Effects of bromosulfophthalein on structure and function of the plasma membrane of S37 ascites tumor cells

The effect of di-and trivalent cations on the membrane potential of the Ehrlich ascites tumor cell has been investigated using micro-electrode techniques. In solutions free of multivalent cations the average membrane potential for 46 cells was 8.3 f 0.5 mv (SE). However, the potentials were not stab

## Abstract The effect of Ca^+2^ on the transport and intracellular distribution of Na^+^ and K^+^ in Ehrlich ascites tumor cells was investigated in an effort to establish the mechanism of Ca^+2^‐induced hyperpolarization of the cell membrane. Inclusion of Ca^+2^ (2mM) in the incubation medium lea

## Abstract Somatic cell hybrids between mouse fibroblast L cells and MM2 mouse mammary ascites tumor grown in BALB/c mice were isolated and the structures of tumor‐associated surface antigen of the hybrid cells, and parental MM2 and mouse L cells were investigated by the methods of radioiodination

## Abstract Total plasma gangliosides of Ehrlich ascltes tumor‐bearing mice enhanced tumor growth when adoptively transferred with the same tumor cells in mice. However, individual gangliosides acted differently. Out of 6 gangliosides separated from plasma, 2 components enhanced tumor growth, where

The effects of valinomycin (25 pM) on the membrane potential and on initial, passive Na+ and K + movements have been determined in Ehrlich ascites tumor cells. The membrane potential of steady-state cells in a physiologic environment was -23.2 mV. Addition of valinomycin induced a small, significant

When exogenous ATP is added to suspensions of TA3 ascites tumor cells suspended in Ca++ and Mg++ free media, a significant increase in cell volume can be measured. This increase is reversible upon addition of Ca++ and/or Mg++ back to the media. The enlargement of these cells is temperature sensitiv