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Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells
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Zeitschriftentitel: | Cell Proliferation |
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Personen und Körperschaften: | , |
In: | Cell Proliferation, 47, 2014, 3, S. 200-210 |
Format: | E-Article |
Sprache: | Englisch |
veröffentlicht: |
Wiley
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Schlagwörter: |
author_facet |
Hu, X. T. Zuckerman, K. S. Hu, X. T. Zuckerman, K. S. |
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author |
Hu, X. T. Zuckerman, K. S. |
spellingShingle |
Hu, X. T. Zuckerman, K. S. Cell Proliferation Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells Cell Biology General Medicine |
author_sort |
hu, x. t. |
spelling |
Hu, X. T. Zuckerman, K. S. 0960-7722 1365-2184 Wiley Cell Biology General Medicine http://dx.doi.org/10.1111/cpr.12100 <jats:title>Abstract</jats:title><jats:p>The important role of cell cycle regulatory molecules in all trans‐retinoic acid (<jats:styled-content style="fixed-case">ATRA</jats:styled-content>)‐ and vitamin D3‐induced growth inhibition and differentiation induction has been intensively studied in both acute myeloid leukaemia primary cells and a variety of leukaemia cell lines. Cyclin‐dependent kinases (<jats:styled-content style="fixed-case">CDK</jats:styled-content>)‐activating kinase has been demonstrated to interact with retinoic acid receptor (<jats:styled-content style="fixed-case">RAR</jats:styled-content>)α in acute promyelocytic leukaemia cells, and inhibition of <jats:styled-content style="fixed-case">CDK</jats:styled-content>‐activating kinase by <jats:styled-content style="fixed-case">ATRA</jats:styled-content> causes hypophosphorylation of PML‐RARα, leading to myeloid differentiation. In many cases, downregulation of <jats:styled-content style="fixed-case">CDK</jats:styled-content> activity by <jats:styled-content style="fixed-case">ATRA</jats:styled-content> and vitamin D3 is a result of elevated p21‐ and p27‐bound <jats:styled-content style="fixed-case">CDK</jats:styled-content>s. Activation of p21 is regulated at the transcriptional level, whereas elevated p27 results from both (indirectly) transcriptional activation and post‐translational modifications. <jats:styled-content style="fixed-case">CDK</jats:styled-content> inhibitors (<jats:styled-content style="fixed-case">CKI</jats:styled-content>s) of the <jats:styled-content style="fixed-case">INK</jats:styled-content> family, such as p15, p16 and p18, are mainly involved in inhibition of cell proliferation, whereas CIP/KIP members, such as p21, regulate both growth arrest and induction of differentiation. <jats:styled-content style="fixed-case">ATRA</jats:styled-content> and vitamin D3 can also downregulate expression of G1 <jats:styled-content style="fixed-case">CDK</jats:styled-content>s, especially <jats:styled-content style="fixed-case">CDK</jats:styled-content>2 and <jats:styled-content style="fixed-case">CDK</jats:styled-content>6. Inhibition of cyclin E expression has only been observed in <jats:styled-content style="fixed-case">ATRA</jats:styled-content>‐ but not in vitamin D3‐treated leukaemic cells. <jats:italic>In vitro,</jats:italic> not only dephosphorylation of pRb but also elevation of total pRb is required for <jats:styled-content style="fixed-case">ATRA</jats:styled-content> and vitamin D3 to suppress growth and trigger their differentiation. Finally, sharp reduction in c‐Myc has been observed in several leukaemia cell lines treated with <jats:styled-content style="fixed-case">ATRA</jats:styled-content>, which may regulate expression of <jats:styled-content style="fixed-case">CDK</jats:styled-content>s and <jats:styled-content style="fixed-case">CKI</jats:styled-content>s.</jats:p> Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells Cell Proliferation |
doi_str_mv |
10.1111/cpr.12100 |
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Online Free |
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Biologie |
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ElectronicArticle |
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imprint |
Wiley, 2014 |
imprint_str_mv |
Wiley, 2014 |
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2014 |
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Wiley |
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Cell Proliferation |
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49 |
title |
Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells |
title_unstemmed |
Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells |
title_full |
Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells |
title_fullStr |
Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells |
title_full_unstemmed |
Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells |
title_short |
Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells |
title_sort |
role of cell cycle regulatory molecules in retinoic acid‐ and vitamin d3‐induced differentiation of acute myeloid leukaemia cells |
topic |
