Changes during subclone development and ageing of human antibody-producing recombinant CHO cells.

Some of the problems encountered with human or human-mouse heterohybridomas, such as low growth rates and high serum requirements, have led to the increased use of recombinant cell lines for production of human antibodies. To evaluate the suitability of such alternative cell lines for the production of human antibodies we have analysed several subclones with differing specific production rates of a recombinant CHO cell line. Gene copy number and site of chromosomal integration for the light and heavy chain and the dhfr gene were determined by in-situ hybridisation.

Analysis of changes during subclone development and ageing of human antibody-producing heterohybridoma cells by northern blot and flow cytometry.

The economic importance of obtaining high-producing subclones for large scale production of pharmaceutical proteins is self-evident. However, few papers have studied the changes that occur during subclone development. This information would be important for further improvement of screening and subcloning protocols.

Human endothelial cell lines established by mutated forms of the simian virus 40 large T oncogene.

The large T oncoprotein of Simian Virus 40 is widely used to improve the growth characteristics of primary cells in culture. Beside growth stimulation and immortalization, expression of the large T protein in human cells frequently leads to a loss of differentiated characters and changes in the karyotype. We have constructed mutated forms of the large T protein by deletion of various fragments of the DNA binding domain to test, whether this region is responsible for undesired influences on cell differentiation.

Comparison of the production of a human monoclonal antibody against HIV-1 by heterohybridoma cells and recombinant CHO cells: A flow cytometric study.

The production of human monoclonal antibodies for therapeutic use is of increasing importance for treatment of viral infections such as AIDS. As human x mouse heterohybridomas rarely reach the growth rates and cell specific production rates of mouse hybridomas the transfection of standard cell lines, such as CHO or BHK, is a promising alternative. This has the additional advantage that the IgG subtype can be changed to suit the desired application.

Selective retention of viable cells in ultrasonic resonance field devices.

A double-chamber ultrasonic resonance field device was used for the separation and retention of animal cells. By controlling operational parameters such as flow and power input, the device can retain viable cells more efficiently, allowing for selective removal of nonviable cells and cell debris. A simple model describing the forces acting on spherical particles in a sound field (primary radiation force, Bernoulli force, secondary radiation force) is presented.