Harmonic system analysis of the algae Valonia utricularis: contribution of an electrogenic transport system to gain and phase-shift of the transfer function.

Cell membrane properties of the giant marine alga Valonia utricularis were measured in the frequency domain between 1 Hz and 10 MHz by harmonic system analysis. Harmonic analysis was performed by imposing a sinusoidal electrical voltage on the cell interior via an internal microelectrode. Gain and phase-shift of the resulting sinusoidal membrane voltage were measured over the whole frequency range with an internal voltage microelectrode.

Dielectric measurements on electro-manipulation media.

The permittivity and conductivity of solutions of sugars and sugar alcohols, such as are suitable for electric-field work on cells, were measured. The range of concentrations was 0-3 M (subject to solubility), and the frequency range was that commonly used in dielectrophoresis prior to electrofusion (200 kHz-2 MHz). This was widened to 30 kHz-12 MHz, when dispersive behaviour was found.

The voltage-dependent step of the chloride transporter of Valonia utricularis encounters a Nernst-Planck and not an Eyring type of potential energy barrier.

Voltage-clamp experiments were performed on cells of the giant marine alga Valonia utricularis to study the voltage dependence of the previously postulated chloride transporter (Wang, J., G. Wehner, R.

Electro-immortalization of B lymphocytes isolated from stomach carcinoma biopsy material.

The advantages of electrofusion were used to immortalize the small number of B-cells from fresh biopsy material taken from a gastric carcinoma of a patient. Two stable human antibody secreting clones could be produced which exhibited functional activity against the autologous tumour cells (inhibition of cell adhesion and immunofluorescence staining of the membranes). This shows that a variety of hitherto inaccessible B lymphocyte populations from other human organ biopsies can be immortalised by the improved electrofusion technique.

Transplantation of free and microencapsulated islets in rats: evidence for the requirement of an increased islet mass for transplantation into the peritoneal site.

Microencapsulation of islets of Langerhans may avoid the necessity of a permanent immunosuppressive drug therapy and opens up new perspectives for xenotransplantation in the treatment of insulin dependent diabetes. In a mouse model we recently showed long-term normoglycemia after microencapsulated xenotransplantation. Since the acceptance of mice to any kind of foreign material is quite high we assume that the rat model better reflects the situation of higher mammalians or even humans.

Hypotonically induced changes in the plasma membrane of cultured mammalian cells.

Cells from three cell lines were electrorotated in media of osmotic strengths from 330 mOsm to 60 mOsm. From the field-frequency dependence of the rotation speed, the passive electrical properties of the surfaces were deduced. In all cases, the area-specific membrane capacitance (Cm) decreased with osmolality.

Kinetics of pore size during irreversible electrical breakdown of lipid bilayer membranes.

The kinetics of pore formation followed by mechanical rupture of lipid bilayer membranes were investigated in detail by using the charge-pulse method. Membranes of various compositions were charged to a sufficiently high voltage to induce mechanical breakdown. The subsequent decrease of membrane voltage was used to calculate the conductance.

Lymphoid activation by micro- and macroencapsulated islets during mixed lymphocyte islet culture.

We have recently demonstrated long-lasting normoglycaemia after transplantation of barium alginate microencapsulated rat and porcine islets. Nevertheless the transplantation results obtained with different microencapsulation techniques have been controversial. Little is known about possible immune interactions between host and encapsulated islet.

Stably inherited killer activity in industrial yeast strains obtained by electrotransformation.

Killer-sensitive strains of Saccharomyces cerevisiae and Saccharomyces carlsbergensis were transformed by electroinjection using double-stranded RNA isolated from a superkiller strain. Various recipient strains were used: both thermo-resistant and thermo-sensitive as well as mutants of industrial strains. Conversion of respiratory competent (rho+) into respiratory deficient (rho-) strains (mutants) resulted in a significant increase of the yield of electrotransformants and/or of longterm killer stability.

Human hybridoma generation by hypo-osmolar electrofusion: characterization of human monoclonal antibodies to Schistosoma mansoni parasite antigens.

Human monoclonal antibodies which bind Schistosoma mansoni worm and egg antigens were identified and characterized from hybridomas generated using the hypo-osmolar electrofusion technique of somatic cell fusion. Splenocytes from S. mansoni infected individuals were mitogen-activated in vitro and subsequently fused by electrofusion.

Levitation, holding, and rotation of cells within traps made by high-frequency fields.

Biological cells and other particles can be electrically manipulated by means of negative dielectrophoresis within microchambers whose electrode geometry is of the order of the cell size. Very-high-frequency fields (50 MHz and above) and media of increased relative permittivity are especially suitable for the purpose, as shown by experimental data on levitation and rotation. It appears to be possible to move and rotate cells or particles at will using this technology.

Radial Turgor and Osmotic Pressure Profiles in Intact and Excised Roots of Aster tripolium: Pressure Probe Measurements and Nuclear Magnetic Resonance-Imaging Analysis.

High-resolution nuclear magnetic resonance images (using very short spin-echo times of 3.8 milliseconds) of cross-sections of excised roots of the halophyte Aster tripolium showed radial cell strands separated by air-filled spaces. Radial insertion of the pressure probe (along the cell strands) into roots of intact plants revealed a marked increase of the turgor pressure from the outermost to the sixth cortical layer (from about 0.

Production of mitogen-contamination free alginates with variable ratios of mannuronic acid to guluronic acid by free flow electrophoresis.

Commercial alginates consisting of variable homopolymeric regions of beta-D-mannuronic acid and alpha-L-guluronic acid, interspaced with regions of alternating blocks, are potent stimulators of macrophages and lymphocytes. Therefore, inflammatory reactions and fibrotic overgrowth of the beads result if Langerhans islets are encapsulated in raw alginate hydrogel beads (cross-linked with divalent cations). The result is random failure of the islets some time after transplantation.

An experimental system for determining the influence of microgravity on B lymphocyte activation and cell fusion.

The influence of microgravity on lymphocyte activation is central to the understanding of immunological function in space. Moreover, the adaptation of groundbased technologies to microgravity conditions presents opportunities for biotechnological applications including high efficiency production of antibody forming hybridomas. Because the emerging technology of microgravity hybridoma generation is dependent upon activation and cultivation of B lymphocytes during flight, we have adapted mitogen-driven B lymphocyte stimulation and culture that allows for the in vitro generation of large numbers of antibody forming cells suitable for cell fusion over a period of 1-2 weeks.

Microscale production of hybridomas by hypo-osmolar electrofusion.

We have developed and tested a novel electrofusion chamber, the adjustable plate microchamber, that permits the successful electrofusion and production of hybridomas in a hanging droplet from as few as 1,000 B lymphocytes. Cell suspension volumes of 10 microliters may be used without excessive difficulty in aseptically recovering fused cells. With a modification of the hypo-osmolar electrofusion protocol with this microchamber, fusion efficiencies of the order of 10(-3) may be attained.

Alginate coating of islets of Langerhans: in vitro studies on a new method for microencapsulation for immuno-isolated transplantation.

Immuno-isolated transplantation offers the attractive prospect of being able to transplant xenogeneic islets without immunosuppression. This study introduces a completely new method of coating single islets using a homogeneous alginate membrane approximately 10 microns thick. During glucose challenge (perifusion and static incubation) encapsulated islets show the same pattern and quantity of insulin release as non-encapsulated controls.