Low-dose desmopressin infusion: renal action in healthy women in moderate salt retention and depletion, and interactions with prostanoids.

Studies were carried out to evaluate the influence of variations in sodium balance on the renal response to low-dose infusion of 1-desamino-8- D -arginine vasopressin (dDAVP), and the functional interaction between dDAVP and renal prostanoids. The studies were performed on healthy women in conditions of extracellular fluid volume expansion (SR group, n =9) and depletion (SD2 group, n=6), respectively. The study protocol included hypotonic polyuria (induced by oral water load) and subsequent antidiuresis (induced by low-dose infusion of dDAVP). Three 60-min clearance (cl.) periods were performed during polyuria (cl. P), early (cl. A1) and late (cl. A2) antidiuresis. The urinary concentrations of prostaglandin (PG) E(2) and the stable metabolites of PGI(2) and thromboxane (Tx) A(2), 6-keto-PGF(1alpha) (6KPGF) and TxB(2), were estimated. Paired renal functional explorations were performed in salt retention and salt depletion both in absence and presence of indomethacin (SR.I and SD2.I groups). In both paired and unpaired studies, the early and late effects of dDAVP on the functional excretory variables and the excretion of prostanoids were assessed as percentage variations, (A1-P)% P and (A2-A1)% A1. (I) dDAVP in salt retention and depletion. During early infusion dDAVP produced in both conditions a significant reduction in urinary flow rate, creatinine cl., absolute and fractional excretions of sodium, chloride and potassium; during late infusion dDAVP was effective in inducing a further significant reduction in urinary flow rate. In salt retention compared to depletion the early reductions in sodium and chloride (absolute and fractional) excretions were significantly lower. (II) Indomethacin pretreatment. During early infusion the dDAVP-induced reductions in the urinary flow rate and 6KPGF excretion were enhanced in both conditions. In salt depletion the dDAVP effects in reduction of creatinine cl. and urinary electrolyte excretions were also enhanced. During late infusion the antidiuretic effect of dDAVP was suppressed in salt retention, while in salt depletion creatinine cl., the urinary excretions of electrolytes and both 6KPGF and TxB(2) showed increases significantly different from the dDAVP effects in the absence of indomethacin. In conclusion, (a) the salt-retaining effect of dDAVP was less effective in salt retention compared to depletion. (b) Indomethacin pretreatment affected the renal action of dDAVP in a time-dependent pattern. The early effects in both conditions were consistent with an inhibited synthesis of modulator PGs. On the contrary, the late effects were consistent with the occurrence, at least in salt depletion, of an escape from dDAVP renal action. This escape phenomenon probably depended on a partial regression of the pharmacological inhibition of the modulating PGs.

Volume-induced natriuresis in healthy women: renal metabolism of prostacyclin and thromboxane, and physiological role of prostanoids.

In healthy women submitted to a short-term expansion in extracellular fluid volume we have evaluated the urinary excretory profile of the stable metabolites of prostaglandin(PG) I2 and thromboxane(TX) A2, 6-keto-PGF1 alpha(6KPGF) and TXB2 respectively, and assessed the physiological role played by the prostanoids in this experimental condition. Salt retention (SR group, n=9) was induced by repeated i.v. infusion of saline solution (0.9% NaCl). At the end of the treatment the body weight had increased by 0.7+/-0.2 kg (mean+/-SEM) (P<0.05). Renal functional exploration [clearance (cl.) method] was performed during hypotonic polyuria (induced by oral water load) and subsequent moderate antidiuresis (induced by low-dose infusion of an antidiuretic hormone analogue). Urinary 6KPGF and TXB2 concentrations were estimated by RIA method during polyuria (P cl. period), early and late antidiuresis (A1 and A2 cl. periods). Paired functional explorations were performed in absence (control study) and presence of indomethacin. Basal values of plasma sodium and potassium concentrations, plasma renin activity (PRA) and urinary aldosterone excretion were determined just before the control study. The results in salt retention were compared to those previously obtained in healthy women submitted to a moderate salt depletion (SD2 group, n=6), in absence and presence of the drug. Women in salt retention received 100 mg i.m. of the drug, whereas salt-depleted women received only a halved dose as in previous studies in salt depletion the full dose produced prolonged anuria. (I) Salt retention vs salt depletion. The basal values of PRA and urinary aldosterone excretion were significantly lower. During polyuria, urinary excretion of 6KPGF, 6KPGF/TXB2 ratio, urinary flow rate, creatinine cl. and absolute and fractional excretions of sodium and chloride were significantly higher. In salt retention during polyuria, significant positive correlations were found between 6KPGF excretion and functional excretory parameters. (II) Indomethacin in salt retention. The following effects were significant: (a) a reduction in prostanoid excretions in P and A1 cl. periods only; (b) during polyuria, an increase in arterial pressure, a reduction in urinary flow rate and creatinine cl. (saluresis showed not significant reduction). During polyuria significant positive correlations occurred between the absolute effects of indomethacin on 6KPGF excretion and those on functional excretory parameters. (III) Comparative effects of indomethacin in salt retention and salt depletion. Despite the double dosage of the drug, the significant reductions in urinary metabolite excretions were not significantly different during P cl. period and significantly lower in A1 cl. period compared to the corresponding significant reductions in salt depletion. During polyuria, the significant increase in arterial pressure was significantly different from the not significant effect in salt depletion; the not significant effect on saluresis was significantly different from the significant reduction in salt depletion. The results suggest the following conclusions: (1) The present model showed the functional pattern of the volume-natriuresis; (2) In salt retention, in contrast with salt depletion, indomethacin induced an increase in arterial pressure consistent with the inhibition of a PG-dependent vasodilator mechanism active at the systemic level; (3) In salt retention, in contrast with salt depletion, indomethacin failed to induce a significant reduction in saluresis. This failure can be attributed to the drug's blunted effectiveness in inhibiting the renal synthesis of saluretic PGs, and probably to the interference of the concurrent increase in arterial pressure in the renal treatment of sodium and chloride.

