J.L. Werness scite author profile

J.L. Werness

4Publications

34Citation Statements Received

58Citation Statements Given

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Mayo Clinic

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Effects of calcium on the vasopressin-sensitive cAMP metabolism in medullary tubules

Kusano¹,

Murayama²,

Werness³

et al. 1985

American Journal of Physiology-Renal Physiology

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The modulatory effect of Ca on [Arg8]vasopressin-dependent (AVP) cAMP metabolism was studied in medullary collecting tubules (MCT) and medullary ascending limbs (MAL) microdissected from rat kidney. In MCT segments incubated in vitro with AVP, the accumulation of cAMP was enhanced (delta +59%) when Ca was omitted from the incubation medium compared with a medium with 2 mM of ionized calcium (Ca2+). Ionophore A23187 caused a decrease in AVP-stimulated cAMP accumulation in MCT in the presence of 2 mM Ca2+ but not in a Ca2+-free medium. Diltiazem and verapamil enhanced the AVP-stimulated cAMP accumulation in MCT; PTH had no detectable effect. A23187 caused a dose-dependent inhibition of cAMP accumulation stimulated by AVP with forskolin in both MCT and in MAL. However, in MAL the A23187 concentration needed for half-maximum inhibition (6.3 X 10(-6) M) was higher than for MCT (3.9 X 10(-7) M). The maximum inhibition in MAL (-65%) was less than in MCT (-97%). In the presence of 3-isobutyl-1-methylxanthine, AVP-stimulated cAMP accumulation was inhibited by A23187 in MCT (-45%) but not in MAL. Naproxen or ibuprofen did not relieve the inhibitory action of A23187 in MCT. Added Ca2+ inhibited the AVP-stimulated adenylate cyclase in MCT and MAL (half-maximum approximately equal to 5 X 10(-4) M Ca2+) and stimulated cAMP phosphodiesterase (cAMP-PDIE) in both MCT and in MAL (half-maximum approximately equal to 9 X 10(-5) M Ca2+). Incubation of MCT and MAL with A23187 decreased (-50%) the content of ATP. Results suggest that increased influx of extracellular Ca2+ inhibits the AVP-stimulated cAMP accumulation in MCT and to a much lesser degree in MAL. Deceased cAMP accumulation in MCT is probably due to both stimulation of cAMP-PDIE and the inhibition of adenylate cyclase, whereas in MAL it is due to stimulation of cAMP-PDIE. The results suggest that Ca2+ influx exhibits a negative modulatory effect on AVP-dependent cAMP metabolism mainly in MCT.

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The Vasopressin-Sensitive Adenylate Cyclase in Collecting Tubules and in Thick Ascending Limb of Henle's Loop of Human and Canine Kidney*

Ruggles

Murayama

Werness

et al. 1985

The Journal of Clinical Endocrinology & Metabolism

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The major tubular effects of [8-Arg]vasopressin (AVP) in regulation of renal water excretion are initiated by stimulation of adenylate cyclase (AdC) coupled with V2 receptors. We explored whether the AVP-sensitive AdC is present in both collecting tubules and the thick ascending limb of Henle's loop of human and canine kidney. In cortical collecting tubule (CCT) and medullary collecting tubules (MCT) of human kidney, AdC was markedly stimulated by AVP [maximum change from basal level (delta), +2700%] and the the nonhormonal stimulatory agent forskolin (delta, +2000%). In human CCT, the effects of both compounds were synergistic. In contrast, AVP had no effect on AdC in either the medullary (MAL) or cortical (CAL) segment of the thick ascending limb of Henle's loop of human kidney; AVP also did not stimulate AdC in CAL or MAL in the presence of forskolin. Similar to that in the human kidney, in the canine kidney, AdC in CCT and MCT was markedly stimulated by AVP and forskolin (delta, +1000%), but AVP had no effect on AdC in CAL and MAL of the canine kidney. In intact tubules dissected from dog kidney and incubated in vitro, AVP markedly increased cAMP accumulation in MCT. AVP also elicited a small but detectable increase in cAMP accumulation in MAL. From these observations, we conclude that AVP-sensitive AdC is well developed in collecting tubules, but that AVP-sensitive AdC is absent in MAL and CAL of human kidney. Likewise, in canine nephron, the AVP-sensitive AdC of MAL and CAL is rudimentary or very labile. These findings suggest that the unresponsiveness of the AdC-cAMP system to AVP in segments of the thick ascending limb of Henle's loop may be a factor that accounts for a relatively low maximum osmotic concentration of urine which can be achieved by human or canine kidneys.

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Evidence for beta adrenoceptors in proximal tubules. Isoproterenol-sensitive adenylate cyclase in pars recta of canine nephron.

Murayama¹,

Ruggles²,

Gapstur³

et al. 1985

J. Clin. Invest.

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Dynamics of NAD in cortical nephron segments: effect of nicotinamide and of dietary phosphate intake

Yusufi¹,

Kiebzak²,

Kusano³

et al. 1987

American Journal of Physiology-Renal Physiology

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NAD content and the rate of NAD hydrolysis were determined in proximal convoluted tubules (PCT), proximal straight tubules (PST), and adjacent cortical nephron segments microdissected from kidneys of thyroparathyroidectomized (TPTX) rats. In the basal state, rats fed a normal phosphate diet had an NAD content higher in PCT, PST, and in cortical ascending limb (CAL) than in glomeruli. After intraperitoneal injection of nicotinamide, the NAD content increased significantly in all nephron segments except CAL; the greatest (delta + 277%) increase was found in PCT, with less (delta + 82%) in PST. In experiments conducted on TPTX rats stabilized on a low-phosphorus diet, NAD content increased in response to a nicotinamide injection in PCT (delta + 197%), but did not change significantly in PST. The catabolism of NAD was determined by generation of [3H]adenosine, a major metabolite of [adenine-2,8-3H]NAD. The rate of [3H]adenosine generation from [3H]NAD was significantly (P less than 0.001) higher in PST than in PCT. We conclude that, in response to nicotinamide administration in vivo, the NAD content increases more in PCT than in PST and that this difference may be, at least partly, due to a lower rate of NAD breakdown in PCT. In a state of dietary phosphate deprivation, NAD also increases significantly in response to intraperitoneal nicotinamide in PCT, but it does not increase significantly in PST. The nicotinamide-elicited increase of NAD content in proximal tubules, mainly in PCT, may be related to inhibition of Na+-gradient-dependent inorganic phosphate (Pi) reabsorption across the brush-border membrane of proximal tubules and to the phosphaturic effect of nicotinamide in rats fed normal-Pi diet.

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J.L. Werness

Effects of calcium on the vasopressin-sensitive cAMP metabolism in medullary tubules

The Vasopressin-Sensitive Adenylate Cyclase in Collecting Tubules and in Thick Ascending Limb of Henle's Loop of Human and Canine Kidney*

Evidence for beta adrenoceptors in proximal tubules. Isoproterenol-sensitive adenylate cyclase in pars recta of canine nephron.

Dynamics of NAD in cortical nephron segments: effect of nicotinamide and of dietary phosphate intake

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