Calcium (Physiology renal)

Effects of furosemide on renal calcium handling.
[17652376] Am J Physiol Renal Physiol 293(4): F1231-7 (2007)

Characterization of a murine renal distal convoluted tubule cell line for the study of transcellular calcium transport.
[14625201] Am J Physiol Renal Physiol 286(3): F483-9 (2004)

Effect of thiazide on renal gene expression of apical calcium channels and calbindins.
[15265769] Am J Physiol Renal Physiol 287(6): F1164-70 (2004)

Expression and immunolocalization of calcium transport proteins in the canine duodenum, kidney, and pancreas.
[20186965] Anat Rec (Hoboken) 293(5): 770-4 (2010)

Mechanisms for hypercalciuria in pseudohypoaldosteronism type II-causing WNK4 knock-in mice.
[20181799] Endocrinology 151(4): 1829-36 (2010)

Klotho prevents renal calcium loss.
[19713312] J Am Soc Nephrol 20(11): 2371-9 (2009)

Critical role of the epithelial Ca2+ channel TRPV5 in active Ca2+ reabsorption as revealed by TRPV5/calbindin-D28K knockout mice.
[17005931] J Am Soc Nephrol 17(11): 3020-7 (2006)

Hypervitaminosis D mediates compensatory Ca2+ hyperabsorption in TRPV5 knockout mice.
[16148038] J Am Soc Nephrol 16(11): 3188-95 (2005)

Epithelial Ca2+ and Mg2+ channels in health and disease.
[15574510] J Am Soc Nephrol 16(1): 15-26 (2005)

A rat kidney-specific calcium transporter in the distal nephron.
[10875938] J Biol Chem 275(36): 28186-94 (2000)

The beta-glucuronidase klotho exclusively activates the epithelial Ca2+ channels TRPV5 and TRPV6.
[18495742] Nephrol Dial Transplant 23(11): 3397-402 (2008)

Renal adaptation to gentamicin-induced mineral loss.
[22378246] Am J Nephrol 35(3): 279-86 (2012)

Mechanisms and regulation of epithelial Ca2+ absorption in health and disease.
[17850211] Annu Rev Physiol 70(): 257-71 (2008)

Molecular mechanism of active Ca2+ reabsorption in the distal nephron.
[11826278] Annu Rev Physiol 64(): 529-49 (2002)

Activation of the Ca2+-sensing receptor stimulates the activity of the epithelial Ca2+ channel TRPV5.
[19157541] Cell Calcium 45(4): 331-9 (2009)

A family of calcium-permeable channels in the kidney: distinct roles in renal calcium handling.
[12187321] Curr Opin Nephrol Hypertens 11(5): 555-61 (2002)

Calcium absorption across epithelia.
[15618484] Physiol Rev 85(1): 373-422 (2005)

TRPV5 and TRPV6 in Ca(2+) (re)absorption: regulating Ca(2+) entry at the gate.
[16044309] Pflugers Arch 451(1): 181-92 (2005)

Physiology of epithelial Ca2+ and Mg2+ transport.
[17729442] Rev Physiol Biochem Pharmacol 158(): 77-160 (2007)

Effect of silencing VDR gene in kidney on renal epithelial calcium transporter proteins and urinary calcium excretion in genetic hypercalciuric stone-forming rats.
[22137721] Urology 78(6): 1442.e1-7 (2011)

Distribution of transcellular calcium and sodium transport pathways along mouse distal nephron.
[11704552] Am J Physiol Renal Physiol 281(6): F1021-7 (2001)

Modulation of renal Ca2+ transport protein genes by dietary Ca2+ and 1,25-dihydroxyvitamin D3 in 25-hydroxyvitamin D3-1alpha-hydroxylase knockout mice.
[12205031] FASEB J 16(11): 1398-406 (2002)

1,25-dihydroxyvitamin D(3)-independent stimulatory effect of estrogen on the expression of ECaC1 in the kidney.
[12138142] J Am Soc Nephrol 13(8): 2102-9 (2002)

Calcitriol controls the epithelial calcium channel in kidney.
[11423563] J Am Soc Nephrol 12(7): 1342-9 (2001)

High dose vitamin D3 attenuates the hypocalciuric effect of thiazide in hypercalciuric rats.
[20808673] J Korean Med Sci 25(9): 1305-12 (2010)

Effects of thiazide on the expression of TRPV5, calbindin-D28K, and sodium transporters in hypercalciuric rats.
[19194547] J Korean Med Sci 24 Suppl(): S161-9 (2009)

The effect of a low-protein diet in pregnancy on offspring renal calcium handling.
[17567711] Am J Physiol Regul Integr Comp Physiol 293(2): R759-65 (2007)

