Darning Zhuang scite author profile

Darning Zhuang

4Publications

76Citation Statements Received

117Citation Statements Given

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University of Tennessee Health Science Center, Kanazawa University

Publications

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Nitric oxide attenuates insulin- or IGF-I-stimulated aortic smooth muscle cell motility by decreasing H₂O₂levels: essential role of cGMP

Zhuang

Ceacareanu

Yan

et al. 2004

American Journal of Physiology-Heart and Circulatory Physiology

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Insulin and insulin-like growth factor I (IGF-I) both play important roles in vascular remodeling. Moreover, nitric oxide (NO) is well established as a counterregulatory agent that opposes the actions of several vascular agonists, in part by decreasing smooth muscle motility. We tested the hypothesis that NO blocks insulin or IGF-I-induced rat aortic smooth muscle cell motility via a mechanism involving the attenuation of agonist-induced elevation of hydrogen peroxide levels and cGMP as mediator. Insulin or IGF-I induced an increase of hydrogen peroxide levels and cell motility. Both effects were blocked by catalase or diphenyleneiodonium, indicating that hydrogen peroxide elevation is necessary for induction of cell motility. Two NO donors mimicked the effects of catalase, indicating that NO decreases cell motility by suppressing agonist-induced elevation of hydrogen peroxide. A cGMP analogue mimicked the effect of NO, whereas a guanyl cyclase inhibitor blocked the effect of NO on hydrogen peroxide levels, indicating that elevation of cGMP is both necessary and sufficient to account for the reduction of hydrogen peroxide levels. A NO donor as well as a cGMP analogue attenuated insulin-stimulated NADPH activity, indicating that NO decreases hydrogen peroxide levels by inhibiting the generation of superoxide, via a cGMP-mediated mechanism. Finally, exogenous hydrogen peroxide increased cell motility and reversed the inhibitory effect of cGMP. These results support the view that NO plays an antioxidant role via reduction of hydrogen peroxide in cultured rat aortic smooth muscle cells and that this effect is both necessary and sufficient to account for its capacity to decrease cell motility.

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Increase of PTP levels in vascular injury and in cultured aortic smooth muscle cells treated with specific growth factors

Chang¹,

Zhuang²,

Zhang³

et al. 2004

American Journal of Physiology-Heart and Circulatory Physiology

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Migration and proliferation of vascular smooth muscle cells are key events in injury-induced neointima formation. Several growth factors and ANG II are thought to be involved in neointima formation. A recent report indicated that vascular injury is associated with increased mRNA levels of protein tyrosine phosphatase (PTP)-1B (PTP-1B). In the present study, we tested the following hypotheses: 1) rat carotid artery injury induces the expression of PTP-1B, Src homology-2 domain phosphatase (SHP-2), and PTP-proline, glutamate, serine, and threonine sequence (PEST) protein; and 2) polypeptide growth factors as well as ANG II increase the levels of tyrosine phosphatases in cultured rat aortic smooth muscle cells. We found that vascular injury induced by balloon catheter increases the protein levels of aforementioned phosphatases and that these effects occur in a PTP specific, as well as temporally and regionally specific, manner. Moreover, treatment of cultured primary rat aortic smooth muscle cells with PDGF or bFGF, but not with IGF1, EGF, or ANG II, increases PTP-1B, SHP-2, and PTP-PEST protein levels. These results suggest that increased PDGF and bFGF levels, occurring after vascular injury, may induce expression of several PTPs.

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Suppression of Prostaglandin E2-mediated c-fos mRNA Induction by Interleukin-4 in Murine Macrophages

Zhuang

Kawajiri

Takahashi

et al. 2000

Journal of Biochemistry

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When murine peritoneal macrophages were stimulated for 30 min with arachidonic acid, the growth-associated immediate early gene c-fos was induced in a concentration-dependent manner as assessed by Northern blot analysis. The arachidonic acid-induced c-fos mRNA expression was inhibited by a cyclooxygenase inhibitor, indomethacin, but not by a lipoxygenase inhibitor, nordihydroguaiaretic acid. Macrophages produced prostaglandin (PG) E(2) from arachidonic acid as determined by an enzyme immunoassay. Northern blot analysis revealed the expression of PGE receptor EP2 and EP4 subtypes, but not EP1 and EP3 in murine macrophages. PGE(2) brought about a marked elevation of cAMP, and c-fos mRNA expression was increased by PGE(2) and dibutyryl cAMP in these cells. These results suggest that arachidonic acid is transformed to PGE(2), which then binds to EP2 and EP4 receptors to increase intracellular cAMP and c-fos mRNA expression. Furthermore, the induction of c-fos by arachidonic acid, PGE(2), and cAMP was suppressed by pretreatment with interleukin (IL)-4. We also showed that the tyrosine phosphorylation of a Janus kinase, JAK3, is enhanced by IL-4 treatment, suggesting that the PGE(2)-mediated c-fos mRNA induction is inhibited by IL-4 through the tyrosine phosphorylation of JAK3.

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Corrigendum for Zhuang D et al., Volume 286/55, June 2004, p. H2103–H2112

Zhuang¹,

Ceacareanu²,

Lin³

et al. 2004

American Journal of Physiology-Heart and Circulatory Physiology

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Darning Zhuang

Nitric oxide attenuates insulin- or IGF-I-stimulated aortic smooth muscle cell motility by decreasing H₂O₂levels: essential role of cGMP

Increase of PTP levels in vascular injury and in cultured aortic smooth muscle cells treated with specific growth factors

Suppression of Prostaglandin E2-mediated c-fos mRNA Induction by Interleukin-4 in Murine Macrophages

Corrigendum for Zhuang D et al., Volume 286/55, June 2004, p. H2103–H2112

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Darning Zhuang

Nitric oxide attenuates insulin- or IGF-I-stimulated aortic smooth muscle cell motility by decreasing H2O2levels: essential role of cGMP

Increase of PTP levels in vascular injury and in cultured aortic smooth muscle cells treated with specific growth factors

Suppression of Prostaglandin E2-mediated c-fos mRNA Induction by Interleukin-4 in Murine Macrophages

Corrigendum for Zhuang D et al., Volume 286/55, June 2004, p. H2103–H2112

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Nitric oxide attenuates insulin- or IGF-I-stimulated aortic smooth muscle cell motility by decreasing H₂O₂levels: essential role of cGMP