American journal of physiology. Renal physiology
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We used a mathematical model of the urine concentrating mechanism of rat inner medulla (IM) to investigate the implications of experimental studies in which immunohistochemical methods were combined with three-dimensional computerized reconstruction of renal tubules. The mathematical model represents a distribution of loops of Henle with loop bends at all levels of the IM, and the vasculature is represented by means of the central core assumption. Based on immunohistochemical evidence, descending limb portions that reach into the papilla are assumed to be only moderately water permeable or to be water impermeable, and only prebend segments and ascending thin limbs are assumed to be NaCl permeable. ⋯ The other mode, suggested by perfused tubule experiments from the literature, assumes that these same portions of loops of Henle have very high urea permeabilities. Model studies were conducted to determine the sensitivity of these modes to parameter choices. Model results are compared with extant tissue-slice and micropuncture studies.
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Am. J. Physiol. Renal Physiol. · Oct 2004
Uncoupling of vasopressin signaling in collecting ducts from rats with CBL-induced liver cirrhosis.
Vasopressin (AVP) stimulates collecting duct water reabsorption through cAMP-mediated membrane targeting and increased expression of the aquaporin-2 (AQP2) water channel. Rats with liver cirrhosis induced by common bile duct ligation (CBL) show decreased protein expression of AQP2 despite increased plasma concentrations of AVP. The present study was conducted to investigate possible mechanisms behind this uncoupling of AVP signaling. ⋯ However, in contrast to this, Western blotting showed a decreased expression of several phosphodiesterase splice variants. We conclude that CBL rats develop an escape from AVP to prevent the formation of dilutional hyponatremia in response to increased plasma AVP concentrations. The mechanism behind AVP escape seems to involve decreased collecting duct sensitivity to AVP as a result of increased cAMP-phosphodiesterase activity.
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Am. J. Physiol. Renal Physiol. · Oct 2004
Three-dimensional lateral and vertical relationships of inner medullary loops of Henle and collecting ducts.
Functional reconstruction of inner medullary thin limbs of Henle and collecting ducts (CDs) has enabled us to characterize distinctive three-dimensional vertical and lateral relationships between these segments. We previously reported that inner medullary descending thin limbs (DTLs) that form a bend at a distance greater than approximately 1 mm below the inner medullary base express detectable aquaporin (AQP) 1 only along the initial 40% of the segment before the bend, whereas ClC-K1 is expressed continuously along all ascending thin limbs (ATLs), beginning with the prebend segment. We have now reconstructed individual CDs that are grouped together in single clusters at the base of the inner medulla; CDs belonging to each separate cluster coalesce into a single CD in the deep papilla. ⋯ AQP1-expressing DTLs and CDs are apparently separated into two structurally distinct lateral compartments. A similar lateral compartmentation between the ATLs and CDs is not apparent. This architectural arrangement indicates that fluid and solutes may be preferentially transported transversely between multiple inner medullary compartments.
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Am. J. Physiol. Renal Physiol. · Oct 2004
Downregulation of renal vasopressin V2 receptor and aquaporin-2 expression parallels age-associated defects in urine concentration.
Renal concentrating ability is known to be impaired with aging. The antidiuretic hormone AVP plays an important role in renal water excretion by regulating the membrane insertion and abundance of the water channel aquaporin-2 (AQP2); this effect is primarily mediated via the V2 subtype of the AVP receptor (V2R). This study evaluated the hypothesis that decreased renal sensitivity to AVP, with subsequent altered renal AQP2 expression, contributes to the reduced urinary concentrating ability with aging. ⋯ In response to moderate water restriction, urine osmolality increased by significantly lesser amounts in aged F344BN rats compared with young rats despite similar increases in plasma AVP levels. Moderate water restriction induced equivalent relative increases in renal AQP2 abundances in all age groups but resulted in significantly lower abundances in total kidney AQP2 protein in aged compared with young F344BN rats. These results therefore demonstrate a functional impairment of renal concentrating ability in aged F344BN rats that is not due to impaired secretion of AVP but rather appears to be related to impaired responsiveness of the kidney to AVP that is secondary, at least in part, to a downregulation of renal V2R expression and AQP2 abundance.