Arginine vasopressin stimulates net fluid secretion in a polarized subculture of cyst-forming MDCK cells.

Grant, Michael E.; Neufeld, Timothy K.; Cragoe, E. J.; Welling, Larry W.; Grantham, Jared J.

doi:10.1681/asn.v22219

Cited by 25 publications

References 16 publications

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Cyclic‐AMP deficient MDCK cells form tubules

Klebe

Grant

et al. 1995

J of Cellular Biochemistry

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It has been known for many years that MDCK cells form blister-like structures, termed domes. During an examination of the morphology of a large number of MDCK clones, we found that two stable morphotypes exist in an MDCK cell population-namely, dome-forming and tubule-forming clones. When maintained at high cell density, tubule-forming clones displayed large numbers of anastomosing tubules which contained lumens. The frequency of observation of the tubule-forming clones in an MDCK population was 0.7%. Tubule-forming MDCK clones should be useful in studying tubule morphogenesis. While agents that affect protein kinase A activity increased dome formation, the same agents abolished the formation of tubules in all tubule-forming clones. In contrast, drugs that stimulate protein kinase C activity (phorbol esters and staurosporine) decreased dome formation an increased tubule morphogenesis in all MDCK morphotypes. Tubule-forming clones were found to have lower resting levels of cyclic-AMP and to respond to forskolin stimulation of adenylate cyclase less readily. Hence, signals transmitted by the protein kinase C pathway appear to lead to tubule formation in MDCK cells, while signals transmitted through the protein kinase A pathway lead to dome formation.

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Cyclic‐AMP deficient MDCK cells form tubules

Klebe

Grant

et al. 1995

J of Cellular Biochemistry

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Arginine vasopressin regulates CFTR and ClC-2 mRNA expression in rat kidney cortex and medulla

Morales

Nascimento

Capella

et al. 2001

Pflügers Arch - Eur J Physiol

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The presence of both CFTR and ClC-2 proteins in the kidney suggest that they are involved in chloride transport along the nephron but their physiological roles in this organ are not known. To further understand the role of these chloride channels we studied Wistar rats subjected to dehydration for 2 days and also the homozygous Brattleboro rats, a strain of Long-Evans rats carrying an autosomal recessive mutation that leads to a deficiency of arginine-vasopressin (AVP) secretion in the plasma. The expression of CFTR was increased in the medulla of dehydrated Wistar rats and no variation was observed in the cortex. The expression of both ClC-2 and CFTR mRNAs was low in the renal cortex and medulla of the homozygous Brattleboro rats but returned to normal levels after AVP reposition. By the use of Madine-Darby canine kidney (MDCK) type I epithelial cells, it was observed that AVP (10(-8), 10(-7) and 10(-6) M) increased CFTR mRNA expression "in vitro" but no effect was observed when changes in the medium tonicity were caused by the addition of sucrose, NaCl, manitol or urea. The modulation of both CFTR and ClC-2 mRNA by AVP, the main hormone involved in the regulation of body fluid osmolality, suggests the participation of these two chloride channels in the renal tubule transcellular chloride transport modulated by AVP.

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Targeted delivery of a substrate for P-glycoprotein to renal cysts in vitro

Simmons

Hunter

Jepson

1995

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Bodipy-verapamil has been tested as a fluorescent substrate for P-glycoprotein-mediated transepithelial secretion in MDCK-C5A epithelia. Net transepithelial secretion (Jnet) of [3H]vinblastine from basal-to-apical surfaces of monolayer epithelia is inhibited by taxotere, verapamil and Bodipy-verapamil primarily by a reduction in basal to apical vinblastine (Jb-a) transport. Bodipy-verapamil is itself subject to transepithelial net secretion by MDCK-C5A epithelia; at 5 microM a Jnet of -310 +/- 32 nmol cm-2 h-1 (n = 3) was observed. When MDCK-C5A cells are grown to form enclosed cysts in hydrated collagen gel. Bodipy-verapamil is accumulated within the cyst lumen showing that epithelial P-glycoprotein function may be used to target substrates to renal cysts.

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Arginine vasopressin stimulates net fluid secretion in a polarized subculture of cyst-forming MDCK cells.

Cited by 25 publications

References 16 publications

Cyclic‐AMP deficient MDCK cells form tubules

Cyclic‐AMP deficient MDCK cells form tubules

Arginine vasopressin regulates CFTR and ClC-2 mRNA expression in rat kidney cortex and medulla

Targeted delivery of a substrate for P-glycoprotein to renal cysts in vitro

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