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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
Personen und Körperschaften: Hu, X. T., Zuckerman, K. S.
In: Cell Proliferation, 47, 2014, 3, S. 200-210
Format: E-Article
Sprache: Englisch
veröffentlicht:
Wiley
Schlagwörter:
Cell Biology
General Medicine
author_facet Hu, X. T.
Zuckerman, K. S.
Hu, X. T.
Zuckerman, K. S.
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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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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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