High-producing Cell Lines Research Articles

Multi-copy introduction and high-level expression of interleukin-3 genes by retroviral vector superinfection

We constructed a retroviral expression vector carrying multiple cloning sites. This vector was found to express efficiently the cloned gene. Using this vector and a helper virus-free system, a murine interleukin-3 (mlL-3) high-producing cell line was established by multiple cycles of infection with recombinant retroviruses carrying mlL-3 cDNA. The infected cells produced a considerable amount of mlL-3 and the concentration of mlL-3 in culture media increased as a function of the frequency of infection. High levels of mlL-3 cDNA, mRNA and protein in this cell line were confirmed by Southern, Northern and biological assays, respectively. These results suggest that artificial gene amplification is possible in a helper-free retroviral system. This should be applicable to efficient expression of bioactive molecules in a wide variety of mammalian cells including suspension cells.

Somaclonal variation in the berberine-producing capability of a culture strain of Thalictrum minus

Variation in the productivity of berberine between clonal cell lines derived from a culture strain of Thalictrum minus. var. hypoleucum was investigated during the period of successive transfer generations. There was a correlation between berberine productivity and growth in these clonal cultures. Although no significant difference was found in the secretory function as well as the qualitative pattern of alkaloids, there was wide variation in the yield of berberine among the clones. Some of the cell lines have shown a high stability throughout the successive subculturing, whereas the other lines tended to either decrease or increase the productivity continually before they have become more or less stable at low or high levels. After eight months of subculturing, one of the high-producing cell lines yielded 0.76 g of berberine per liter in 14 days of culture strain. In view of variations observed in both primary and secondary clones, the possible cause of the quantitative variation in berberine production in Thalictrum cultures is discussed.

Einfluß von D,L‐Ethionin auf Zellkulturen von Ruta graveolens L

AbstractD,L‐Ethionine was added in varying concentrations (0.1–1 mM) to two cell suspension cultures of Ruta graveolens. Growth, alkaloid formation and activities of some shikimate pathway‐specific enzymes in these cultures were estimated. Also the effect of ethionine on shikimate pathwayspecific enzymes under in vitro conditions was followed. Growth is only slightly inhibited in supplemented cultures. Alkaloid formation is drastically reduced in a low‐producing and to a lesser extent in the high producing cell line by ethionine. Activities of DAHP synthase, chorismate mutase, and anthranilate synthase in the presence of ethionine are in different Ruta strains to a varying degree affected.

Purification and characterization of human fibroblast-derived hybridoma growth factor identical to T-cell-derived B-cell stimulatory factor-2 (interleukin-6).

Human fibroblast cultures, when stimulated with interleukin-1 (IL-1) produce a growth factor for B-cell hybridoma and plasmocytoma cell lines. The availability of both a fast-growing and high-producer cell line (MG-63 osteosarcoma cells) and of a highly sensitive and specific assay system for this hybridoma growth factor (HGF) allowed us to obtain analytically pure preparations. Crude HGF from MG-63 cells was processed through a five-step concentration and purification schedule. Sequential adsorption to controlled pore glass (CPG) beads, antibody affinity chromatography and gel filtration resulted in a 10,000-fold purification to a specific activity of 10(9) units/mg HGF. Electrophoretically pure HGF was obtained after additional purification by cation-exchange chromatography and reversed-phase HPLC. The purification procedure revealed two distinct biologically active HGF components. The amino-terminal sequence of one of the two components was determined and found to correspond to that already predicted from cDNA clones of a protein alternatively called 26-kDa protein, interferon-beta 2 (IFN-beta 2) or B-cell stimulating factor-2 (BSF-2). The first two designations (26-kDa protein and IFN-beta 2) refer to a postulated fibroblast secretory protein with so far no unambiguously defined function; the latter designation (BSF-2) refers to a T-cell product possessing differentiation stimulatory effect on B-cell lines. The reported results firmly establish that the protein is secreted by fibroblasts and reveal that it possesses B-cell growth stimulatory activity. The new designation interleukin-6 (IL-6) is proposed to resolve prescribing nomenclature confusion.

Efficient replication of HTLV-III and STLV-IIImac in human Jurkat cells

High producer cell lines were established by infecting Jurkat cells with either HTLV-IIIB from H9 cells or with STLV-IIImac from HUT-78 cells. The Jurkat cells produced both viruses at least 10 times more efficiently then the original cell lines; the pelleted virus from Jurkat cells was also less contaminated with non-virion proteins. Accordingly, a higher specificity was attained in an ELISA for antibodies to HTLV-III if the antigenic activity was derived from the virus from Jurkat cells, as opposed to that from H9 cells.

Establishment and propagation of a bovine leukaemia virus-producing cell line derived from the leukocyte of a leukaemic cow.

A cell line (LB59Ly) derived from the leukocytes of a leukaemic cow was established as a monolayer, which spontaneously released large amounts of a retrovirus. This virus was found to be indistinguishable from the bovine leukaemia virus (BLV) produced by the commonly used high-producing heterologous cell line (FLK-BLV). Like the latter, its reverse transcriptase activity was greater in the presence of Mg2+ cations than in the presence of Mn2+ cations; its polyacrylamide gel electrophoresis pattern showed the presence of gp51, p24, p15, p12 and p10, and the antigenicity of the two major proteins completely cross-reacted with those of BLV from FLK-BLV cells. The virus was infectious and induced early and late polykaryocytosis, the specificity of which was demonstrated by use of specific anti-BLV sera.