Efeito da carbamazepina na reabsorção de água pelo ducto coletor medular interno de ratos normais e de ratos com diabetes insípido nefrogênico induzido pelo lítio / Effect of carbamazepine on water absorption in the inner medullary collecting duct from normal rats and from rats with lithium-induced diabetes insipidus

Ana Carolina de Bragança

Carbamazepine (Carba) is an anticonvulsant and a psychotropic medication commonly used in the treatment of patients with intellectual disability (ID). This drug has been used to try to decrease the urinary volume in Diabetes Insipidus (DI) because Carba presents an antidiuretic effect, but the incidence of the hyponatremia in neurological patients is a common ocurrence. Lithium (Li) is one of the most important drugs used to treat bipolar mood disorders. However, Li has the undesirable capacity to induce DI complicating its usage in patients psychologically weakened. Nowadays, the association of these drugs is used in the treatment of patients with psychiatric and neurological problems. Our objective was to investigate the effect of Carba in the Inner Medullary Collecting Duct (IMCD) and elucidate its effect in the lithium-induced DI: 1) In vitro study: A) Microperfusion studies the water permeability (Pf, m/sec) was determined in normal rats IMCD isolated and perfused by the standard methods. Carba 10-5M was added to the bath fluid. B) Immunoblotting studies for AQP2 protein expression in IMCD tubule suspension from normal rats incubated with Carba 10-5M for 30 minutes. 2) In vivo study A) four groups of normal rats were done - a) Control (C, n=5); b) Li (40 mmol/kg/food/3 weeks n=4) c) Li+Carba (40 mmol Li/kg/food/3 weeks and 400 mg Carba/kg/bw/2 last weeks, n=5); and Carba (400 mg Carba/kg/bw/3weeks, n=5); - B) AQP2 expression in IMCD from the four groups, by Western Blot. Results: 1) In vitro study A) in microperfusion, Carba added to the bath in Vasopressin (Vp) absence (n=6) increased Pf Control-12.3+3.6, Carba-62.6+14.8 (p<0.01), Recuperation (Rec)-17.4+5.5 (p<0.01). In order to study the mechanism by which Carba activates the Vp cascade, the antagonist of the Vp receptor 2 (AV2; n=10) was used: Control-23.5+5.2, Carba-37.4±4.4 (p<0.01), Carba+AV2-19.6±5.0 (p<0.05), Rec-21.4+5.5; and Control-18.6+7.0, AV2- 27.3+7.2, AV2+Carba-25.3+5.7, Rec-32.6+6.4. The PKA inhibitor (H8; n=4) was also used: Control-15.0+9.0, Carba-106.1+12.3 (p<0,01), Carba+H8-60.3+16.4 (p<0.01), Rec-44.5+13.2. B) the densitometric analysis showed an increased of 38.8% in AQP2 expression (Control- 100.0+8.3 vs. Carba-138.8+12.12, p<0.05); B) In vivo study Urinary volume (UV, mL/24h) Control-10.7+3.0, Li-62.6+6.0 (p<0.001), Li+Carba-28.5+4.9 (p<0.001), Carba-23.3+3.0 (p<0.001). Urinary Osmolality (mOsm/Kg/H2O) Control-819.6+175.7, Li-149.4+18.0 (p<0.01), Li+Carba-251.5+39.7 (p<0.05), Carba-396.2+75.5 (p<0.01). FENa+ (%) - Control- 0.15+0.01, Li-0.10+0.03, Li+Carba-0.12+0.02, Carba-0.11+0.02. AQP2 expression (%) Control-100.0+6.7, Li-55.8+5,4 (p<0.01), Li+Carba-75.8+9.6 (p<0.01), Carba-99.7+4.7 (p<0.05). There were no significant differences in Na+, K+ and plasma osmolality. In summary, our data showed that Carba decreased the UV, increased the UOsm and the AQP2 expression in Li-induced DI, increased the water permeability, probably acting directly in the Vp V2 receptor-Protein G complex, since its action was blocked by the specific Vp V2 receptor antagonist. These results emphazise that the hyponatremia found in patients using Carba could be explained, at least in part, by increased osmotic permeability of IMCD. In addition, poliuria observed in lithium-induced DI can be decreased with Carba-treatment.

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