Arantxa Arrázola scite author profile

Arantxa Arrázola

4Publications

72Citation Statements Received

52Citation Statements Given

How they've been cited

113

How they cite others

Affiliations

Universidad de Zaragoza, University of Navarra, Hospital Nacional de Parapléjicos de Toledo

Publications

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Cell volume regulation in rat thymocytes.

Arrázola

Rota

Hannaert

et al. 1993

The Journal of Physiology

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SUMMARY1. DIOA (dihydroindenyl-oxy-alkanoic acid), a potent inhibitor of the K+-Cl-cotransport system, fully blocked regulatory volume decrease (RVD) in swelled rat thymocytes, with an IC50 of 2-2 + 0 5 x 10-5 mol 1-1 (mean + S.D., n = 4). Conversely, RVD was resistant to quinine, quinidine, apamin, cetiedil, amiloride, bumetanide and DIDS (4,4'-diisothiocyanostilbene-2,2'-disulphonate).2. DIOA-sensitive RVD followed mono-exponential kinetics, with th (half-lifetime) of 1-3 min and maximal capacity (Cmax) of about 55 % of the initial cell swelling.Cmax and the initial rate of RVD (V.) were both linear functions of the increase in cell volume.3. RVD was: (i) slightly increased by replacing external Cl-by NO3-, (ii) reversed by replacing external Na+ by K+ (in the presence of external Cl-) and (iii) inhibited by cell K+ depletion. All these phenomena were blocked by DIOA (86 jmol 1-1).4. Increased membrane potassium permeability by valinomycin was unable to accelerate RVD or RVD reversal.5. In the presence of DIOA, thymocytes responded like osmometers (the relative cell volume was a linear function of the reciprocal of the relative osmolality) in a large range of osmolalities.6. The results strongly suggest that RVD in rat thymocytes is mediated by the K+-Cl-co-transport system.

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Is there increased cardiovascular risk in essential hypertensive patients with abnormal kinetics of red blood cell sodium???lithium countertransport?

Yap

Arrázola²,

Soria³

et al. 1989

Journal of Hypertension

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Enhanced Na ⁺ -H ⁺ Exchanger Activity and NHE-1 mRNA Expression in Lymphocytes From Patients With Essential Hypertension

et al. 1995

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It has been demonstrated that the activity of the sodium-proton exchanger (NHE-1 isoform) is increased in lymphocytes and other blood cells from patients with essential hypertension. In the present study, we investigated whether an increased level of NHE-1-specific mRNA in lymphocytes from patients with essential hypertension would explain the enhanced transport activity. Twenty-two hypertensive patients and 21 normotensive subjects were studied. Basal cytosolic pH was measured by the pH-sensitive fluorescent probe 2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein. Maximal sodium-proton exchange activity was determined by acidifying cell pH and measuring the initial rate of the net sodium-dependent proton efflux driven by an outward proton gradient. The transcript level of NHE-1 was measured by reverse transcription-polymerase chain reaction in comparison with a constitutively expressed reference gene (beta-actin). Intracellular pH was lower in hypertensive patients than normotensive subjects (7.34 +/- 0.01 versus 7.39 +/- 0.01, mean +/- SEM, P < .001). The maximal activity of the sodium-proton exchanger was higher in hypertensive patients than in normotensive subjects (1262 +/- 100 versus 881 +/- 56 mmol/L cells per hour, P < .01). NHE-1 mRNA was increased in hypertensive patients compared with normotensive subjects (ratio of NHE-1 mRNA to beta-actin mRNA, 0.16 +/- 0.01 versus 0.12 +/- 0.02, P < .05). These data suggest that the increased sodium-proton exchange activity in essential hypertension may be related to the de novo synthesis of exchanger protein.

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Association of increased erythrocyte Na/H exchanger with renal Na retention in patients with essential hypertension

Díez

Alonso

Garciandía

et al. 1995

American Journal of Hypertension

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The goal of this study was to investigate the activity of the Na+/H+ exchanger in erythrocytes of patients with essential hypertension and its relation with urinary Na+ excretion. The study was performed in cells from 27 untreated hypertensive patients and 30 normotensive controls with similar age and sex distribution. All subjects were studied after 4 days on a controlled Na+ diet (145 mmol/day). The activity of the Na+/H+ exchanger was determined by acidifying cell pH and measuring the initial rate of the net Na(+)-dependent H+ efflux. The activity of the Na+/H+ exchanger was higher in hypertensive patients than in controls (301 +/- 45 v 162 +/- 23 mmol/L cells/h, mean +/- SEM; P < .01). With the upper limit of the normotensive population as a cut-off point (385 mmol/L cells/h), a subgroup of 12 hypertensive patients had an abnormally high activity of Na+/H+ exchanger. Compared with controls and with patients with normal exchanger activity, patients with increased exchanger activity were characterized by lower net (P < .01) and fractional (P < .05) Na+ excretion. The accumulative Na+ balance was higher (P < .01) in hypertensive patients with increased activity of the exchanger (39.90 +/- 3.47 mmol) than in the remaining hypertensive patients (0.59 +/- 6.96 mmol) or in the normotensive population (-5.71 +/- 6.12 mmol). After analyzing the relationship of renin activity with Na+ excretion it was observed that renin activity was inappropriately low in 9 (75%) patients with increased exchanger, in 6 (40%) patients with normal exchanger, and in 6 (20%) normotensives, these differences being significant (P<.01).

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