[Enhancement of recombinant human tissue plasminogen activator expression in CHO cells using matrix attachment region containing vectors in combination with promoter activation strategy]

Development of high producing mammalian cell lines is a major bottleneck in manufacturing of recombinant therapeutic proteins. This study examines the effect of using the matrix attachment region from the human interferon beta gene in combination with promoter activation strategy with E1A 13S protein on human tissue plasminogen activator [t-PA] expression in Chinese hamster ovary [CHO] cells. The matrix attachment region was cloned in 3' and 5' flanking sides of the t-PA expression cassette in pTPA vector to generate pMTPA. After transfection of the cells with pTPA and pMTPA vectors, stable cell pools were developed and the t-PA expression level determined for each stable cell line. In the next step, E1A 13S expression plasmid was transfected to stable cell pools and t-PA titers were measured after 72 hours. Integration of pTPA and pMTPA vectors in the CHO genome was confirmed by PCR analysis on genomic DNA of stable cell pools. Analysis of the t-PA expression level showed a three-fold enhancement in pMTPA transfected cells compared to pTPAcontaining cells. t-PA expression was further enhanced up to 1771 U/ml by transient expression of E1A 13S in pMTPA stable cell pools. These results have shown that incorporation of matrix attachment region in an expression vector in combination with promoter activation can effectively enhance recombinant protein expression levels in CHO cells.

Birefringence of cells grown in vitro and of mitotic chromosomes after staining with picrosirius red

Fibroblasts and neuroblastoma cells kept in monolayer cultures, as well as surface spreads of mitotic chromosomes, were stained with picrosirius red. Red staining (in normal light) and optical anisotropy of the stained structures (in polarized light) were observed intracellularly and in the chromosomes. The intracellular and extranuclear birefringence induced by staining with sirius red could not be abolished by digestion with collagenase prior to staining, or by treatments used to disrupt microtubules (vinblastine, colcemid) or microfilaments (cytochalasin B). We therefore propose that the parallelly-arranged intermediate filaments are responsible for the optical anisotropy induced by sirius red staining in these cells. In addition, the spatially oriented scaffold of chromosomes can be detected by sirius red-induced birefringence. These data argue against the collagen-specificity of picrosirius red staining and of the birefringence induced by this technique. Our results also suggest that picrosirius red staining combined with polarized light microscopy can be used to study the spatial orientation pattern of the intermediate filaments and chromosome scaffold.

Isolation and functional analysis of tobacco MARs / 生物工程学报

Two new MAR segments (M14 and M17) were cloned from tobacco genome. Both of the sequences contained several typical consensus sequences of MARs, which were different from the original MAR sequence, such as 90%AT-box, A-box, T-box, the base unpairing regions (BUR), autonomously replicating sequences (ARS), the consensus sequence for topoisomerase II, MAR recognition sequence (MRS), origin of replication (ORI), curved DNA motifs and ATATTT et al. To investigate the effects of these two sequences on gene expression in transgenic plants, 3 plant expression vectors were constructed with uidA gene coding beta-glucuronidase (GUS) which were flanked on one side and on both sides by the MARs we obtained. These plant expression vectors with one or two MARs were transformed into tobaccos via Agrobacterium-mediated transformation method, with the plant expression vector pCAMBIA2301 without MAR and wild type tobacco as controls. GUS histochemical staining results showed that the uidA gene expressed stably in transgenic tobaccos. Quantitative detection of GUS activity showed that the MARs could increase GUS expression levels in vivo in contrast to the controls, wherever they were flanked on one side or both sides of uidA gene. The vector ligated with MARs in the same direction on both sides of uidA could increase the GUS expression level much better than both vectors which just ligated with single MARs on one side. The former one increased the average GUS activity for 3.14 folds, but 1.56 and 2.43 folds for the latter two vectors with single MARs respectively contrasting to the pCAMBIA2301 control. But the expression differences among individual transformants were still obvious. Therefore, it was concluded that the DNA sequences we obtained in this experiment were two novel MARs and could enhance gene expression in vivo. In the meanwhile, although the numbers of the MARs typical motifs in M14 were more than in M17, especially the 90% AT box which had been considered to be the highest correlative motif with binding strength in vitro, the enhancement of gene expression was lower yet, which implied no correlation between improvement of gene expression and binding strength between MARs and nuclear matrix in vitro.