Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P20020 (adenosine triphosphatase)
 3,299 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ouabain, a cardiac glycoside, binds to the Na(+)-K(+)-adenosine triphosphatase (Na+ pump) and prevents active transport of Na+ and K+ across cell membranes. We used [3H]ouabain to quantify the number and affinity of Na+ pumps in skeletal muscle from Quarter Horses with the muscular disorder hyperkalemic periodic paralysis (HYPP). [3H]Ouabain-binding properties of gluteal muscle from clinically normal and affected horses were used to determine whether altered Na+ pump number or affinity could contribute to the pathologic features of muscle in affected horses. Foals and adult horses with HYPP were compared with age-matched clinically normal horses. The number of [3H]ouabain-binding sites in adult gluteal muscle was not different between the 2 types of horses (85.7 +/- 8.9 pmol of [3H]ouabain-binding sites/g [wet muscle weight] in horses with HYPP vs 100.2 +/- 8.8 pmol/g in clinically normal adult horses). Gluteal muscles in HYPP-affected and clinically normal foals also contained a similar number of [3H]ouabain-binding sites (222.3 +/- 21.0 pmol/g vs 225.3 +/- 24.2 pmol/g, respectively). The affinity of these binding sites for ouabain was not different, between adults or foals, in clinically normal or affected horses. Our results indicate that membrane events underlying the periodic episodes of paralysis in horses with HYPP are not attributable to quantitative changes in Na+ pump number or affinity. Our data cannot exclude the possibility that the specific activity of the Na+ pump is altered in muscle from HYPP-affected horses.
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PMID:[3H]ouabain binding in skeletal muscle from horses with hyperkalemic periodic paralysis. 839 Dec 30

A case is presented of a rare complication of hyperthyroidism, known as thyrotoxic hypokalaemic periodic paralysis, in a man from Nepal. A 26-year-old Nepalese man, with known hypokalaemia, was referred to the clinical laboratory services for electrolyte analysis. Results showed Na(+) 120 mmol/l and K(+) 2.8 mmol/l, and he was prescribed potassium chloride. In fact, he had previously been receiving potassium supplementation periodically and his history revealed that he had experienced the same type of attack and was hospitalised 6 months earlier. He had profound tremor and was agitated and irritable during his visit to this hospital. Thyroid function testing showed high T3 (tri-iodothyronine) and T4 (thyroxine) with low thyroid stimulating hormone (TSH) concentration in the serum, indicating thyrotoxic hypokalaemic periodic paralysis. Treatment with neomercazole resulted in an improvement during the follow up visit. Hypokalaemia is believed to be a consequence of a massive shift due to increased sodium-potassium-adenosine triphosphatase (Na(+)K(+)ATPase ) pump activity in the presence of elevated thyroid hormones.
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PMID:Thyrotoxic hypokalaemic periodic paralysis in a man from Nepal. 2189 47

Extracellular potassium makes up only about 2% of the total body's potassium store. The majority of the body potassium is distributed in the intracellular space, of which about 80% is in skeletal muscle. Movement of potassium in and out of skeletal muscle thus plays a pivotal role in extracellular potassium homeostasis. The exchange of potassium between the extracellular space and skeletal muscle is mediated by specific membrane transporters. These include potassium uptake by Na(+), K(+)-adenosine triphosphatase and release by inward-rectifier K(+) channels. These processes are regulated by circulating hormones, peptides, ions, and by physical activity of muscle as well as dietary potassium intake. Pharmaceutical agents, poisons, and disease conditions also affect the exchange and alter extracellular potassium concentration. Here, we review extracellular potassium homeostasis, focusing on factors and conditions that influence the balance of potassium movement in skeletal muscle. Recent findings that mutations of a skeletal muscle-specific inward-rectifier K(+) channel cause hypokalemic periodic paralysis provide interesting insights into the role of skeletal muscle in extracellular potassium homeostasis. These recent findings are reviewed.
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PMID:Extracellular potassium homeostasis: insights from hypokalemic periodic paralysis. 2395 1

Hypokalemia is a serious and life-threatening clinical condition. We present a case of a 45-year-old male, with known hyperthyroidism presenting with profound tremor, irritability, quadriparesis, and labored breathing since morning, on the day of admission. Arterial blood gas analysis showed severe hypokalemia. Patient's vital was stabilized and patient's oxygen saturation was maintained on oxygen inhalation. Intravenous potassium chloride infusion was administered with regular monitoring of vitals and electrolytes. Patient's symptoms improved. Thyroid function testing showed high free T3 (tri-iodothyronine) and free T4 (thyroxine) with low thyroid-stimulating hormone concentration in the serum, indicating thyrotoxic hypokalemic periodic paralysis. Treatment with antithyroid drug carbimazole resulted in an improvement during the follow-up visit. Hypokalemia is believed to be a consequence of a massive shift due to increased sodium-potassium-adenosine triphosphatase (Na+K+ATPase) pump activity in the presence of elevated thyroid hormones.
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PMID:Thyrotoxic Hypokalemic Periodic Paralysis. 2991 May 53