Shin Shimizu

Molecular cloning and expression of human hepatocyte growth factor

HEPATOCYTE growth factor (HGF) is the most potent mitogen for mature parenchyma! hepatocytes in primary culture, and seems to be a hepatotrophic factor that acts as a trigger for liver regeneration after partial hepatectomy and liver injury. The partial purification and characterization of HGF have been reported1–4. We have demonstrated that pure HGF from rat platelets is a new growth factor5, 6 effective at concentrations as low as 1 ng mP−1.The effects of HGF and epidermal growth factor (EGF) are additive. The activity of HGF is not species-specific, although it does not stimulate growth in Swiss 3T3 fibroblasts5. HGF has a relative molecular mass (Mr) of 82,000 and is a heterodimer composed of a large a-subunit of Mr 69,000 and a small β -subunit of Mr34,000 (ref. 6). Here we report the amino-acid sequence of human HGF determined by complementary DNA cloning and the expression of biologically active human HGF from COS-1 cells transfected with cloned cDNA. The nucleotide sequence of the human HGF cDNA reveals that both α- andβ-chains are contained in a single open reading frame coding for a pre-pro precursor protein of 728 amino acids.

Deletion of kringle domains or the N-terminal hairpin structure in hepatocyte growth factor results in marked decreases in related biological activities

To determine the essential domain for biological activity in the hepatocyte growth factor (HGF) molecule, we prepared various mutated recombinant HGFs using site-directed mutagenesis, and examined the effects on DNA synthesis in hepatocytes, scattering of MDCK cells and the antiproliferative activity on HepG2 hepatoma cells. Native HGF and mutant HGFs, in which Gln534 and/or Tyr673 were respectively substituted for His and Ser to coincide with the catalytic triad amino acids in plasmin, markedly stimulated DNA synthesis of hepatocytes and scattering of MDCK cells but inhibited DNA synthesis of HepG2 cells. The mutant HGF deleted with the third or fourth kringle domain resulted in marked decrease of all three biological activities, while deletion of the N-terminal hairpin structure or the first or second kringle domain almost completely inactivated biological activities. We propose that the N-terminal hairpin structure and the first and second kringle domains are essential for biological activities of HGF and possibly for binding to its receptor.

High-level expression of recombinant human soluble thrombomodulin in serum-free medium by CHO-K1 cells

Cultivation of gene-engineered Chinese hamster ovary (CHO-K1) cells that produce recombinant human soluble thrombomodulin (rsTM) was investigated to optimize conditions for high-level expression of the protein in a serum-free medium. For economic protein production, oxygenation of cultures with pure O2 permitted sufficient cell growth for high rsTM production with only 1 g/l of microcarriers and a low foetal bovine serum concentration. A longer growth phase (over 5 days) with serum was important to establish sufficient growth of this cell line on the microcarriers for subsequent serum-free culture, and to support a long-term production phase (about 2 months). In the production phase, a high glucose concentration (6.15 g/l) in the serum-free medium was very effective for prolonging the harvest cycle interval. Under these conditions, up to 100 mg/l rsTM was expressed in the conditioned medium. The rates of glucose consumption (G) and lactae production (L) were measured periodically and their ratio (L/G ratio) correlated with rsTM productivity. When the average L/G ratio was lower, reflecting a lower lactate production rate due to appropriate oxygenation of the culture, the specific rsTM production rate increased. Thus it may be possible to estimate protein productivity from L/G ratios calculated from the glucose and lactate measurements.

Hepatocyte growth factor in linked by O-glycosylated oligosaccharide on the α chain

Abstract The glycosylation site and the structure of O-glycosylated oligosaccharide of recombinant human HGF were investigated. N-acetylgalactosamine (GalNAc) in the α chain suggested the presence of O-glycosylated oligosaccharide. Sugar analysis and amino acid sequence analysis of peptide fragments produced by limited degradation revealed that O-glycosylated oligosaccharide linked to Thr445 of the α chain. The molecular weight of the oligosaccharide was determined with ion spray mass spectrometry. From these studies, the structure of the O-glycosylated oligosaccharide on the α chain of HGF was concluded as .

