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Query: UMLS:C0020438 (
hypercalciuria
)
2,502
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Advances in the molecular genetics of inherited renal tubulopathies have allowed some insight into the normal mechanisms of tubular cation and anion reabsorption. It is now possible to view Bartter's syndrome, Gitelman's syndrome and pseudohypoaldosteronism type 1 as having genetic abnormalities which produce tubular defects that are similar to those induced by the pharmacological actions of loop diuretics, thiazide diuretics or potassium-sparing diuretics, respectively. Although these rare monogenic disorders with dramatic phenotypes seem to have little relevance to everyday clinical practice, it is possible that subtle abnormalities of the regulation of the ENaCs may play a role in low-renin forms of 'essential' hypertension. Similarly, subtle abnormalities in the function of the electroneutral sodium-(potassium)-chloride cotransporters (NKCC2 and NCCT) and the renal CLC-type chloride channels (CLC5) may be major determinants of urinary calcium excretion with roles in the pathogenesis of 'idiopathic'
hypercalciuria
and osteoporosis. Because of the intricate and diverse molecular mechanisms by which tubular reabsorption of water and solutes takes place in each different nephron segment, it is likely that other renal channels and transporters will be implicated in the pathogenesis of further monogenic disorders, and that these will allow additional insights into tubular functioning. Recent studies have demonstrated that in addition to abnormalities in the NKCC2 and ROMK1 genes, mutations at a third genetic locus can also cause Bartter's syndrome. Linkage studies, followed by mutational analyses have found deletions and point mutations in the gene encoding one of the
TAL
-specific chloride channels, CLCKB, in 17 Bartter's families. This chloride channel is similar in structure to CLC5, and is located on the long arm of chromosome 1. Importantly, there appears to be a phenotypic difference between subjects with Bartter's syndrome due to CLCKB abnormalities and those with NKCC2 or ROMK1 mutations. Despite the fact that all of these Bartter's patients had significant
hypercalciuria
, nephrocalcinosis was not found in any of the 17 subjects with CLCKB mutations, compared to 19 of 20 patients with NKCC2 or ROMK1 mutations. These findings have also demonstrated a key role for CLCKB as a major basolateral chloride channel involved in mTAL sodium and chloride reabsorption (Figure 2).
...
PMID:Straightening out the renal tubule: advances in the molecular basis of the inherited tubulopathies. 951 7
Familial hypomagnesaemia with
hypercalciuria
and nephrocalcinosis (FHHNC, MIM 248250) is a complex renal tubular disorder characterised by hypomagnesaemia,
hypercalciuria
, advanced nephrocalcinosis, hyposthenuria and progressive renal failure. The mode of inheritance is autosomal recessive. A primary defect in the reabsorption of magnesium in the medullary thick ascending limb of the loop of Henle (mTAL) has been proposed to be essential in FHHNC pathophysiology. To identify the underlying genetic defect we performed linkage analysis in eight families, including three with consanguineous marriages. We found linkage to microsatellite markers on chromosome 3q27 with a maximum two-point lod score (Zmax) of 5.208 for D3S3530 without evidence for genetic heterogeneity. Haplotype analysis revealed crucial recombination events reducing the critical interval to 6.6cM. Recently, mutations in the gene PCLN-1, mapping to 3q27 and coding for paracellin-1, were identified by Simon et al (1999) as the underlying genetic defect in FHHNC. Paracellin-1 represents a renal tight junction protein predominantly expressed in the
TAL
. Mutational analysis in our patient cohort revealed eight different mutations in the PCLN-1 gene, within six novel mutations. In seven of 13 mutant alleles we detected a Leu151 substitution without evidence for a founder effect. Leu151 is a residue of the first extracellular loop of paracellin-1, the part of the protein expected to bridge the intercellular space and to be important for paracellular conductance. This study confirms the implication of paracellin-1 defects in FHHNC and points to a predominant role of this protein in the paracellular reabsorption of divalent cations in the
TAL
.
...
