Scott L. Cobbs scite author profile

Abstract. Hyperphosphatemia is thought to underlie medial vascular calcification in advanced renal failure, but calcification can occur in other conditions in the absence of hyperphosphatemia, indicating that additional factors are important. To identify these factors, a model of medial calcification in rat aorta in vitro was developed. Aortic rings from rats were incubated in serum-free medium for 9 d, and calcification was measured as incorporation of 45 Ca and confirmed by histology and x-ray diffraction. No calcification occurred in normal vessels despite elevated free Ca 2ϩ and PO 4 3Ϫ concentrations of 1.8 mM and 3.8 mM, respectively, but mechanical injury resulted in extensive calcification in the media. Co-incubation studies revealed that normal aortas produced a soluble inhibitor of calcification in injured vessels that was destroyed by alkaline phosphatase. Culture of normal aortas with alkaline phosphatase resulted in calcification of the elastic lamina identified as hydroxyapatite by x-ray diffraction. This effect of alkaline phosphatase was not due to dephosphorylation of osteopontin (OPN), and calcification was not increased in aortas from OPN-deficient mice. The inhibitor was identified as pyrophosphate on the basis of the calcification induced in aortas cultured with inorganic pyrophosphatase, the inhibition of calcification in injured aortas by pyrophosphate, and the production of inhibitory levels of pyrophosphate by normal aortas. No calcification occurred under any conditions at a normal PO 4 3Ϫ concentration. It is concluded that elevated concentrations of Ca 2ϩ and PO 4 3Ϫ are not sufficient for medial vascular calcification because of inhibition by pyrophosphate. Alkaline phosphatase can promote calcification by hydrolyzing pyrophosphate, but OPN is not an endogenous inhibitor of calcification in rat aorta.Arterial calcification is common in patients with advanced renal failure and ESRD and is thought to contribute to their increased cardiovascular mortality (1). Two distinct forms of calcification are recognized (2,3). Intimal calcification occurs in atheromatous disease and is associated with inflammatory cells (3), whereas medial calcification occurs in the matrix between smooth muscle cells in the absence of atherosclerosis and inflammatory cells (2,4). Medial calcification commonly occurs in advanced renal failure (4,5), where it is thought to result from plasma concentrations of Ca 2ϩ and PO 4 3Ϫ that exceed the solubility product for calcium phosphate. However, medial calcification is also seen in diabetes and with aging in the presence of normal serum Ca 2ϩ and PO 4 3Ϫ concentrations (6), indicating that hyperphosphatemia is not required for medial calcification.Considerable data suggest that vascular calcification is a spontaneous event, even at normal calcium and phosphate concentrations, that is prevented by inhibitory factors within the vessel wall. Several proteins have been implicated in this process. Mice deficient in matrix Gla protein (MGP) develop rapid and severe medial ...

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Loss of the ??-Isoform of Calcineurin Is Sufficient to Induce Nephrotoxicity and Altered Expression of Transforming Growth Factor-??

Gooch

Roberts

Cobbs

et al. 2007

Transplantation

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Aldosterone Regulates the Na-K-2Cl Cotransporter in Vascular Smooth Muscle

et al. 2003

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Abstract-Aldosterone increases cation transport and contractility of vascular smooth muscle, but the specific transporter involved and how it is linked to smooth muscle tone is unknown. Because the Na-K-2Cl cotransporter (NKCC1) contributes to vascular smooth muscle contraction and is regulated by vasoactive compounds, we sought to determine whether this transporter is a target of aldosterone in rat aorta. Treatment of adrenalectomized rats with aldosterone for 7 days resulted in a 63% increase in NKCC1 activity as measured by bumetanide-sensitive efflux of 86 Rb ϩ . Treatment of normal aortas in culture with aldosterone for 3 and 7 days resulted in 29% and 47% increases in NKCC1 activity, respectively. Aldosterone had no acute effect on 86 Rb ϩ efflux. Stimulation of NKCC1 was blocked by spironolactone, a mineralocorticoid receptor antagonist, but not by RU38486, a glucocorticoid receptor antagonist. Aldosterone did not augment the stimulation of NKCC1 by phenylephrine and did not increase NKCC1 mRNA as determined by real-time polymerase chain reaction. We conclude that aldosterone regulates the Na-K-2Cl cotransporter in vascular smooth muscle through classic mineralocorticoid receptors but not through changes in the abundance of NKCC1 mRNA. This could account for the increase in Na ϩ , K ϩ , and Cl Ϫ fluxes previously observed in vascular smooth muscle from mineralocorticoid-treated animals and may contribute to increased vascular tone.

