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Query: UMLS:C0020438 (
hypercalciuria
)
2,502
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Claudin-16 is defective in familial hypomagnesemia with
hypercalciuria
and nephrocalcinosis (FHHNC). Claudin-16 knockdown (CLDN16 KD) mice show reduced cation selectivity in the thick ascending limb. The defect leads to a
collapse
of the lumen-positive diffusion voltage, which drives Ca(2+) and Mg(2+) absorption. Because of the reduced tight junction permeability ratio for Na(+) over Cl(-), we proposed a backleak of NaCl into the lumen. Systemic analysis had revealed lower blood pressure and a moderately increased plasma aldosterone concentration. In this study, we measured the amiloride-sensitive equivalent short-circuit current in isolated, perfused collecting ducts and found it increased by fivefold in CLDN16 KD mice compared with wild-type (WT) mice. Amiloride treatment unmasked renal Na(+) loss in the thick ascending limb of the nephron. Under amiloride treatment, CLDN16 KD mice developed hyponatremia and the renal fractional excretion of Na(+) was twofold higher in CLDN16 KD compared with WT mice. The loss of claudin-16 also resulted in increased urinary flow, reduced HCO(3)(-) excretion, and lower urine pH. We conclude that perturbation in salt and acid-base metabolism in CLDN16 KD mice has its origin in the defective cation permselectivity of the thick ascending limb of the nephron. This study has contributed to the still incomplete understanding of the symptoms of FHHNC patients.
...
PMID:Salt and acid-base metabolism in claudin-16 knockdown mice: impact for the pathophysiology of FHHNC patients. 1878 60
Tight junction (TJ) properties are determined by membrane protein complexes of neighboring cells that form both a barrier and a selective pathway for paracellular substrate transport. Our previous work supports the view that paracellular permeability changes in the thick ascending limb (TAL) may underlie the mechanism for familial hypomagnesemia with
hypercalciuria
and nephrocalcinosis (FHHNC), a rare autosomal recessive disease linked to mutations in claudin-16 (CLDN16) and claudin-19 (CLDN19). CLDN16 knockdown (KD) mice are lacking CLDN16 expression by transgenic RNA interference. We observed that the transport defect for Mg(2+) and Ca(2+) in this animal model is caused by a loss of paracellular cation selectivity. The permeability ratio for Na(+) over Cl(-) in KD mice was lower by a factor of two without a change in paracellular conductance, compared to wild type (WT). This resulted in a
collapse
of the transepithelial voltage, which is the driving force for Mg(2+) and Ca(2+) absorption in TAL. Since CLDN16 KD mice revealed lower blood pressure and an increased aldosterone plasma concentration, we hypothesize that the reduction in paracellular selectivity could allow backflow of Na(+) and Cl(-) into the lumen of the TAL, thus enhancing the distal NaCl load and challenging the organism with a latent NaCl loss.
...
PMID:Insights into driving forces and paracellular permeability from claudin-16 knockdown mouse. 1953
