dihydroouabain and Hypothyroidism

dihydroouabain has been researched along with Hypothyroidism* in 1 studies

Other Studies

1 other study(ies) available for dihydroouabain and Hypothyroidism

Article	Year
Thyroid status and regulation of intracellular sodium in rabbit heart. The American journal of physiology, 1997, Volume: 272, Issue:4 Pt 2 To examine the effect of thyroid status on the homeostatic control of intracellular Na+, we studied the effect of treatment of hypothyroid rabbits with 3,5,3'-triiodothyronine (T3). Intracellular Na+ and pH (pHi) in papillary muscles and Na+-K+ pump current (Ip) in ventricular myocytes were measured with ion-sensitive microelectrode and whole cell patch-clamp techniques. Na+ influx, estimated from the rate of increase in intracellular Na+ on sudden Na+-K+ pump blockade with dihydroouabain, and Na+ efflux, calculated from Ip, were similar. Treatment with T3 induced an increase in both Na+ influx and Ip. The treatment-induced increase in Na+ influx was eliminated by 5-(N,N-dimethyl)amiloride (DMA) but not by tetrodotoxin. Treatment with T3 increased the rate of fall in pHi on exposure of the papillary muscles to DMA; when the buffer capacity was taken into account, the T3 treatment-induced increase in this rate corresponded well with the treatment-induced, DMA-inhibitable estimate of Na+ uptake. We conclude that thyroid hormone enhances both Na+-H+ exchange-mediated Na+ uptake and Na+-K+ pump-mediated Na+ efflux. Topics: Amiloride; Animals; Cells, Cultured; Heart; Heart Ventricles; Homeostasis; Hydrogen-Ion Concentration; Hypothyroidism; In Vitro Techniques; Kinetics; Male; Membrane Potentials; Myocardium; Ouabain; Papillary Muscles; Propylthiouracil; Rabbits; Sodium; Sodium-Potassium-Exchanging ATPase; Tetrodotoxin; Thyroid Gland; Triiodothyronine	1997

Article

Year

Thyroid status and regulation of intracellular sodium in rabbit heart.

The American journal of physiology, 1997, Volume: 272, Issue:4 Pt 2

To examine the effect of thyroid status on the homeostatic control of intracellular Na+, we studied the effect of treatment of hypothyroid rabbits with 3,5,3'-triiodothyronine (T3). Intracellular Na+ and pH (pHi) in papillary muscles and Na+-K+ pump current (Ip) in ventricular myocytes were measured with ion-sensitive microelectrode and whole cell patch-clamp techniques. Na+ influx, estimated from the rate of increase in intracellular Na+ on sudden Na+-K+ pump blockade with dihydroouabain, and Na+ efflux, calculated from Ip, were similar. Treatment with T3 induced an increase in both Na+ influx and Ip. The treatment-induced increase in Na+ influx was eliminated by 5-(N,N-dimethyl)amiloride (DMA) but not by tetrodotoxin. Treatment with T3 increased the rate of fall in pHi on exposure of the papillary muscles to DMA; when the buffer capacity was taken into account, the T3 treatment-induced increase in this rate corresponded well with the treatment-induced, DMA-inhibitable estimate of Na+ uptake. We conclude that thyroid hormone enhances both Na+-H+ exchange-mediated Na+ uptake and Na+-K+ pump-mediated Na+ efflux.

Topics: Amiloride; Animals; Cells, Cultured; Heart; Heart Ventricles; Homeostasis; Hydrogen-Ion Concentration; Hypothyroidism; In Vitro Techniques; Kinetics; Male; Membrane Potentials; Myocardium; Ouabain; Papillary Muscles; Propylthiouracil; Rabbits; Sodium; Sodium-Potassium-Exchanging ATPase; Tetrodotoxin; Thyroid Gland; Triiodothyronine

1997