Fulgencio Proverbio

Na+-stimulated ATPase activities in kidney basal-lateral plasma membranes

In the present work we demonstrate the existence of a Na+-dependent ATPase activity, which is insensitive to ouabain, and which is 100% inhibited by 1.5 mM ethacrynic acid in freshly prepared, basal-lateral enriched, plasma-membrane fractions obtained from guinea-pig kidney cortex slices (which are mainly made up by proximal tubules). This ATPase activity has characteristics similar to those described previously in a microsomal fraction of the guinea-pig kidney cortex by a procedure which required ageing of the preparation for more than two weeks (Proverbio, F., Condrescu-Guidi, M. and Whittembury, G. (1975) Biochim. Biophys. Acta 394, 281-292), it does not seem to be due to some partially modified activity of the Mg2+-ATPase, the (Na+ + K+)- or the Ca2+-ATPase activities present in this tissue. It seems to be due to the activity of another system, which is located on the basal-lateral membrane of the kidney tubular cells.

Sensitivities of (Na+K+)-ATPase and NA+ extrusion mechanisms to ouabain and ethacrynic acid in the cortex of the guinea-pig kidney☆

1. 1. The effects of ouabain and ethacrynic acid on the transport of ions by cortex slices from guinea-pig kidney have been studied and compared with their effect on a microsoma (Na+K+)-ATPase preparation from the same tissue. 2. 2. The extrusion of Na+ accompanied by Cl− is almost insensitive to ouabain, whereas the exchange of Na+ for K+ is 50 % inhibited at an ouabain concentration that is only slightly higher than that needed to inhibit the (Na+K+)-ATPase by 50 %. The total inhibition of the Na+K+ exchange is accomplished at the same drug concentration as that required to inhibit the (Na+K+)-ATPase completely. 3. 3. On the other hand, 2·10−3 M ethacrynic acid has only a slight effect on the Na+K+ exchange, whereas it completely inhibits the extrusion of Na+ accompanied by Cl−. The level of ethacrynic acid required to inhibit the (Na+K+)-ATPase half maximally is 100 times greater than that of ouabain. 4. 4. The residual ATPase activity in the absence of Na+ and K+ but in the presence of Mg2+ is completely insensitive to ouabain, but is nevertheless inhibited by high doses of ethacrynic acid. 5. 5. The results suggest that two pumps are involved in Na+ extrusion from the kidney cortex cell. One involves exchange for external K+ and derives its energy from the (Na+K+)-ATPase. The other, which should be most effective in cell volume regulation, expels Na+ accompanied by Cl− without the involvement of (Na+K+)-ATPase.

Partial characterization of the ouabain-insensitive, Na+-stimulated ATPase activity of kidney basal-lateral plasma membranes

The present paper characterizes the Na+-stimulated ATPase activity present in basal-lateral plasma membranes from guinea-pig kidney proximal tubular cells. These characteristics are compared with those of the (Na+ + K+)-stimulated ATPase activity, and they are: (A) Na+-ATPase activity: (1) requires Mg2+; (2) may be activated by mu molar quantities of Ca2+; (3) optimal ratio Mg:ATP = 5:1-2 and Ka for Mg:ATP = 3:0.60 mM; (4) Ka for Na+:8 mM; (5) does not require K+; (6) is only stimulated by Na+ and Li+ (in a lower extent); (7) is similarly stimulated by the Na+ salt of different anions; (8) hydrolyzes only ATP; (9) optimal temperature: 47 degrees C; (10) optimal pH: 6.9; (11) is ouabain insensitive; (12) is totally inhibited by 1.5 mM ethacrynic acid, 2 mM furosemide and 0.75 mM triflocin. (B) (Na+ + K+)-ATPase activity: (1) also requires Mg2+; (2) is inhibited by Ca2+; (3) optimal ratio Mg:ATP = 1.25:1 and Ka for Mg:ATP = 0.50: 0.40 mM; (4) Ka for Na+: 14 mM (data not shown); (5) needs K+ together with Na+; (6) K+ may be substituted by: Rb+ greater than NH+4 greater than Cs+; (7) is anion insensitive; (8) hydrolyzes mostly ATP and to a lesser extent GTP, ITP, UTP, ADP, CTP; (9) optimal temperature: 52 degrees C; (10) optimal pH: 7.2; (11) 100% inhibited by 1 mM ouabain; (12) 63% inhibited by 1.5 mM ethacrynic acid, 10% inhibited by 2 mM furosemide and insensitive to 0.75 mM triflocin.

Na+-ATPase is a different entity from the (Na+ + K+)-ATPase in rat kidney basolateral plasma membranes

In this work, we present evidence in agreement with the hypothesis that there exist two Na+-stimulated ATPase activities in basolateral plasma membranes from rat kidney proximal tubular cells: (1) (Na+ + K+)-ATPase activity, which is inhibited by ouabain and by treating the membranes with trypsin, is insensitive to furosemide and reaches maximal activity upon treatment with SDS at an SDS/protein ratio of 1.6; (2) the Na+-ATPase activity, which is insensitive to ouabain and to trypsin treatment, is inhibited by furosemide and reaches maximal activity upon treatment with SDS at an SDS/protein ratio of 0.4.

Ouabain-insensitive Na-ATPase activity in homogenates from different animal tissues.