Continuous culture of CHO-K1 cells producing thrombomodulin and estimation of culture conditions

Abstract Recombinant Chinese hamster ovary (CHO-K1) cells expressing human soluble thrombomodulin (rsTM) were cultured in a continuous culture system with a fluidized-bed reactor. Cells were grown in a medium containing 1% serum for 10 d, and then cultured in a serum-free medium. The protein production rate increased remarkably in the serum-free culture, with a decrease in the lactate production rate. This suggests that CHO-K1 cells exhibit different physiological characteristics in response to serum removal from the medium, which resulted in a higher rsTM concentration (about 60 mg/l). A procedure for estimating protein productivity was developed using experimental glucose and lactate measurements. In this procedure, cell density was estimated from the glucose consumption rate, and the specific protein (rsTM) production rate was obtained from the ratio of lactate production/glucose consumption (ΔL/ΔG). Since the cell density and protein productivity in repeated batch culture were well estimated, the procedure was applied to continuous culture in a fluidized-bed bioreactor culture. The estimation procedure was also found to be effective in this continuous culture using the models derived from the repeated batch culture.

A Human Myeloid Cell Line Producing Stem Cell Growth Factor, KPB-M15, Secretes Another Growth Factor Active on Murine Hematopoietic Progenitor Cells

Human stem cell growth factor (SCGF) produced by a myeloid cell line, KPB-M15, exhibits species-specific hematopoietic activities. However, KPB-M15-conditioned medium induced colony formation of mouse bone marrow cells. KPB-M15-derived colony-stimulating activity (CSA) was purified through Butyl-Toyopearl 650c and Cu2+ chelating-Sepharose 6B chromatography. TSK-G3000SW gel filtration of the purified preparation presented 3 distinct peaks around Vo, 150 kD and 85 kD. Gel fractions extracted from SDS-PAGE had macrophage colony-stimulating factor (M-CSF)-specific amino acid sequences. PCR, Northern hybridization and ELISA demonstrated that KPB-M15 cells secreted a significant amount of M-CSF and IL-6. Anti-M-CSF but not anti-IL-6 antibody abrogated CSA in KPB-M15-CM. IL-6 hardly synergized with M-CSF to enhance colony formation. Collectively, M-CSF is a sole CSA for murine hematopoietic progenitor cells in KPB-M15-CM. This is the first report of a human myeloid cell line, KPB-M15, constitutively producing M-CSF in addition to SCGF and IL-6. It can be useful in investigating the mechanism of production of M-CSF.

Characteristics of CHO-K1 cell culture producing two types of recombinant soluble thrombomodulin

Abstract Recombinant CHO-K1 cells, expressing human soluble thrombomodulin, were cultured in a serum-free medium and characteristics of the culture associated with glucose and lactate were investigated. In 3 L fermentor (3LFM) cultures, the cell density was found to have a proportional relationship with the volumetric glucose consumption rate, and the specific glucose consumption rates were constant at about 0.2 mg/(106 cells·d) despite many differences in the culture conditions. Thus, it was concluded that the glucose consumption rate is little influenced by the condition of the cells or the culture conditions, and that the cell density can be estimated by the glucose consumption rate calculated from glucose measurement. Two types of thrombomodulin (rsTMα and rsTMβ) were produced, in which rsTMβ possesses chondroitin-4-sulfate and has greater anticoagulant activities than rsTMα. Therefore, it is important to investigate the rsTMα and rsTMβ production properties, and to determine the optimal culture conditions for high rsTMβ production. The most important factor to increase the production of rsTMβ relative to rsTMα (the β/α ratio) was effective aeration. Moreover, a lower ratio of lactate production/glucose consumption (the L/G ratio) with sufficient oxygen, high glucose concentration, and a longer medium exchange interval contributed to a higher specific rsTMβ production rate. Since there was a linear relationship between the production rate of each type of rsTM and the overall rsTM production rate per liter, it is expected that the rsTMα and rsTMβ production rates may be able to be estimated from the overall rate and the rsTMβ production increased by increasing the overall rsTM production with a lower L/G ratio.

Production of hEPO by Recombinant C127 Cells using Hollow Fiber Culture System

C127 cells transformed with human Erythropoietin(EPO) cDNA were cultured using a hollow fiber culture system, that was improved on by immobilizing cells in collagen gel. The EPO productivity in this improved system was six times as high as that without collagen gel. The properties of the extended cells after 5 months culture weren’t different from those of the master bank’s cells. It was shown that this immobilizing technology is suitable for the production of biopharmaceuticals.