Sophie Clément scite author profile

The mechanism of protein kinase C (PKC) regulation by alpha-tocopherol has been investigated in smooth-muscle cells. Treatment of rat aortic A7r5 smooth-muscle cells with alpha-tocopherol resulted in a time- and dose-dependent inhibition of PKC. The inhibition was not related to a direct interaction of alpha-tocopherol with the enzyme nor with a diminution of its expression. Western analysis demonstrated the presence of PKCalpha, beta, delta, epsilon, zeta and micro isoforms in these cells. Autophosphorylation and kinase activities of the different isoforms have shown that only PKCalpha was inhibited by alpha-tocopherol. The inhibitory effects were not mimicked by beta-tocopherol, an analogue of alpha-tocopherol with similar antioxidant properties. The inhibition of PKCalpha by alpha-tocopherol has been found to be associated with its dephosphorylation. Moreover the finding of an activation of protein phosphatase type 2A in vitro by alpha-tocopherol suggests that this enzyme might be responsible for the observed dephosphorylation and subsequent deactivation of PKCalpha. It is therefore proposed that PKCalpha inhibition by alpha-tocopherol is linked to the activation of a protein phosphatase, which in turn dephosphorylates PKCalpha and inhibits its activity.

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Molecular basis of α‐tocopherol control of smooth muscle cell proliferation

Azzi

Aratri

Boscoboinik

et al. 1998

BioFactors

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Rat and human vascular smooth muscle cell proliferation is specifically sensitive to alpha-tocopherol, but not beta-tocopherol. The former, but not the latter, is capable of limiting proliferation and inhibiting protein kinase C activity in a dose-dependent manner. The phenomenon occurs at concentrations in the range 10-50 microM. beta-tocopherol addition together with alpha-tocopherol, prevents both cell growth and protein kinase C inhibition. alpha-tocopherol increases de novo synthesis of protein kinase C molecules. The enzyme specific activity, however, is diminished, due to a decreased phosphorylation of protein kinase C, occurring in the presence of alpha-tocopherol. Experiments with protein kinase C isoform-specific inhibitors and precipitating antibodies show that the only isoform affected by alpha-tocopherol is protein kinase C-alpha. The effect of alpha-tocopherol is prevented by okadaic acid indicating a phosphatase of the PP2A type as responsible for protein kinase C-alpha dephosphorylation produced in the presence of alpha-tocopherol. At a gene level alpha-tocopherol but not beta-tocopherol induces a transient activation of alpha-tropomyosin gene transcription and protein expression. It is proposed that, by inhibiting protein kinase C activity via an activation of a phosphatase PP2A, alpha-tocopherol controls smooth muscle cell proliferation through changes in gene expression.

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Endothelin-1 induces phosphorylation of GATA-4 transcription factor in the HL-1 atrial-muscle cell line

et al. 2001

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The transcription factor GATA-4 plays a central role in the regulation of cardiac-muscle gene transcription. The present study demonstrates that endothelin-1 (ET-1) induces GATA-4 activation and phosphorylation. The treatment of HL-1 adult mouse atrial-muscle cells with ET-1 (30 nM) caused a rapid increase in the DNA binding activity of GATA-4 within 3 min. The activation was associated with an upward mobility shift of the GATA-4 band on native PAGE in an electrophoretic- mobility-shift assay. The upward shift of the GATA-4 band also occurred on SDS/PAGE as monitored by immunoblotting. The in vitro treatment of nuclear extracts with lambda-protein phosphatase abolished the upward shift, indicating that GATA-4 was phosphorylated. ET-1 activated the p44/42 mitogen-activated protein kinase (MAPK) and the MAPK kinase (MEK) within 3 min, and PD98059 (a specific inhibitor of MEK) abolished the ET-1-induced GATA-4 phosphorylation. PMA also caused the rapid activation of MAPK and the phosphorylation of GATA-4. In contrast, the activation of MAPK by phenylephrine or H(2)O(2) was weak and did not lead to GATA-4 phosphorylation. Thus ET-1 induces a GATA-4 phosphorylation by activating a MEK-MAPK pathway.

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Analytical Findings in a Suicide Involving Sodium Azide

Marquet

Clément

Lotfi

et al. 1996

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A 47-year-old laboratory assistant ingested approximately 9 g of sodium azide powder and died 4 h later at a hospital. A high-performance liquid chromatographic method using diode-array detection has been developed for the determination of an azide benzoyl derivative in blood (after a simple deproteinization) and in several tissues (after homogenization in a neutral buffer and deproteinization of the supernatant). The blood concentration in this case was lower than those previously published. The highest azide concentration was found in lung tissue. A complete toxicological screening revealed the presence of cyanide in blood, which has been previously reported twice, but for the first time, it was confirmed by mass spectrometry. Whether the production of cyanide in the presence of azide took place in vivo or postmortem remains unknown; the nature of the metabolic pathway involved also remains unknown.

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The Effect of α‐Tocopherol on the Synthesis, Phosphorylation and Activity of Protein Kinase C in Smooth Muscle Cells After Phorbol 12‐Myristate 13‐Acetate Down‐Regulation

Clément

Tasinato

Boscoboinik

et al. 1997

European Journal of Biochemistry

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Previous work had established that, in smooth muscle cells, a-tocopherol negatively regulates protein kinase C by preventing its activation [Tasinato, A., Boscoboinik, D., Bartoli, G. M., Maroni, P. & Azzi, A. (1995) Proc. Nntl Acad. Sci. USA 92, . In this study, the mechanism by which this event takes place has been analyzed. The regulation by a-tocopherol of protein kinase C expression, activity and phosphorylation has been followed during the synthesis of protein kinase C after its downregulation by phorbol 12-myristate 13-acetate. The data show that protein kinase C isoenzyme a is synthesised significantly more (30% 72 h after down-regulation) in the presence of a-tocopherol. However, its activity is significantly less (45 % diminution) and its phosphorylation state is also decreased (60% diminution). The effect of a-tocopherol appears not to be shared by the analogue P-tocopherol, provided with similar radical-scavenging properties. The data are interpreted in terms of a diminution of protein kinase C phosphorylation, specifically caused by a-tocopherol, resulting in a decreased enzyme specific activity.

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Roles of protein kinase C and α-tocopherol in regulation of signal transduction for GATA-4 phosphorylation in HL-1 cardiac muscle cells

Clément

Tan

Guo

et al. 2002

Free Radical Biology and Medicine

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α-tocopherol as a modulator of smooth muscle cell proliferation

Azzi¹,

Boscoboinik²,

Clément³

et al. 1997

Prostaglandins, Leukotrienes and Essential Fatty Acids

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Vitamin E mediated response of smooth muscle cell to oxidant stress

Azzi

Boscoboinik

Clément

et al. 1999

Diabetes Research and Clinical Practice

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Sophie Clément

α-Tocopherol specifically inactivates cellular protein kinase C α by changing its phosphorylation state

Molecular basis of α‐tocopherol control of smooth muscle cell proliferation

Endothelin-1 induces phosphorylation of GATA-4 transcription factor in the HL-1 atrial-muscle cell line

Analytical Findings in a Suicide Involving Sodium Azide

The Effect of α‐Tocopherol on the Synthesis, Phosphorylation and Activity of Protein Kinase C in Smooth Muscle Cells After Phorbol 12‐Myristate 13‐Acetate Down‐Regulation

Roles of protein kinase C and α-tocopherol in regulation of signal transduction for GATA-4 phosphorylation in HL-1 cardiac muscle cells

α-tocopherol as a modulator of smooth muscle cell proliferation

Vitamin E mediated response of smooth muscle cell to oxidant stress

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