Application of Prastat ELISA in the determination of anti-HLA specificity for immunized patients awaiting kidney transplant: five years' experience.

Three hundred sixty-five patients who underwent cadaver donor kidney transplantation between 1993 and 1998 were divided into four groups: 40 immunized patients with at least one peak panel-reactive antibody (PRA) value more than 50%, 11 hyperimmunized patients with more than three peak PRA values over 50%, 10 retransplanted patients and 304 control patients. Before transplantation, we ascertained the antibody specificities against individual HLA antigens (Prastat Sangstat ELISA method for HLA typing of first donor, husbands of multiparous women and potential donors against whom candidates gave positive cross-matches); thus, patients underwent transplantation excluding the presence of the HLA antigens previously detected and looking for high HLA (class I and II) compatibility. Actuarial graft survival after 12 months was satisfactory in all groups: 87% immunized, 81% hyperimmunized and 80% retransplanted vs 92% controls. Renal function at the end of the first year was similar and the number of rejection episodes in the first 3 months did not significantly differ.

Renal synthesis of prostacyclin and thromboxane in healthy women: differential effects of a short-term saline loading.

It is accepted that the urinary excretions of the stable metabolites of prostaglandin (PG)I2 and thromboxane(Tx) A2, 6-keto-PGF1alpha (6KPGF) and TxB2 respectively, provide an accurate estimate of both basal and stimulated renal synthesis of their precursors. The excretory profile of these metabolites has been evaluated in healthy women submitted to a short-term expansion in extracellular fluid volume. Salt retention (SR group, n=6) was induced by physiological saline (0.9% NaCl) i.v. infusions (2 L per day) over a period of 2 days. On the third day the increase in body weight was 0.92 +/- 0.27 kg (P<0.05). The results of the study have been compared to those previously obtained in normal balance of sodium and potassium (N group, n=20) and in induced salt depletion (SD group, n=14). A common study protocol was used. Basal values of plasma renin activity (PRA) and urinary aldosterone excretion were determined. Renal functional exploration [clearance (cl.) method] was performed during hypotonic polyuria (induced by oral water load) and subsequent moderate antidiuresis (induced by low-dose infusion of an antidiuretic hormone analogue). Urinary 6KPGF and TxB2 concentrations were estimated by RIA method and their urinary excretions were determined at both high and low urinary flow rates. The linear regressions of the urinary metabolite excretions vs. urinary flow rate were estimated by using the data obtained in both hypotonic polyuria and antidiuresis. Salt retention (SR vs. N group) was effective in decreasing the basal values of plasma renin activity and urinary aldosterone excretion. Moreover, during hypotonic polyuria it was effective in increasing the absolute and fractional excretions of sodium and chloride, in the absence of significant variations in mean arterial pressure and creatinine cl. Regarding urinary prostanoid excretions the following results were obtained. 1. Comparative data for hypotonic polyuria. In the SR vs. N group, the urinary excretion of 6KPGF was significantly higher, whereas that of TxB2 was not significantly different. In the SR vs. SD group, the urinary excretion of 6KPGF was not significantly different, whereas that of TxB2 was significantly lower. 2. Comparative data for the regression lines of the urinary prostanoid excretions vs. diuresis. In the SR vs. N group, the regression line slope for 6KPGF excretion was significantly higher, whereas that for TxB2 excretion was not significantly different. In the SR vs. SD group, the regression line slope for 6KPGF excretion was not significantly different, whereas that for TxB2 excretion was significantly lower. 3. Correlative data in the SR group during hypotonic polyuria. The plasma chloride concentration was positively correlated with urinary flow rate, absolute and fractional chloride excretions, and 6KPGF excretion but not with TxB2 excretion. In conclusion, functionally effective salt retention in healthy women induces a selective stimulation of renal synthesis of prostacyclin, unlike salt depletion, in which the synthesis of both PGI2 and TxA2 is upregulated.

