Gene/Protein
Disease
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Target Concepts:
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Query: UMLS:C0024591 (
malignant hyperthermia
)
2,353
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The effect of ethylisopropyl-amiloride (EIPA) and phenamil on sodium uptake in renal
brush border
membrane vesicles from prehypertensive rats of the Milan strain (
MHS
) and their normotensive controls (MNS) was investigated. In the presence of both a membrane potential and a pH gradient a differential effect of EIPA and phenamil was evidenced between the two rat strains. In the absence of a pH gradient, but in the presence of a membrane potential, EIPA was about two-fold more potent than phenamil in inhibiting sodium transport in both rat strains, excluding the presence of epithelial sodium channels in our BBMV preparations. Taken together these results support the hypothesis that a structurally different Na+/H+ exchanger located on the
brush border
membrane may be involved in the increased tubular sodium reabsorption observed in vivo in hypertensive rats.
...
PMID:Effect of amiloride analogues on sodium transport in renal brush border membrane vesicles from Milan hypertensive rats. 154 8
Many similarities in kidney-function abnormalities were found between hypertensive rats of the Milan strain (
MHS
) and young normotensive human subjects with hypertensive parents, compared with the appropriate controls. These similarities included an increased glomerular filtration rate, increased pressor effect of the kidney after transplantation, increased 24-h urinary output and lower plasma renin activity and urinary kallikrein. The isolated
MHS
kidney perfused in vitro with an artificial medium had a higher glomerular filtration rate, a higher urinary output, higher tubular sodium reabsorption and higher oxygen consumption than the kidney of control Milan normotensive rats (MNS). Further, reogenic sodium transport across
brush border
vesicles isolated from proximal tubular cells is faster in
MHS
than in MNS. Erythrocytes and proximal tubular cells of
MHS
have a lower volume and sodium content than those of MNS, while sodium transport is faster and the Ca2+-ATPase at Vmax is lower. This indicates that the 'genetic' cellular abnormality responsible for the renal-function abnormality and the hypertension is also present in erythrocytes. Thus these cells may be used to study the genetic cellular mechanisms of hypertension. Experiments with bone marrow transplantation and with F2 hybrids obtained by crossing the F1 (
MHS
X MNS) hybrids showed that the
MHS
erythrocyte abnormalities are genetically determined within the stem cells and are genetically associated with the hypertension. Since, in human hypertensives, there was a correlation between abnormal erythrocyte sodium transport and renal function, it is proposed that erythrocytes may be used in studying the cellular molecular mechanisms of hypertension.
...
PMID:A renal abnormality in the Milan hypertensive strain of rats and in humans predisposed to essential hypertension. 353 35
