Introns are inconsequential to efficient formation of cellular thymidine kinase mRNA in mouse L cells

Intron-dependent stimulation of marker gene expression in cultured insect cells

We tested in a systematic fashion the effect of an intron on the level of luciferase expression in cultured C6/36 Aedes albopictus cells. The intron was inserted in both orientations, upstream and downstream of the luciferase coding region in two different luciferase expression vectors. The two parental luciferase expression vectors differed only in their promoters, one containing the Drosophila melanogaster actin5C promoter and the other the Autographa californica nuclear polyhedrosis virus hr5/ie1 enhancer/promoter. All resulting intron-containing constructs were tested for their ability to express luciferase in transient assays following electroporation into C6/36 cells. We found that the introns stimulate luciferase expression between twelve and sixtyfold, depending on the promoter. Enhanced expression was only seen when the intron was present in the correct orientation upstream of the luciferase ORF. When the 3' splice sites of the enhanced intron-containing constructs were mutated, the expression level dropped back to below the level of the intronless parental constructs, suggesting that the intron-dependent stimulation of luciferase expression is depending on splicing and is not due to other effects the intron may have on transcription or translation. The luciferase transcripts of all constructs were analysed by reverse transcription, PCR amplification and sequencing, and the results show a perfect correlation between efficient splicing of the intron and elevated levels of luciferase expression. Our findings have the potential to be very useful for boosting expression of foreign proteins in the widely used baculoviral or non-viral systems in insect cells.

RNA transport

RNA molecules synthesized in the nucleus are transported to their sites of function throughout the eukaryotic cell by specific transport pathways. This review focuses on transport of messenger RNA, small nuclear RNA, ribosomal RNA, and transfer RNA between the nucleus and the cytoplasm. The general molecular mechanisms involved in nucleocytoplasmic transport of RNA are only beginning to be understood. However, during the past few years, substantial progress has been made. A major theme that emerges from recent studies of RNA transport is that specific signals mediate the transport of each class of RNA, and these signals are provided largely by the specific proteins with which each RNA is associated.

The use of chimeric gene constructs to express a bacterial endoglucanase in mammalian cells

The synthesis and secretion of a truncated Clostridium thermocellum endoglucanase (EGE') encoded by the celE' gene was investigated in Chinese hamster ovary (CHO) cells. Fusion genes consisting of the human growth hormone (hGH) gene and celE', transcribed from the SV40 early enhancer/promoter, were constructed and stably transfected into CHO cells. A gene consisting of celE' inserted into the first exon of the hGH gene resulted in the synthesis of truncated proteins (less than or equal to 22 kDa) lacking endoglucanase activity. Cloning celE' into the second exon of the hGH gene, resulted in the synthesis and secretion of a 50 kDa protein with endoglucanase activity. A 50 kDa protein was also synthesised by cells transfected with celE' cloned into the fifth exon of the hGH gene. However, despite a 5-fold increase in enzyme activity compared to the exon 2 transfected cell line less than 40% of the protein was secreted. Constructs devoid of introns, in which celE' was fused to the SV40 early promoter and to the rabbit beta-globin polyadenylation sequence resulted in a 2-18-fold increase in endoglucanase activity compared to the constructs containing introns. In addition more than 75% of the synthesised protein was secreted. Analyses of EGE' encoded mRNA from the transfected cell lines suggests that the presence of introns results in the aberrant splicing of message by the use of cryptic splice sites in the celE' gene. These results demonstrate that introns are not required for the efficient expression of a bacterial endoglucanase in mammalian cells, rather introns appear to reduce expression of the encoded protein.

Expression of heat shock-regulated human growth hormone genes containing or lacking introns by NIH-3T3 and Wish cell lines