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NFATc is required for TGFβ-mediated transcriptional regulation of fibronectin

Cobbs

Gooch

2007

Biochemical and Biophysical Research Communications

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Calcineurin is an important regulator of extracellular matrix (ECM) accumulation in the kidney but functions in a cell-specific manner. Previously, we identified a novel role for calcineurin in mesangial cells where calcineurin activity is required for TGFβ-mediated induction of fibronectin expression. In this study we examined the role of the calcineurin substrate NFATc in transcriptional regulation of fibronectin. First, inhibition of calcineurin blocks TGFβ induction of the fibronectin promoter. Moreover, expression of constitutively active calcineurin in mesangial cells is sufficient to increase fibronectin transcription. Next, inhibition of the calcineurin substrate NFATc1 blocked TGFβ-mediated activation of the fibronectin promoter. Finally, stable expression of a dominant negative NFATc protein reduced transcriptional activation of the promoter and inhibited TGFβ-mediated fibronectin expression. In conclusion, TGFß activation of calcineurin in mesangial cells results in regulation of ECM accumulation at least in part by direct transcriptional activity of NFATc on the fibronectin promoter.

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Blood pressure regulates the activity and function of the Na-K-2Cl cotransporter in vascular smooth muscle

Jiang

Akar

Cobbs

et al. 2004

American Journal of Physiology-Heart and Circulatory Physiology

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The Na-K-2Cl cotransporter (NKCC1) is one of several transporters that have been linked to hypertension, and its inhibition reduces vascular smooth muscle tone and blood pressure. NKCC1 in the rat aorta is stimulated by vasoconstrictors and inhibited by nitrovasodilators, and this is linked to the contractile state of the smooth muscle. To determine whether blood pressure also regulates NKCC1, we examined the acute effect of hypertension on NKCC1 in rats after aortic coarctation. In the hypertensive aorta (28-mmHg rise in mean blood pressure), an increase in NKCC1 activity (measured as bumetanide-sensitive (86)Rb efflux) was apparent by 16 h and reached a plateau of 62% greater than control at 48 h. In contrast, there was a slight decrease in NKCC1 activity in the hypotensive aorta (21% decrease in mean blood pressure). Measurement of NKCC1 mRNA by real-time PCR revealed a fivefold increase in the hypertensive aorta compared with the hypotensive aorta or sham aorta. The inhibition by bumetanide of isometric force response to phenylephrine was significantly greater in the hypertensive aorta than in the control aorta or hypotensive aorta. We conclude that NKCC1 in rat aortic smooth muscle is regulated by blood pressure, most likely through changes in transporter abundance. This upregulation of NKCC1 is associated with a greater contribution to force generation in the hypertensive aorta. This is the first demonstration that NKCC1 in vascular smooth muscle is regulated by blood pressure and indicates that this transporter is important in the acute response of vascular smooth muscle to hypertension.

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Scott L. Cobbs

Phosphate-Induced Vascular Calcification

Loss of the ??-Isoform of Calcineurin Is Sufficient to Induce Nephrotoxicity and Altered Expression of Transforming Growth Factor-??

Aldosterone Regulates the Na-K-2Cl Cotransporter in Vascular Smooth Muscle

NFATc is required for TGFβ-mediated transcriptional regulation of fibronectin

Blood pressure regulates the activity and function of the Na-K-2Cl cotransporter in vascular smooth muscle

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