Analysis of patients with inherited hypokalaemic alkalosis resulting from salt-wasting has proved fertile ground for identification of essential elements of renal salt homeostasis and blood-pressure regulation. We now demonstrate linkage of this phenotype to a segment of chromosome 1 containing the gene encoding a renal chloride channel, CLCNKB. Examination of this gene reveals loss-of-function mutations that impair renal chloride reabsorption in the thick ascending limb of Henle's loop. Mutations in seventeen kindreds have been identified, and they include large deletions and nonsense and missense mutations. Some of the deletions are shown to have arisen by unequal crossing over between CLCNKB and the nearby related gene, CLCNKA. Patients who harbour CLCNKB mutations are characterized by hypokalaemic alkalosis with salt-wasting, low blood pressure, normal magnesium and hyper- or normocalciuria; they define a distinct subset of patients with Bartter's syndrome in whom nephrocalcinosis is absent. These findings demonstrate the critical role of CLCNKB in renal salt reabsorption and blood-pressure homeostasis, and demonstrate the potential role of specific CLCNKB antagonists as diuretic antihypertensive agents.
Abstract. Hypercalciuria is the major risk factor promoting stone formation in Dent's disease, also known as X-linked recessive nephrolithiasis, but the effects of diuretics on calcium excretion and other stone risk factors in this disease are unknown. This study examined urine composition in eight male patients with Dent's disease, ages 6 to 49 yr, all of whom were hypercalciuric and had inactivating mutations of CLCN5. Eight males, ages 7 to 34 yr, with idiopathic hypercalciuria (IH) served as controls. Patients were instructed to maintain a consistent intake of sodium, potassium, calcium, and protein.Two consecutive 24-h urine collections were obtained after a baseline period and after 2 wk of chlorthalidone (25 mg), amiloride (5 mg), and the two diuretics in combination, with a week off drug separating the treatment periods in a randomized crossover design. Doses were reduced by half in boys under age 12 yr. Chlorthalidone alone (P Ͻ 0.002) and the combination of chlorthalidone and amiloride (P Ͻ 0.003) reduced calcium excretion significantly in either patient group. With chlorthalidone, calcium excretion fell to normal (Ͻ4.0 mg/kg per d) in all but one patient in each group. Amiloride alone had no significant effect on urinary calcium excretion, in either patient group. In patients with Dent's disease during chlorthalidone therapy, the supersaturation ratios for calcium oxalate and calcium phosphate fell by 25% and 35%, respectively. Mean citrate excretion was reduced by chlorthalidone (P Ͻ .04) and by chlorthalidone in combination with amiloride (P Ͻ .02). There were no significant differences in the responses to these diuretics between the patient groups in any of the urinary parameters. The intact hypocalciuric response to a thiazide diuretic indicates that inactivation of the ClC-5 chloride channel does not impair calcium transport in the distal convoluted tubule and indicates that thiazides should be useful in reducing the risk of kidney stone recurrence in patients with Dent's disease.
Abnormalities in the central nervous system and renal function are seen together in a variety of congenital syndromes. This Review examines the clinical presentation and the genetic basis of several such syndromes. The X-linked oculocerebrorenal syndrome of Lowe is characterized by developmental delay, blindness, renal tubular dysfunction, and progressive renal failure. This syndrome results from mutations in the OCRL gene, which encodes a phosphatase involved in endosomal trafficking. Mutations in OCRL also occur in Dent disease, which has a milder disease phenotype than Lowe syndrome. Patients with Joubert syndrome have cerebellar ataxia, pigmentary retinopathy, and nephronophthisis. Joubert syndrome is a genetically heterogeneous condition associated with mutations in at least five genes that encode ciliary proteins. Bardet-Biedl syndrome is a clinically variable condition associated with learning disabilities, progressive visual loss, obesity, polydactyly, hypogonadism, and cystic and fibrotic renal changes that can lead to renal failure. Most of the 12 genes mutated in Bardet-Biedl syndrome are also involved in ciliary function, as are the genes implicated in other 'ciliopathies' with similar phenotypes, including Meckel syndrome.
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