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Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against: The Cases for and Against

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Zeitschriftentitel: European Journal of Biochemistry
Personen und Körperschaften: Denton, Richard M., Tavaré, Jeremy M.
In: European Journal of Biochemistry, 227, 1995, 3, S. 597-611
Format: E-Article
Sprache: Englisch
veröffentlicht:
Wiley
Schlagwörter:
Biochemistry
author_facet Denton, Richard M.
Tavaré, Jeremy M.
Denton, Richard M.
Tavaré, Jeremy M.
author Denton, Richard M.
Tavaré, Jeremy M.
spellingShingle Denton, Richard M.
Tavaré, Jeremy M.
European Journal of Biochemistry
Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against
Biochemistry
author_sort denton, richard m.
spelling Denton, Richard M. Tavaré, Jeremy M. 0014-2956 1432-1033 Wiley Biochemistry http://dx.doi.org/10.1111/j.1432-1033.1995.0597p.x <jats:p>The discovery of the mitogen‐activated protein (MAP) kinase family of protein kinases has sparked off an intensive effort to elucidate their role in the regulation of many cellular processes. These protein kinases were originally identified based on their rapid activation by insulin. In this review we concentrate on examining the evidence for and against a role for the MAP kinases Erk‐1 and Erk‐2 in mediating the effects of insulin. While there is good evidence in favour of a direct role for MAP kinase in the growth‐promoting effects of insulin and the regulation of Glut‐1 and c‐<jats:italic>fos</jats:italic> expression, and AP‐1 transcriptional complex activity, this is by no means conclusive. MAP kinase may also play a role in the control of mRNA translation by insulin. On the other hand, the evidence suggests that MAP kinase is not sufficient for the acute regulation of glucose transport (Glut‐4 translocation), glycogen synthesis, acetyl‐CoA carboxylase or pyruvate dehydrogenase activity. The findings suggest that insulin may utilise at least three distinct signalling pathways which do not involve MAP kinase.</jats:p> The Cases for and Against Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against European Journal of Biochemistry
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title_sub The Cases for and Against
title Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against
title_unstemmed Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against
title_full Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against
title_fullStr Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against
title_full_unstemmed Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against
title_short Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against
title_sort does mitogen‐activated‐protein kinase have a role in insulin action? : the cases for and against
topic Biochemistry
url http://dx.doi.org/10.1111/j.1432-1033.1995.0597p.x
publishDate 1995
physical 597-611
description <jats:p>The discovery of the mitogen‐activated protein (MAP) kinase family of protein kinases has sparked off an intensive effort to elucidate their role in the regulation of many cellular processes. These protein kinases were originally identified based on their rapid activation by insulin. In this review we concentrate on examining the evidence for and against a role for the MAP kinases Erk‐1 and Erk‐2 in mediating the effects of insulin. While there is good evidence in favour of a direct role for MAP kinase in the growth‐promoting effects of insulin and the regulation of Glut‐1 and c‐<jats:italic>fos</jats:italic> expression, and AP‐1 transcriptional complex activity, this is by no means conclusive. MAP kinase may also play a role in the control of mRNA translation by insulin. On the other hand, the evidence suggests that MAP kinase is not sufficient for the acute regulation of glucose transport (Glut‐4 translocation), glycogen synthesis, acetyl‐CoA carboxylase or pyruvate dehydrogenase activity. The findings suggest that insulin may utilise at least three distinct signalling pathways which do not involve MAP kinase.</jats:p>
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author Denton, Richard M., Tavaré, Jeremy M.
author_facet Denton, Richard M., Tavaré, Jeremy M., Denton, Richard M., Tavaré, Jeremy M.
author_sort denton, richard m.
container_issue 3
container_start_page 597
container_title European Journal of Biochemistry
container_volume 227
description <jats:p>The discovery of the mitogen‐activated protein (MAP) kinase family of protein kinases has sparked off an intensive effort to elucidate their role in the regulation of many cellular processes. These protein kinases were originally identified based on their rapid activation by insulin. In this review we concentrate on examining the evidence for and against a role for the MAP kinases Erk‐1 and Erk‐2 in mediating the effects of insulin. While there is good evidence in favour of a direct role for MAP kinase in the growth‐promoting effects of insulin and the regulation of Glut‐1 and c‐<jats:italic>fos</jats:italic> expression, and AP‐1 transcriptional complex activity, this is by no means conclusive. MAP kinase may also play a role in the control of mRNA translation by insulin. On the other hand, the evidence suggests that MAP kinase is not sufficient for the acute regulation of glucose transport (Glut‐4 translocation), glycogen synthesis, acetyl‐CoA carboxylase or pyruvate dehydrogenase activity. The findings suggest that insulin may utilise at least three distinct signalling pathways which do not involve MAP kinase.</jats:p>
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imprint Wiley, 1995
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spelling Denton, Richard M. Tavaré, Jeremy M. 0014-2956 1432-1033 Wiley Biochemistry http://dx.doi.org/10.1111/j.1432-1033.1995.0597p.x <jats:p>The discovery of the mitogen‐activated protein (MAP) kinase family of protein kinases has sparked off an intensive effort to elucidate their role in the regulation of many cellular processes. These protein kinases were originally identified based on their rapid activation by insulin. In this review we concentrate on examining the evidence for and against a role for the MAP kinases Erk‐1 and Erk‐2 in mediating the effects of insulin. While there is good evidence in favour of a direct role for MAP kinase in the growth‐promoting effects of insulin and the regulation of Glut‐1 and c‐<jats:italic>fos</jats:italic> expression, and AP‐1 transcriptional complex activity, this is by no means conclusive. MAP kinase may also play a role in the control of mRNA translation by insulin. On the other hand, the evidence suggests that MAP kinase is not sufficient for the acute regulation of glucose transport (Glut‐4 translocation), glycogen synthesis, acetyl‐CoA carboxylase or pyruvate dehydrogenase activity. The findings suggest that insulin may utilise at least three distinct signalling pathways which do not involve MAP kinase.</jats:p> The Cases for and Against Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against European Journal of Biochemistry
spellingShingle Denton, Richard M., Tavaré, Jeremy M., European Journal of Biochemistry, Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against, Biochemistry
title Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against
title_full Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against
title_fullStr Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against
title_full_unstemmed Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against
title_short Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against
title_sort does mitogen‐activated‐protein kinase have a role in insulin action? : the cases for and against
title_sub The Cases for and Against
title_unstemmed Does Mitogen‐Activated‐Protein Kinase have a Role in Insulin Action? : The Cases for and Against
topic Biochemistry
url http://dx.doi.org/10.1111/j.1432-1033.1995.0597p.x