Renal function and urinary prostanoid excretions in salt-depleted women: comparative effects of enalapril and indomethacin treatments.

The acute effects on urinary prostanoid excretion and on renal function induced by pharmacological inhibition of either the angiotensin-converting enzyme or of the cyclooxygenase system, respectively, have been studied in healthy salt-depleted women. Two experimental groups were studied during salt depletion, SD1 (n=8) and SD2 (n=6). Salt depletion was obtained by combining a low sodium chloride dietary intake (< or =60 mmol per day) with natriuretic and potassium sparing treatment. Paired studies were performed in the absence and in the presence of enalapril (SD1 group) or indomethacin (SD2 group). In both paired studies renal function was estimated by the clearance (cl.) method and the urinary concentrations of PGE2, 6-keto-PGF1alpha and TXB2 were estimated by RIA during sustained hypotonic polyuria (induced by oral water load). Enalapril did not influence urinary excretion of prostanoids. Its main significant effects were: (a) a reduction in mean arterial pressure (MAP); (b) an increase in free-water cl. (C(H2O)) and a reduction in osmolar cl. (Cosm); (c) a reduction in the absolute and fractional urinary excretions of sodium and chloride; and (d) a reduction in both the plasma concentration and urinary excretion of potassium. The urinary flow rate and the creatinine cl. were not significantly affected. Indomethacin reduced urinary excretion of prostanoids and in addition it produced the following significant effects: (a) a reduction in urinary flow rate, C(H2O) and Cosm values, and in absolute and fractional urinary excretions of sodium and chloride; and (b) an increase in plasma potassium concentration. MAP, creatinine cl. and urinary potassium excretion were not significantly affected. With regard to the main parameters, both enalapril and indomethacin exerted similar effects on urinary sodium and chloride excretion but opposite effects on C(H2O) and plasma potassium concentration. In conclusion, after enalapril in a salt-depleted state, the functional expression of acute angiotensin II deprivation was partially masked by the activation of a homeostatic system responsible both for improvement in renal salt conservation and for facilitated cellular potassium uptake. After indomethacin in the same setting, the results were consistent with a differential role of prostanoids in modulating or mediating the activities of neuro-hormonal agonists.

Renal prostanoids: physiological relevance in healthy salt-depleted women.

The effective role played by prostanoids in the control of renal function has been investigated in healthy women with salt depletion. Salt depletion (SD2 group, n = 6) was induced by low sodium chloride dietary intake (< or = 60 mmol per day) and combined treatment with natriuretic and potassium-sparing drugs. At the end of the depletive treatment, the cumulative sodium deficit was 513 +/- 56 mmol. The renal function and urinary excretions of prostaglandin (PG) E2, 6-keto-PGF1 alpha (6KPGF) and thromboxane (Tx) B2 were evaluated during hypotonic polyuria. The basal values of plasma sodium and potassium concentrations, plasma renin activity (PRA) and urinary aldosterone excretion were determined before the induction of hypotonic polyuria. Paired studies were performed in the absence (control) and presence of indomethacin both in the SD2 group and in a previously studied group (N2, n = 6) of healthy women in normal sodium and potassium balance. Women in normal balance received 100 mg i.m. of indomethacin, salt-depleted women received only 50 mg (because 100 mg of the drug produced a prolonged anuria). In the SD2 vs. N2 group in the absence of treatment the following significant differences were found: (a) higher basal values of PRA and urinary aldosterone excretion; (b) higher urinary excretions of 6KPGF and TxB2 but not of PGE2; (c) lower values of urinary flow rate, creatinine clearance, absolute and fractional excretions of sodium and chloride, plasma osmolality and plasma electrolyte concentrations. The effects of the indomethacin have been assessed as percentage variations by using paired data for each experimental group. In the SD2 vs. N2 group the reduction in urinary excretions of 6KPGF, TxB2 and potassium as well as in creatinine clearance were not significantly different. On the other hand, the following were significantly different: (a) the lower reduction in PGE2 excretion; (b) the higher reduction in urinary flow rate and in CH2O; (c) the reductions in absolute and fractional excretions of sodium and chloride, and the increase in plasma potassium concentration, significant in the SD2 group but not in the N2 group. The data suggest that: (1) when stimulated by salt depletion the renal biosynthetic pathways of PGI2 and TxA2 showed greater sensitivity to indomethacin inhibition; (2) the effects of the neurohormonal systems activated by salt depletion were either modulated or mediated by renal prostanoids.