A plasmid containing the complete genomic DNA of the human growth hormone (ghGH) comprising four introns and driven by the human promoter of the human gene of the 70 kDa heat shock protein (hsp70) has been used to transfect mouse NIH-3T3 and human Wish cells. Selected cell lines were characterized for stable hGH secretion. Similarly in the same NIH-3T3 cells, the stable expression of the same plasmid construct, but containing the complementary DNA of the hGH gene (chGH), was compared in terms of the effect of introns on heterologous protein synthesis. Genomic hGH recombined cells synthetized, in a heat regulated fashion, matured hsp70/hGH hybrid mRNA able to drive the secretion of a 22 kDa polypeptide. Like the natural hGH, this polypeptide expressed the functional hormonal activity of prolactin on casein secretion by mammary cells. The time course of hGH secretion was prolonged in ghGH transcripts, while that of mRNA degradation appeared delayed, especially in Wish cells, as compared to chGH expression. In the human Wish cells the decay of endogenous hsp mRNA has been compared to that of recombinant hsp mRNA, demonstrating that this human hsp70/hGH hybrid mRNA was present in the cytoplasm during a longer period than the human endogenous hsp70 mRNA. In conclusion, similar levels of expression and resulting gene products were expressed from the chGH or the ghGH gene in an inducible manner.

Intron enhancement of gene expression and the splicing efficiency of introns in maize cells

The inclusion of the alcohol dehydrogenase 1-S(Adh 1-S) intron 1 in the transcription unit of maize gene constructs has been shown to increase gene expression in cultured maize cells. We have extended these studies with Adh1-S intron 1 using the firefly luciferase, Escherichia coli beta-glucuronidase and chloramphenicol acetyltransferase reporter genes adjoined to different plant promoters and find enhancement of transient gene expression in all cases but one. We also show that the enhancement phenomenon can be mediated by the third intron of the maize actin gene. In all cases tested, the inclusion of an intron results in increased levels of steady-state RNA. The degree of enhancement depends on the exon sequences flanking the intron; flanking exons also influence the efficiency of intron splicing. Unexpectedly, unspliced RNAs accumulate during the transient assay.

Introns in the 3'-untranslated region can inhibit chimeric CAT and beta-galactosidase gene expression

The expression of a cyc::cat [cytochrome c/chloramphenicol acetyltransferase (CAT)] chimeric gene was stimulated 100-fold by the inclusion of a cyc intron in the 5'-untranslated region. In contrast, a single intron in the 3'-untranslated region was at best only slightly stimulatory, and surprisingly, inhibited expression of cat when an intron was also included in the 5'-untranslated region. This inhibition was independent of the identity of the downstream intron, occurring when either the simian virus 40 (SV40) small t intron or a cyc intron was located downstream from the cat coding region. Analysis of CAT mRNA levels, using a riboprobe spanning the 5' end of the CAT message, revealed that the stimulatory effect of a 5'-noncoding region intron were manifest at both the protein and RNA levels, whereas the inhibitory effects of 3'-noncoding region introns were detectable only at the protein level. The effects of intron position on chimeric gene expression were observed in both primate and rodent cell lines and also when the beta-galactosidase coding region was substituted for that of cat. Therefore, the common placement of an intron in the 3'-noncoding region is not the most beneficial to the expression of cyc chimeric genes. The position of introns within a transcriptional unit is a major factor to be considered when optimizing the efficiency of animal cell expression vectors.

Clonal derivation of a rat muscle cell strain that forms contraction-competent myotubes

A muscle cell strain capable of forming contracting myotubes was isolated from an established rat embryo cell line. The myogenic cells, termed rat myoblast omega or RMo cells, have a diploid complement of chromosomes (n = 42). In the presence of mitogen-containing growth medium, RMo cells proliferated with a cell generation time of about 12 hours. In mitogen-depleted medium, RMo cells withdrew from the cell cycle and formed myotubes that spontaneously contracted. Differentiated RMo cells produced creatine kinase isozymes in a ratio characteristic of skeletal muscle cells. RMo cells were easy to cultivate. Cells proliferated and differentiated equally well on gelatin-coated or noncoated culture dishes, at clonal or mass culture densities, and in all basal media tested. In most experiments, growth medium consisted of horse serum-containing medium supplemented with either chicken embryo extract or FGF activity; cells proliferated equally well in medium containing unsupplemented calf serum. RMo cells differentiated if growth medium was not replenished regularly. Alternatively, differentiation was induceable by incubation in mitogen-depleted medium consisting of basal medium supplemented either with 10(-6) M insulin, 0.5% serum, or 50% conditioned growth medium. RMo cells were competently transformed with cloned exogenous genes. Because it forms functional myofibrils, the RMo cell line constitutes a useful model system for studying the cell biology and biochemistry of proteins involved in contractile apparatus assembly and muscle disease.