk-, and CHO cells merA expression is relatively high, under control of pRSV and pMT and relatively low under control of pSV/L and pAd. The introns studied have a negative effect on the expression of merA. The presence of a polyadenylation signal downstream from the gene is essential for its expression. The three different polyadenylation signals studied give a similar stimulatory effect on the level of expression of the merA gene.

The 3' untranslated region of the human interferon-beta mRNA has an inhibitory effect on translation

In vitro-transcribed human interferon-beta (IFN-beta) mRNA, which contains all the sequence of the natural molecule, is poorly translated in a reticulocyte lysate or when injected in Xenopus oocytes. This low level of translation is due to an inhibition by the 5' and 3' untranslated regions (UTRs). Indeed, the replacement of these sequences by those of Xenopus beta-globin mRNA dramatically increases the translational efficiency of the mRNA, especially in oocytes. This phenomenon is not due to a difference in mRNA stability since both native and chimeric mRNAs remain undegraded, at least during the translation period considered. Construction of different chimeric molecules having various combinations of 5' and 3' UTRs from IFN-beta or Xenopus beta-globin mRNA or a small sequence of SP6 polylinker as 5' UTR has revealed that the 3' UTR of IFN-beta in itself has a pronounced inhibitory effect on translation in the two translation systems from animal cells. Indeed, the addition of this 3' UTR at the 3' end of the coding region of a chicken lysozyme mRNA also causes a large decrease of its translational capacity in both systems. However, the nature of the 5' noncoding sequence influences the degree of translation inhibition exerted by the 3' UTR. Remarkably, we observed no difference in translation level when the different mRNAs were tested in a wheat germ extract.

Establishment of stable mouse myeloma cells constitutively secreting human tissue-type plasminogen activator

Expression plasmids for human tissue-type plasminogen activator (t-pA) were introduced into mouse myeloma cells and stable cell lines constitutively secreting t-pA established by selection with mycophenolic acid. Expression of t-pA is driven either by the simian virus 40 early promoter or by immunoglobulin regulatory elements of either light or heavy chains of the mouse. The availability of myeloma cells secreting a heterologous protein is of importance for biotechnological applications, because large-scale fermentation of myeloma cells is well established.