Experimentally induced modifications in surface morphology of Ehrlich ascites tumor cells

Observations with scanning electron microscopy /SEM/ were carried out on Ehrlich ascites tumor /EAT/ cells incubated 2 to 4 h at 37 degrees C in hyperosmotic media in the presence and in the absence of serum. It was found that the cells even if maintain spherical shape show significant differences in the architecture of their surface. A need for control observations with SEM of cell surface morphology in biochemical and biophysical research concerning plasma membrane functions and properties is pointed out.     

Electron microscopical observation of RNA on the surface of Ehrlich ascites tumor cells

The structure of RNA on the surface of Ehrlich ascites tumor cells was studied under an electron microscope using both plasma polymerization replica films and ultrathin sections of the cells. Necklace-like structures were found on the cell surface where anti-RNA antibody was bound in replica film, and particles which resemble cytoplasmic ribosomes in size and density were found distributed sparsely on the cell surface in ultrathin sections. These particles were found to gather at one pole of the cell surface after the cell was incubated at 4 degrees C with anti-RNA antibody and then incubated at 37 degrees C for 10 min in antibody-free medium. On the other hand, L1210 cells which do not bind with anti-RNA antibody showed hardly any such structures on the cell surface. These results suggest that RNA on the surface of Ehrlich ascites tumor cells is present in the form of particles.     

Relationship between fatty acid and glucose utilization in Ehrlich ascites tumor cells

Glucose greatly increased total free fatty acid (FFA) esterification by Ehrlich ascites tumor cells. However, the FFA concentration of the cells was not altered. Less exogenous FFA was oxidized to CO(2) at any given extracellular FFA:albumin molar ratio when glucose was available, but increasing amounts of radioactive CO(2) were produced as the FFA:albumin molar ratio was raised, even in the presence of glucose. It is suggested that glucose, by providing either energy or an excess of triose acceptor for fatty acid esterification, stimulated FFA uptake only indirectly, by increasing the utilization of FFA subsequent to initial uptake from the medium, i.e., by increasing the turnover rate of the cellular FFA pool. Availability of glucose decreased the oxidation of endogenous lipid radioactivity and the depletion of endogenous lipid ester radioactivity. Most of the radioactivity utilized was derived from phospholipids, and depletion of phospholipid radio-activity was spared when glucose was available. Depletion of cellular total lipid ester also was spared in the presence of glucose. Availability of FFA did not decrease total glucose uptake or its oxidation to CO(2). Glucose utilization by these cells appears not to be regulated by FFA availability in the manner that Randle and coworkers described for muscle.     

Identification of the major annexins in Ehrlich ascites tumor cells

• 1.1. Three calcium-binding proteins have been purified from Ehrlich ascites tumor cells.
• 2.2. They were identified by amino acid sequence analysis on selected fragments obtained by tryptic digestion.
• 3.3. The proteins belong to the annexin family and were identified as annexins II, III and V.
• 4.4. Antibodies raised against the proteins were used to examine for their presence in a number of murine tissues.
• 5.5. The occurrence was found to be in reasonable accordance with earlier reports.

     

Self-inhibition of chloride transport in Ehrlich ascites tumor cells

Previous studies have shown that mediated Cl- transport which occurs by at least two processes (Cl- -dependent cation cotransport and Cl- self-exchange) becomes progressively inhibited when extracellular Cl- exceeds about 60 mM (Hoffmann et al., 1979). To account for this type of kinetic behavior, that is, self-inhibition, an anion transport system possessing two sites, a high affinity transport site and a lower affinity modifier site is suggested (Dalmark, 1976). In the present experiments we have attempted to determine which of the mediated transport pathways is susceptible to self-inhibition by studying the dependence of the steady state Cl- flux on the extracellular Cl- concentration and how DIDS, an inhibitor of Cl- self-exchange, and H + affect this relationship. Addition of DIDS to Ehrlich cells results in inhibition of Cl- transport at every Cl- concentration tested (40-150 mM). Moreover, the Cl- flux/Cl- concentration relationship no longer exhibits self-inhibition, suggesting that this phenomenon is a characteristic of the Cl- self-exchanger rather than of the Cl- -dependent cation cotransport system. Lowering the extracellular pH (pHo) from 7.35 to 5.30 stimulates Cl- transport by a process that saturates with respect to [H +]. Half-maximal stimulation occurs at pHo 6.34. A comparison of the kinetic parameters, Ks and Jmax, calculated from the ascending limb of the Cl- flux/Cl- concentration curve at pHo 7.30 to those at pHo 5.50 show that the values for Ks are almost identical (23.6 mM and 21.3 mM, respectively), while the values for Jmax [22.2 mEq/Kg dry wt) X min] differ by only 15%. This finding along with the observation that DIDS completely blocks H + stimulation of Cl- transport is compatible with the suggestion that H + interact at the modifer site of the Cl- self-exchanger and thereby prevents self-inhibition.