Cell Biology General Medicine |
url |
http://dx.doi.org/10.1111/cpr.12100 |
publishDate |
2014 |
physical |
200-210 |
description |
<jats:title>Abstract</jats:title><jats:p>The important role of cell cycle regulatory molecules in all trans‐retinoic acid (<jats:styled-content style="fixed-case">ATRA</jats:styled-content>)‐ and vitamin D3‐induced growth inhibition and differentiation induction has been intensively studied in both acute myeloid leukaemia primary cells and a variety of leukaemia cell lines. Cyclin‐dependent kinases (<jats:styled-content style="fixed-case">CDK</jats:styled-content>)‐activating kinase has been demonstrated to interact with retinoic acid receptor (<jats:styled-content style="fixed-case">RAR</jats:styled-content>)α in acute promyelocytic leukaemia cells, and inhibition of <jats:styled-content style="fixed-case">CDK</jats:styled-content>‐activating kinase by <jats:styled-content style="fixed-case">ATRA</jats:styled-content> causes hypophosphorylation of PML‐RARα, leading to myeloid differentiation. In many cases, downregulation of <jats:styled-content style="fixed-case">CDK</jats:styled-content> activity by <jats:styled-content style="fixed-case">ATRA</jats:styled-content> and vitamin D3 is a result of elevated p21‐ and p27‐bound <jats:styled-content style="fixed-case">CDK</jats:styled-content>s. Activation of p21 is regulated at the transcriptional level, whereas elevated p27 results from both (indirectly) transcriptional activation and post‐translational modifications. <jats:styled-content style="fixed-case">CDK</jats:styled-content> inhibitors (<jats:styled-content style="fixed-case">CKI</jats:styled-content>s) of the <jats:styled-content style="fixed-case">INK</jats:styled-content> family, such as p15, p16 and p18, are mainly involved in inhibition of cell proliferation, whereas CIP/KIP members, such as p21, regulate both growth arrest and induction of differentiation. <jats:styled-content style="fixed-case">ATRA</jats:styled-content> and vitamin D3 can also downregulate expression of G1 <jats:styled-content style="fixed-case">CDK</jats:styled-content>s, especially <jats:styled-content style="fixed-case">CDK</jats:styled-content>2 and <jats:styled-content style="fixed-case">CDK</jats:styled-content>6. Inhibition of cyclin E expression has only been observed in <jats:styled-content style="fixed-case">ATRA</jats:styled-content>‐ but not in vitamin D3‐treated leukaemic cells. <jats:italic>In vitro,</jats:italic> not only dephosphorylation of pRb but also elevation of total pRb is required for <jats:styled-content style="fixed-case">ATRA</jats:styled-content> and vitamin D3 to suppress growth and trigger their differentiation. Finally, sharp reduction in c‐Myc has been observed in several leukaemia cell lines treated with <jats:styled-content style="fixed-case">ATRA</jats:styled-content>, which may regulate expression of <jats:styled-content style="fixed-case">CDK</jats:styled-content>s and <jats:styled-content style="fixed-case">CKI</jats:styled-content>s.</jats:p> |
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author | Hu, X. T., Zuckerman, K. S. |
author_facet | Hu, X. T., Zuckerman, K. S., Hu, X. T., Zuckerman, K. S. |
author_sort | hu, x. t. |
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description | <jats:title>Abstract</jats:title><jats:p>The important role of cell cycle regulatory molecules in all trans‐retinoic acid (<jats:styled-content style="fixed-case">ATRA</jats:styled-content>)‐ and vitamin D3‐induced growth inhibition and differentiation induction has been intensively studied in both acute myeloid leukaemia primary cells and a variety of leukaemia cell lines. Cyclin‐dependent kinases (<jats:styled-content style="fixed-case">CDK</jats:styled-content>)‐activating kinase has been demonstrated to interact with retinoic acid receptor (<jats:styled-content style="fixed-case">RAR</jats:styled-content>)α in acute promyelocytic leukaemia cells, and inhibition of <jats:styled-content style="fixed-case">CDK</jats:styled-content>‐activating kinase by <jats:styled-content style="fixed-case">ATRA</jats:styled-content> causes hypophosphorylation of PML‐RARα, leading to myeloid differentiation. In many cases, downregulation of <jats:styled-content style="fixed-case">CDK</jats:styled-content> activity by <jats:styled-content style="fixed-case">ATRA</jats:styled-content> and vitamin D3 is a result of elevated p21‐ and p27‐bound <jats:styled-content style="fixed-case">CDK</jats:styled-content>s. Activation of p21 is regulated at the transcriptional level, whereas elevated p27 results from both (indirectly) transcriptional activation and post‐translational modifications. <jats:styled-content style="fixed-case">CDK</jats:styled-content> inhibitors (<jats:styled-content style="fixed-case">CKI</jats:styled-content>s) of the <jats:styled-content style="fixed-case">INK</jats:styled-content> family, such as p15, p16 and p18, are mainly involved in inhibition of cell proliferation, whereas CIP/KIP members, such as p21, regulate both growth arrest and induction of differentiation. <jats:styled-content style="fixed-case">ATRA</jats:styled-content> and