Sodium 22+ washout from cultured rat cells

The washout of Na+ isotopes from tissues and cells is quite complex and not well defined. To further gain insight into this process, we have studied 22Na+ washout from cultured Wistar rat skin fibroblasts and vascular smooth muscle cells (VSMCs). In these preparations, 22Na+ washout is described by a general three-exponential function. The exponential factor of the fastest component (k1) and the initial exchange rate constant (kie) of cultured fibroblasts decrease in magnitude in response to incubation in K+-deficient medium or in the presence of ouabain and increase in magnitude when the cells are incubated in a Ca++-deficient medium. As the magnitude of the kie declines (in the presence of ouabain) to the level of the exponential factor of the middle component (k2), 22Na+ washout is adequately described by a two-exponential function. When the kie is further diminished (in the presence of both ouabain and phloretin) to the range of the exponential factor of the slowest component (k3), the washout of 22Na+ is apparently monoexponential. Calculations of the cellular Na+ concentrations, based on the 22Na+ activity in the cells at the initiation of the washout experiments, and the medium specific activity agree with atomic absorption spectrometry measurements of the cellular concentration of this ion. Thus, all three components of 22Na+ washout from cultured rat cells are of cellular origin. Using the exponential parameters, compartmental analyses of two models (in parallel and in series) with three cellular Na+ pools were performed. The results indicate that, independent of the model chosen, the relative size of the largest Na+ pool is 92-93% in fibroblasts and approximately 96% in VSMCs. This pool is most likely to represent the cytosol.     

Transport-active renal tubular epithelial cells (MDCK and LLC-PK1) in culutre. Prostaglandin biosynthesis and its regulation by peptide hormones and ionophore

Renal tubular epithelial cells isolated from dog and pig kidney (MDCK and LLC-PK₁, respectively) transport water and electrolytes in culture. MDCK cells resemble collecting tubule cells by additional, but not all, morphologic and biochemical criteria. It has previously been reported that PGE₂ appears to regulate transport activity by MDCK cells as well as their proliferation. We investigated prostaglandin biosynthesis by MDCK and LLC-PK₁ cells and assessed the effects of peptide hormones, bradykinin and vasopressin, on the cells' prostaglandin biosynthesis. Thin-layer chromatography of radioactive products released by MDCK cells labelled with octatritiated of [¹⁴C] arachidonic acid indicated the presence of materials comigrating with PGE₂, PGI₂ (detected as 60oxo0PGF₁α) and PGF₂α, in decreasing order of abundance. Maclofenamate inhibited the biosynthesis of all radioactive peaks comigrating with PGs, thus confirming their identities as product of fatty acid cyclo-oxygenase activity. The chemical identities of [³H] PGE₂ and [³H] 6-oxo-PGF₁α made by the cells were further confirmed by treatment with KOH. Radioimmunoassay of culture fluids incubated with MDCK cells verified that PGE₂ was the most abundant prostaglandin. Tranylcypromine, thought to be a specific inhibitor of prostacyclic synthetase, inhibited PGE₂ as well as PGI₂ biosynthesis indicating a lack of specificity of the inhibitor. The observation of PGE₂ and PGF₂α as respectively the most and least abundant prostaglandinds made by MDCK was in disagreement with results from another laboratory in which the reverse order of abundance was found. This suggests the presence of more than one cell line identified as MDCK but having different biochemical properties.Bradykinin stimulated acylhydrolase activity as well as PGE₂ and PGI₂ biosynthesis in MDCK cells while vasopressin had little or no effect. These results support the hypothesis that bradykinin's natriuretic effects may be mediated by prostaglandinds and that vasopressin is unlikely to acutely stimulate prostaglandin biosynthesis in collecting tubule cells $\text{in}$$\text{vivo}$. Endogenous PGE₂ may also regulate the proliferation of MDCK cells in culture.In contrast to MDCK cells, LLC-PK₁ cells lacked significant prostaglandin biosynthetic capability as documented by radiometric thin-layer chromatography and radioimmunoassay. This suggests that prostaglandins may have a modulatory rather than an obligatory role in regulating transport activity by tubular epithelial cells.     

Isolation of viable deletion mutants of Streptomyces actinophage (Pal 6) and their molecular characterization

Summary Deletion mutants of bacteriophage Pal 6 were isolated by successive treatments of either heat (60° C) or pyrophosphate (10 mM). These mutants were characterized by restriction enzyme cleavage analysis. The pyrophosphate resistant clones lost the whole Eco R1 fragment in which the Sal I site is located, as well as an unrelated Hind III fragment. These results show that the region containing the Sal I site in the phage genome is not essential for phage viability. This single Sal I site is therefore suitable as a potential insertion site for DNA cloning. On the other hand, the heat resistant clones that were isolated and characterized do not appear to have detectable deletions as indicated by their Eco R1 DNA digestion pattern.