SUMMARYIn previous unrelated studies, we observed a 35 to 50% incidence of cataract formation in several groups of Dahl salt-sensitive hypertensive rats (DS) over a 4-year period. In the present study we evaluated longitudinal changes in blood pressure In DS in which cataracts eventually developed and those in which cataracts did not develop when all animals were maintained on a high sodium diet. Lenses were evaluated by slit-lamp microscopy to determine if cataractous lesions were similar among rats, to classify lesion types, and to define the age at which cataracts were detectable in DS. The possible participation of several cataractogenic risk factors as major Influences on cataract formation also was evaluated. Finally, aqueous humor concentrations and lenticular content of sodium and potassium were determined to evaluate the possibility that a defect in ion transport at the lens epithelium and ciliary body might play a role in cataractogenesis in DS, since ion transport defects have been shown to lead to lens opaciflcatlon in other models of genetic and experimental cataracts. Parallel studies were performed in Dahl salt-resistant control rats (DR). A high incidence of cataract formation was found in DS. Although systolic blood pressure was not consistently greater in adult DS with cataracts compared with values in age-matched DS without cataracts, the initial pressor response to a high salt diet was greatest in weanling DS in which cataractous lesions later developed. Slit-lamp analysis revealed that cataracts in this genetic model were cortical, with one mixed cortical, nuclear lesion. Posterior subcapsular lesions were not observed, suggesting that lesions were not steroidinduced. Serum ultrafiltrable calcium concentration was similar among DS with and without cataracts and normotensive DR, indicating that hypocalcemia was not involved in cataractogenesis. Analysis of aqueous humor showed high potassium concentration and low sodium concentration in DS with cataracts, suggesting a possible ion transport defect in the ciliary processes or lens epithelium (or both). In addition, increased lenticular water and sodium content, as well as decreased potassium content, indicated that mature cataracts in DS were associated with altered sodium and potassium transport. Although aqueous humor sodium concentration and lenticular sodium content were not altered in DS without cataracts, lenticular potassium content was decreased while aqueous humor potassium concentration was increased compared with values in control DR. These data suggesting a decreased transmembrane potassium gradient in DS without cataracts also suggest that a specific defect in potassium transport may precede the development of cataracts in this genetic model.
SUMMARY Plasma renin activity (PRA, ng Al/ml/hr), plasma aldosterone (PA, ng%) and renal Na + -K + -ATPase (pm PO
We assessed components of lenticular short-circuit current in adult hypertensive Dahl salt-sensitive rats (DS) during chronic control (0.4% sodium) versus high (3% sodium) dietary NaCl intake begun at the age of 4 weeks until rats were studied. We also evaluated the influence of barium, a potassium channel blocker, and ouabain, a specific inhibitor of Na+, K(+)-ATPase activity, by adding them to the anterior lens surface, thus measuring barium-sensitive, ouabain-sensitive, and barium- and ouabain-in-sensitive short-circuit currents. During control NaCl intake, short-circuit current in DS and their control group, Dahl salt-resistant rats (DR), did not differ significantly. DS were subclassified into cataract-prone rats and rats unlikely to develop cataracts on the basis of their initial pressor response to the change from a normal to high NaCl diet during the first weeks of age. Although only transparent lenses were studied, total lens short-circuit current was already markedly decreased in the cataract-prone subgroup compared with DS unlikely to develop cataracts and control DR. This was in sharp contrast to the increase in short-circuit current previously reported in Sprague-Dawley rats and now observed in control DR in response to high dietary NaCl. The decrease in lens short-circuit current in cataract-prone rats was associated with lower absolute values of barium- and ouabain-sensitive short-circuit currents as well as with low barium- and ouabain-insensitive short-circuit current. Although the barium- and ouabain-sensitive components of the short-circuit current were similar in DS unlikely to develop cataracts and DR, the barium- and ouabain-insensitive component of the short-circuit current was lower in DS unlikely to develop cataracts than values in DR. Interestingly, this component of lens short-circuit current also increased in DR during chronic high NaCl, whereas the opposite change occurred in cataract-prone DS and DS unlikely to develop cataracts. Thus, the barium- and ouabain-insensitive short-circuit current may be a mechanism that protects the normal lens from developing cataracts. Possible candidates for this short-circuit current component are voltage-dependent potassium channels, calcium-activated potassium channels, or both. Our studies show altered lens short-circuit current in response to high NaCl intake in cataract-prone DS and suggest the possibility of altered lens potassium transport during sustained hypertension but before loss of lens transparency.