vitamin D3 can also downregulate expression of G1 <jats:styled-content style="fixed-case">CDK</jats:styled-content>s, especially <jats:styled-content style="fixed-case">CDK</jats:styled-content>2 and <jats:styled-content style="fixed-case">CDK</jats:styled-content>6. Inhibition of cyclin E expression has only been observed in <jats:styled-content style="fixed-case">ATRA</jats:styled-content>‐ but not in vitamin D3‐treated leukaemic cells. <jats:italic>In vitro,</jats:italic> not only dephosphorylation of pRb but also elevation of total pRb is required for <jats:styled-content style="fixed-case">ATRA</jats:styled-content> and vitamin D3 to suppress growth and trigger their differentiation. Finally, sharp reduction in c‐Myc has been observed in several leukaemia cell lines treated with <jats:styled-content style="fixed-case">ATRA</jats:styled-content>, which may regulate expression of <jats:styled-content style="fixed-case">CDK</jats:styled-content>s and <jats:styled-content style="fixed-case">CKI</jats:styled-content>s.</jats:p> |
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spelling | Hu, X. T. Zuckerman, K. S. 0960-7722 1365-2184 Wiley Cell Biology General Medicine http://dx.doi.org/10.1111/cpr.12100 <jats:title>Abstract</jats:title><jats:p>The important role of cell cycle regulatory molecules in all trans‐retinoic acid (<jats:styled-content style="fixed-case">ATRA</jats:styled-content>)‐ and vitamin D3‐induced growth inhibition and differentiation induction has been intensively studied in both acute myeloid leukaemia primary cells and a variety of leukaemia cell lines. Cyclin‐dependent kinases (<jats:styled-content style="fixed-case">CDK</jats:styled-content>)‐activating kinase has been demonstrated to interact with retinoic acid receptor (<jats:styled-content style="fixed-case">RAR</jats:styled-content>)α in acute promyelocytic leukaemia cells, and inhibition of <jats:styled-content style="fixed-case">CDK</jats:styled-content>‐activating kinase by <jats:styled-content style="fixed-case">ATRA</jats:styled-content> causes hypophosphorylation of PML‐RARα, leading to myeloid differentiation. In many cases, downregulation of <jats:styled-content style="fixed-case">CDK</jats:styled-content> activity by <jats:styled-content style="fixed-case">ATRA</jats:styled-content> and vitamin D3 is a result of elevated p21‐ and p27‐bound <jats:styled-content style="fixed-case">CDK</jats:styled-content>s. Activation of p21 is regulated at the transcriptional level, whereas elevated p27 results from both (indirectly) transcriptional activation and post‐translational modifications. <jats:styled-content style="fixed-case">CDK</jats:styled-content> inhibitors (<jats:styled-content style="fixed-case">CKI</jats:styled-content>s) of the <jats:styled-content style="fixed-case">INK</jats:styled-content> family, such as p15, p16 and p18, are mainly involved in inhibition of cell proliferation, whereas CIP/KIP members, such as p21, regulate both growth arrest and induction of differentiation. <jats:styled-content style="fixed-case">ATRA</jats:styled-content> and vitamin D3 can also downregulate expression of G1 <jats:styled-content style="fixed-case">CDK</jats:styled-content>s, especially <jats:styled-content style="fixed-case">CDK</jats:styled-content>2 and <jats:styled-content style="fixed-case">CDK</jats:styled-content>6. Inhibition of cyclin E expression has only been observed in <jats:styled-content style="fixed-case">ATRA</jats:styled-content>‐ but not in vitamin D3‐treated leukaemic cells. <jats:italic>In vitro,</jats:italic> not only dephosphorylation of pRb but also elevation of total pRb is required for <jats:styled-content style="fixed-case">ATRA</jats:styled-content> and vitamin D3 to suppress growth and trigger their differentiation. Finally, sharp reduction in c‐Myc has been observed in several leukaemia cell lines treated with <jats:styled-content style="fixed-case">ATRA</jats:styled-content>, which may regulate expression of <jats:styled-content style="fixed-case">CDK</jats:styled-content>s and <jats:styled-content style="fixed-case">CKI</jats:styled-content>s.</jats:p> Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells Cell Proliferation |
spellingShingle | Hu, X. T., Zuckerman, K. S., Cell Proliferation, Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells, Cell Biology, General Medicine |
title | Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells |
title_full | Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells |
title_fullStr | Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells |
title_full_unstemmed | Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells |
title_short | Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells |
title_sort | role of cell cycle regulatory molecules in retinoic acid‐ and vitamin d3‐induced differentiation of acute myeloid leukaemia cells |
title_unstemmed | Role of cell cycle regulatory molecules in retinoic acid‐ and vitamin D3‐induced differentiation of acute myeloid leukaemia cells |
topic | Cell Biology, General Medicine |
url | http://dx.doi.org/10.1111/cpr.12100 |