1. Two Na(+)-stimulated ATPase activities were determined in gill homogenates from squid, shrimp and teleost fish; in kidney slice homogenates from teleost fish, bullfrog, toad, iguana, chicken, duck, rat, pig and cow, as well as in homogenates from rat small intestinal cells, brain cortex and liver slices. The two Na(+)-stimulated ATPase activities, the Na- and the Na,K-ATPase, showed a different behavior toward K+ and ouabain. 2. The ouabain-insensitive, K(+)-independent, Na-ATPase activity for all the studied homogenates was completely inhibited by 2 mM furosemide. 3. An increase in cell volume of the kidney, brain cortex and liver slice preparations, as well as of the rat small intestinal cells, produced a concomitant increase of the ouabain-insensitive Na-ATPase.

Active sodium transport in basolateral plasma membrane vesicles from rat kidney proximal tubular cells

Inside-out vesicles prepared with basolateral plasma membranes from rat kidney proximal tubular cells can accumulate Na+ actively in two ways. Mode 1, which is K+-independent, is ouabain-insensitive and is inhibited by furosemide and mode 2, which is K+-dependent, is inhibited by ouabain and is insensitive to furosemide. The presence of Mg2+ and ATP in the incubation medium is essential for both modes of Na+ uptake to proceed and in both cases, the nucleotide is hydrolyzed during the process. These results are consistent with the idea of the existence, in these membranes, of two Na+ pumps: one, which can work in the absence of K+ (Na+ pump) and another, which needs K+ to work (Na+ + K+ pump).

Preeclampsia, lipid peroxidation, and calcium adenosine triphosphatase activity of red blood cell ghosts

OBJECTIVE We evaluated the effect of lipid peroxidation on the calcium adenosine triphosphatase activity of red blood cell ghosts from normotensive pregnant women and compared it with the adenosine triphosphatase activity and lipid peroxidation in preeclampsia. STUDY DESIGN Ten nulliparous normotensive and 10 nulliparous preeclamptic pregnant women (38 to 39 weeks of gestation) were used as blood donors. Preeclampsia was diagnosed on the basis of blood pressure (>140/90 mm Hg) and proteinuria (>0.5 gm of urinary protein per day). Red blood cell ghosts were prepared for both groups and used for calcium adenosine triphosphatase activity and lipid peroxidation determinations. Control ghosts (normotensive) were irradiated with ultraviolet light for different lengths of time. RESULTS Calcium adenosine triphosphatase activity of red blood cell ghosts from normotensive women is sensitive to lipid peroxidation. The lipid peroxidation of red blood cell ghosts from preeclamptic women is higher than that from normotensive women. CONCLUSION The diminution of the calcium adenosine triphosphatase activity with preeclampsia could be explained by the sensitivity of this adenosine triphosphatase to lipid peroxidation.

Inside-out basolateral plasma membrane vesicles from rat kidney proximal tubular cells

A method for preparation of highly purified basolateral plasma membranes from rat kidney proximal tubular cells is reported. These membranes were assayed for the presence of vesicles as well as for their orientation. (Na+ + K+)-ATPase activity and [3H]ouabain binding studies with membranes treated with or without SDS revealed that the preparation consisted of almost 100% vesicles. The percentage of inside-out vesicles was found to be approx. 70%. This percentage was determined measuring the (Na+ + K+)-ATPase activity in K+-loaded vesicles and in membranes treated with or without trypsin and SDS. These membranes represent a very efficient tool to assay the correlation between active transport and ATPase activities in basolateral plasma membranes from rat kidney proximal tubular cells.

Ouabain-insensitive Na(+)-ATPase activity of Malpighian tubules from Rhodnius prolixus.

In the present paper, we show the existence of a furosemide-sensitive Na(+)-stimulated, Mg(2+)-dependent ATPase activity in cell lysates of Malpighian tubular cells from Rhodnius prolixus, which could be the biochemical expression of the Na(+)-pump. The main characteristics of this activity are: (1) K0.5 for Na+ = 1.49 +/- 0.18 mM, (2) Vmax = 2.8 +/- 0.1 nmol inorganic orthophosphate (Pi).mg prot-1.min-1, (3) it is fully abolished by 2 mM furosemide, (4)it is insensitive to ouabain concentrations up to 10(-2) M, (5) it is sensitive to the presence of vanadate in the incubation medium indicating it to be a P-type ATPase, and (6) it is stimulated by nanomolar concentrations of Ca2+ in the incubation medium.

Preeclampsia and calcium adenosine triphosphatase activity of red blood cell ghosts

OBJECTIVE The current work was undertaken to study the calcium adenosine triphosphatase activity of red blood cell membranes from pregnant women with preeclampsia. STUDY DESIGN Six normotensive and six preeclamptic pregnant women at 38 to 39 weeks of gestation were studied. The diagnosis of preeclampsia was made on the basis of blood pressure (> 140/90 mm Hg), proteinuria (> 0.5 gm of urinary protein per day), or edema. Hemoglobin-free red blood cell ghosts were prepared from the heparinized blood samples and were used to determine the calcium adenosine triphosphatase activity. RESULTS It was found that the calcium adenosine triphosphatase activity of preeclamptic women is diminished by about 50% compared with that of normotensive pregnant women. CONCLUSION A diminution of the calcium adenosine triphosphatase activity of erythrocytes in preeclampsia might be an indication that the in vivo activity of the calcium pump of these cells is diminished, which could, in turn, drive the cells to increase their cytoplasmic free calcium concentration.