Effects of experimental salt depletion on urinary prostanoid excretions in normal women.

The effects of moderate salt depletion on urinary excretions of prostanoids (PG)E2, 6-keto-PGF1alpha (6KPGF) and thromboxane (TX)B2 have been investigated in healthy women (SD group, n = 14). Salt depletion was obtained by combining a low sodium chloride dietary intake (< 60 mmol per day) with natriuretic and potassium sparing treatment. At the end of the treatment, the cumulative sodium deficit was 438 +/- 42 mmol (mean +/- SEM). Plasma renin activity (PRA) and urinary aldosterone excretion were determined in basal conditions. Renal functional exploration was performed during hypotonic polyuria (by oral water load) and subsequent moderate antidiuresis (by low dose infusion of an antidiuretic hormone analogue). In both phases, renal function was estimated by the clearance (cl.) method and the urinary concentrations of PGE2, 6KPGF and TXB2 by RIA method. The control group was composed of 20 healthy women in normal sodium and potassium balance (N group). Salt depletion was effective in increasing the basal values of plasma renin activity (PRA) and urinary aldosterone excretion. Moreover, it was effective in inducing the following during polyuria: (a) a depression of the diuretic response to water load in presence of a reduction in plasma osmolality; (b) a reduction in creatinine cl. in the absence of significant changes in mean arterial pressure; (c) an increase in the fractional reabsorption of sodium and chloride, in particular at the level of the diluting segments. Both in polyuria and in antidiuresis, the excretions of 6KPGF and TXB2 were higher in the SD vs. N group, while the excretion of PGE2 was not significantly different. In SD and N pooled groups, significant positive correlations were shown between basal PRA and urinary excretions during polyuria of 6KGPF and TXB2, (but not of PGE2) as well as between the excretions of the two metabolites. In conclusion, functionally effective salt depletion induces in healthy women a stimulation of renal synthesis of both prostacyclin and thromboxane. The excretory data do not give evidence of a similar effect on PGE2 synthesis.

Responses of the renal prostanoids to a short-term depletion of sodium or potassium in healthy women.

The short-term effects of extracellular fluid volume depletion on the generation of some bioregulators of the renal function have been studied in healthy women. Eight subjects (SD group) were submitted to a low NaCl dietary intake and natriuretic treatment. At the end of the treatment (6 days) a cumulative sodium deficit of 381 +/- 55 mmol (mean +/- SEM) and a body weight variation of -2.1 +/- 0.28 kg were estimated. The renal function was explored by clearance method during hypotonic polyuria induced by oral water load and subsequent antidiuresis induced by low-dose infusion of lysine-8-vasopressin. The basal values of plasma renin activity were determined just before the water load as well as the urinary aldosterone excretion of the foregoing 24 hours was. During the renal functional exploration the urinary concentrations of PGE2, 6-keto-PGF1 alpha (6KPGF) and TxB2 were determined by RIA method. We report also, as comparison terms, the results obtained either in potassium depletion (KD group, n = 12) or in normal sodium and potassium balance (N group, n = 20). 1) In the SD vs N group-besides the increase in renin and aldosterone secretion-the behaviour of urinary prostanoids is consistent with a stimulation of the renal synthesis of PGI2 and TxA2 as well as of PGE2, at least as a trend. 2) In the KD vs N group an increase in renin secretion occurred while the urinary aldosterone was not significantly decreased. The urinary prostanoid data suggest an inhibition of the renal synthesis of PGE2 and PGI2. All three urinary prostanoids were significantly lower in the KD as compared to the SD group. Thus, in salt depletion the renal prostanoid synthesis was enhanced while it was depressed in potassium depletion, despite the increased renin secretion.

Interactions between acute effect of angiotensin converting enzyme inhibition and salt balance on the renal function and urinary prostanoids. Studies in healthy women.

The acute effects of angiotensin converting enzyme inhibition on the renal function and urinary prostanoids were studied. Healthy women were studied in both sodium depletion (n = 8) and normal balance of sodium and potassium (n = 6). Each woman underwent paired renal functional explorations (by the clearance method during hypotonic polyuria and subsequent antidiuresis) in the absence and in the presence of enalapril. In both experimental conditions enalapril failed to affect urinary prostanoid excretions. Only in the presence of hyperreninemia induced by salt depletion, enalapril was effective in inducing renal tubular effects only partly consistent with a depressed activity of angiotensin-aldosterone system. Specifically, in sodium depletion enalapril treatment promoted a decreasing trend in urinary salt excretion, dependent in turn on selective stimulation of the distal tubule NaCl transport. Furthermore, plasma potassium concentration was reduced despite the concomitant decrease in urinary potassium excretion.