Endothelial dysfunction is recognized as a critical event in the etiology of cardiovascular diseases, but its possible role during aging in arterial hypertension remains poorly defined. We evaluated the response of aortic rings precontracted with 0.1 microM norepinephrine (NE) to acetylcholine (ACh) in the San Juan hypertensive rats (SJH-Rs) (F19, F20) and Munich Wistar rats (MW). SJH-Rs is a model of inbred salt-sensitive hypertension, whereas similarly treated inbred MW rats are their normotensive counterpart. These experiments were performed with adult (6-7 months) and aged (11-13 months) rats to assess the effects of age and hypertension on endothelium-dependent relaxation. We generated dose-response curves by adding cumulative doses of ACh from 1.0 nM to 10.0 microM. In addition, we evaluated the Ca(2+)-dependent nitric oxide synthase (NOS) activity by increasing cell calcium with the ionophore A23187. The results indicate that hypertension induces a displacement to the right of the dose-response curve to ACh in both adults and aged SJH-Rs; IC50 for adult rats was 0.72 +/- 0.3 microM for SJH-Rs and 0.059 +/- 0.03 microM for MW (p < 0.05). Aged animals showed similar results: IC50 of 0.78 +/- 0.03 microM for SJH-Rs and of 0.043 +/- 0.01 microM in age-matched MW rats (p < 0.025). However, no difference was observed between hypertensive (SJH-Rs) adult and aged animals. Similarly, no difference was observed between adult and aged MW control animals. The displacement of the dose-response curve to ACh in SJH-Rs appears to be associated with a reduced activation of NOS since in precontracted aortas from aged animals 1 microM A23187 induced a relaxation of 51.2 +/- 12% in MW as compared with 34.4 +/- 7% in SJH-Rs (n = 5, p < 0.05). These results indicate that endothelial dysfunction exists in SJH-Rs. The data suggest that an alteration of the endothelial NOS may be the cause of this abnormality. Finally, the magnitude of the endothelial dysfunction is not age dependent within the range evaluated.
Abstracr. The interrelationships among plasma renin activity (PRA, ng AI/ml plasma/hr), aldosterone concentration (ng%), and renal Na+-K+-ATPase activity (pmole P04/mg protein/ hr) were studied in 9 weanling normotensive spontaneously hypertensive rats (SHR), 9 adult hypertensive SHR, and 9 weanling and 9 adult normotensive Wistar-Kyoto rats (WKY). All groups were placed on a normal (0.4% sodium) diet. PRA and plasma aldosterone, measured in samples drawn from the ether-anesthetized rat, were higher in weanling SHR ( I 5.2 * 2.0, 37 f 4.2) than in WKY. PRA measured in samples collected from a separate group of unanesthetized weanling SHR was also greater than in age-matched WKY. In adult SHR, PRA (6.1 k 0.9) and plasma aldosterone (20.0 f 2.7) were decreased. During the weanling period Na+-K+-ATPase activity in SHR was not only greater than in age-matched WKY but was also increased compared to adult normotensive and hypertensive rats (1 37 f 9 weanling SHR, 89 f 7 weanling WKY, 73 f 1 1 adult SHR, 84 f 17 adult WKY). Thus, during the weanling period the renin-angiotensin-aldosterone (R-A-A) system and renal Na+-K+-ATPase activity are activated in SHR. The elevation of Na+-K+-ATPase activity may be due to increased aldosterone levels. It was noted, however, that plasma aldosterone was similar in adult WKY and weanling SHR, while Na+-K+-ATPase activity was higher in SHR. These findings involving R-A-A and renal Na+-K+-ATPase activity prior to the elevation of blood pressure suggest that the kidneys may play a role in the initiation of hypertension in SHR. (c 19x4 Societ) for Expcrirnenul Biolog) and Medicine 240
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