PMID:Familial hypomagnesaemia with hypercalciuria and nephrocalcinosis maps to chromosome 3q27 and is associated with mutations in the PCLN-1 gene. 1087 61
Familial hypomagnesemia with
hypercalciuria
and nephrocalcinosis (FHHNC, MIN 248250) is a rare autosomal recessive tubular disorder that eventually progresses to renal failure. However, the progression to end-stage renal failure can vary from patient to patient. A primary defect is related to impaired tubular resorption of magnesium and calcium in the thick ascending limb of Henle's loop. Recently, paracellin-1 was identified as a renal tight junction protein predominantly expressed in
TAL
. Mutations of its gene (CLDN16) have been shown to cause FHHNC. We describe a sporadic Japanese case of FHHNC. The male patient showed hematuria,
hypercalciuria
, and nephrocalcinosis at 5 years of age. Hypomagnesemia was also noticed at this time. As renal function gradually deteriorated, further evaluation was performed at 14 years of age and a diagnosis of FHHNC was made. Despite several medications (magnesium supplementation, citrate, and hydrochlorothiazide), he eventually progressed to renal insufficiency at 19 years of age. Analysis of the CLDN16 gene demonstrated two heterozygous mutations (R149Q and R216C). Mutations of the same amino acids have already been described in FHHNC and thus these mutations might be the cause of the disease in our patient. Hence, we confirm the genetic impairment of the CLDN16 gene in a Japanese patient with FHHNC.
...
PMID:Two heterozygous mutations of CLDN16 in a Japanese patient with FHHNC. 1458 75
Familial hypomagnesemic
hypercalciuria
and nephrocalcinosis (FHHNC [MIM 248250]) is a rare renal tubular disorder characterized by impaired reabsorption of magnesium and calcium in the thick ascending limb of Henle's loop (tALH), causing renal magnesium wasting and
hypercalciuria
. Patients with FHHNC usually present with recurrent urinary tract infections, polyuria, nephrolithiasis (NL) and nephrocalcinosis (NC) with many progressing to chronic renal failure (CRF). We have shown recently that loss of function mutations in paracellin-1 PCLN-1/claudin-16, a renal tight junction protein located in the
TAL
, are causative of FHHNC. We present clinical and molecular studies on a highly inbred family with FHHNC in association with an unusual phenotype in that all affected members were extremely short. Affected individuals were found to be homozygous for marker D3S1314 on chromosome 3q. Sequencing of the PCLN-1/claudin-16 gene revealed a previously unknown point mutation at S235Y on exon 4 on the 4th transmembrane domain, providing additional evidence that inactivating mutations in the PCLN-1/claudin-16 gene result in FHHNC.
...
PMID:A novel PCLN-1 gene mutation in familial hypomagnesemia with hypercalciuria and atypical phenotype. 1712 17
At least three renal tubular segments are involved in the pathophysiology of salt-losing tubulopathies (SLTs). Whether the pathogenesis starts either in the thick ascending limb of the loop of Henle (
TAL
) or in the distal convoluted tubule (DCT), it is the function of the downstream-localized aldosterone sensitive distal tubule (ASDT) to contribute to the adaptation process. In isolated
TAL
defects (loop disorders) ASDT adaptation is supported by upregulation of DCT, whereas in DCT disorders the ASDT is complemented by upregulation of
TAL
function. This upregulation has a major impact on the clinical presentation of SLT patients. Taking into account both the symptoms and signs of primary tubular defect and of the secondary reactions of adaptation, a clinical diagnosis can be made that eventually leads to an appropriate therapy. In addition to salt wasting, as occurs in all SLTs, characteristic features of loop disorders are hypo- or isosthenuric polyuria and
hypercalciuria
, whereas characteristics of DCT disorders are hypokalemia and (symptomatic) hypomagnesemia. In both SLT categories, replacement of urinary losses is the primary goal of treatment. In loop disorders COX inhibitors are also recommended to mitigate polyuria, and in DCT disorders magnesium supplementation is essential for effective treatment. Of note, the combination of a salt- and potassium-rich diet together with an adequate fluid intake is always the basis of long-term treatment in all SLTs.
...
PMID:Pathophysiology and clinical presentations of salt-losing tubulopathies. 2617 49