Hypercalcemia reduces plasma renin via parathyroid hormone, renal interstitial calcium, and the calcium-sensing receptor.
[21825222] Hypertension 58(4): 604-10 (2011)

Coordinated control of renal Ca(2+) transport proteins by parathyroid hormone.
[16164647] Kidney Int 68(4): 1708-21 (2005)

Toward a comprehensive molecular model of active calcium reabsorption.
[10710538] Am J Physiol Renal Physiol 278(3): F352-60 (2000)

Localization of the epithelial Ca(2+) channel in rabbit kidney and intestine.
[10864572] J Am Soc Nephrol 11(7): 1171-8 (2000)

Recent advances in physiological calcium homeostasis.
[16519596] Clin Chem Lab Med 44(3): 237-73 (2006)

Mechanisms of renal calcium transport.
[11014931] Exp Nephrol 8(6): 343-50 (2000)

Deletion of the Cl-/HCO3- exchanger pendrin downregulates calcium-absorbing proteins in the kidney and causes calcium wasting.
[21873623] Nephrol Dial Transplant 27(4): 1368-79 (2012)

Targeted deletion of murine Cldn16 identifies extra- and intrarenal compensatory mechanisms of Ca2+ and Mg2+ wasting.
[20147368] Am J Physiol Renal Physiol 298(5): F1152-61 (2010)

Role of the calcium-sensing receptor in reducing the risk for calcium stones.
[21784822] Clin J Am Soc Nephrol 6(8): 2076-82 (2011)

Tissue kallikrein stimulates Ca(2+) reabsorption via PKC-dependent plasma membrane accumulation of TRPV5.
[17006539] EMBO J 25(20): 4707-16 (2006)

Parathyroid hormone activates TRPV5 via PKA-dependent phosphorylation.
[19423690] J Am Soc Nephrol 20(8): 1693-704 (2009)

Mechanism of urinary calcium regulation by urinary magnesium and pH.
[18448585] J Am Soc Nephrol 19(8): 1530-7 (2008)

Who Wins the Competition: TRPV5 or Calbindin-D28K?
[17021264] J Am Soc Nephrol 17(11): 2954-6 (2006)

Acid-base status determines the renal expression of Ca2+ and Mg2+ transport proteins.
[16421227] J Am Soc Nephrol 17(3): 617-26 (2006)

Enhanced passive Ca2+ reabsorption and reduced Mg2+ channel abundance explains thiazide-induced hypocalciuria and hypomagnesemia.
[15902302] J Clin Invest 115(6): 1651-8 (2005)

Molecular basis of epithelial Ca2+ and Mg2+ transport: insights from the TRP channel family.
[21041532] J Physiol 589(Pt 7): 1535-42 (2011)

Effects of cyclosporine, tacrolimus and rapamycin on renal calcium transport and vitamin D metabolism.
[21691056] Am J Nephrol 34(1): 87-94 (2011)

TRP channels in kidney disease.
[17346947] Biochim Biophys Acta 1772(8): 928-36 (2007)

Recent advances in renal tubular calcium reabsorption.
[16914966] Curr Opin Nephrol Hypertens 15(5): 524-9 (2006)

[New concepts of tubular calcium transport in the kidney: clinical implications].
[15356841] G Ital Nefrol 21(1): 5-15 (2004)

The renal connecting tubule: Resolved and unresolved issues in Ca(2+) transport.
[20969972] Int J Biochem Cell Biol 43(1): 1-4 (2011)

Hypertension and renal calcium transport.
[21170867] J Nephrol 23 Suppl 16(): S112-7 (2010)

Transient receptor potential channels in the kidney: calcium signaling, transport and beyond.
[16523421] J Nephrol 19(1): 21-9 (2006)

Molecular pathophysiology of renal calcium handling.
[11031716] Kidney Blood Press Res 23(3-5): 183-4 (2000)

Testosterone increases urinary calcium excretion and inhibits expression of renal calcium transport proteins.
[20090667] Kidney Int 77(7): 601-8 (2010)

Coordinated control of renal Ca2+ handling.
[16518325] Kidney Int 69(4): 650-4 (2006)

The role of transient receptor potential channels in kidney disease.
[19546862] Nat Rev Nephrol 5(8): 441-9 (2009)

Changes of renal vitamin D metabolic enzyme expression and calcium transporter abundance in obstructive nephropathy.
[22029643] Nephrology (Carlton) 16(8): 710-4 (2011)

Active Ca(2+) reabsorption in the connecting tubule.
[18989697] Pflugers Arch 458(1): 99-109 (2009)

Renal Ca2+ handling in sgk1 knockout mice.
[16685564] Pflugers Arch 452(4): 444-52 (2006)

Transcriptional and physiological responses to chronic ACTH treatment by the mouse kidney.
[19920212] Physiol Genomics 40(3): 158-66 (2010)

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