Role of p21Cip1/Waf1 in cell-cycle exit of endomitotic megakaryocytes

The cyclin-dependent kinase inhibitor p21Waf-1/Cip-1 is expressed at high level during megakaryocyte differentiation, but its precise function remains unknown. In this study, it is confirmed that p21 was expressed at a high level in hypoploid (2N and 4N) and polyploid (at least 8N) human megakaryocy...

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Veröffentlicht in:	Blood 2001-12, Vol.98 (12), p.3274-3282
Hauptverfasser:	Baccini, Véronique, Roy, Lydia, Vitrat, Natacha, Chagraoui, Hédia, Sabri, Siham, Couedic, Jean-Pierre Le, Debili, Najet, Wendling, Françoise, Vainchenker, William
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Schlagworte:	Biological and medical sciences Cell differentiation, maturation, development, hematopoiesis Cell physiology Fundamental and applied biological sciences. Psychology Life Sciences Molecular and cellular biology
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container_title	Blood
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creator	Baccini, Véronique Roy, Lydia Vitrat, Natacha Chagraoui, Hédia Sabri, Siham Couedic, Jean-Pierre Le Debili, Najet Wendling, Françoise Vainchenker, William
description	The cyclin-dependent kinase inhibitor p21Waf-1/Cip-1 is expressed at high level during megakaryocyte differentiation, but its precise function remains unknown. In this study, it is confirmed that p21 was expressed at a high level in hypoploid (2N and 4N) and polyploid (at least 8N) human megakaryocytes derived from CD34+ cells. A high expression of p27Kip1, p16, cyclin E, and cyclin D3 was also found in both populations associated with a hypophosphorylated form of retinoblastoma protein, suggesting that the majority of hypoploid and polyploid megakaryocytes are G1-arrested cells. As human megakaryocytes grown in vitro present a defect in their polyploidization, the study switched to the murine model. The modal ploidy of megakaryocytes derived from lineage-negative cells was 32N, and an elevated expression of p21 was found in high-ploidy megakaryocytes. In addition, p21 and p27 were coexpressed in the majority of mature polyploid megakaryocytes. The p21 was detected by immunofluorescence in megakaryocytes derived from p53−/− mice, demonstrating a p53-independent regulation during megakaryocyte differentiation. Megakaryocytopoiesis of p21−/− mice was subsequently studied. No marked abnormality in the ploidy of primary or cultured megakaryocytes was detected. Overexpression of p21 in p21−/− or normal murine megakaryocytes and in human megakaryocytes showed in all these cases a marked inhibition in megakaryocyte polyploidization. In conclusion, while a reciprocal relation is observed between p21 levels in megakaryocytes and the cycling state of the cells, p21 is not essential for the determination of the ploidy profile in normal megakaryocytes in vivo. However, high levels of its expression in cultured megakaryocytes arrest the endomitotic cell cycle.
doi_str_mv	10.1182/blood.V98.12.3274
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In this study, it is confirmed that p21 was expressed at a high level in hypoploid (2N and 4N) and polyploid (at least 8N) human megakaryocytes derived from CD34+ cells. A high expression of p27Kip1, p16, cyclin E, and cyclin D3 was also found in both populations associated with a hypophosphorylated form of retinoblastoma protein, suggesting that the majority of hypoploid and polyploid megakaryocytes are G1-arrested cells. As human megakaryocytes grown in vitro present a defect in their polyploidization, the study switched to the murine model. The modal ploidy of megakaryocytes derived from lineage-negative cells was 32N, and an elevated expression of p21 was found in high-ploidy megakaryocytes. In addition, p21 and p27 were coexpressed in the majority of mature polyploid megakaryocytes. The p21 was detected by immunofluorescence in megakaryocytes derived from p53−/− mice, demonstrating a p53-independent regulation during megakaryocyte differentiation. Megakaryocytopoiesis of p21−/− mice was subsequently studied. No marked abnormality in the ploidy of primary or cultured megakaryocytes was detected. Overexpression of p21 in p21−/− or normal murine megakaryocytes and in human megakaryocytes showed in all these cases a marked inhibition in megakaryocyte polyploidization. In conclusion, while a reciprocal relation is observed between p21 levels in megakaryocytes and the cycling state of the cells, p21 is not essential for the determination of the ploidy profile in normal megakaryocytes in vivo. 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In this study, it is confirmed that p21 was expressed at a high level in hypoploid (2N and 4N) and polyploid (at least 8N) human megakaryocytes derived from CD34+ cells. A high expression of p27Kip1, p16, cyclin E, and cyclin D3 was also found in both populations associated with a hypophosphorylated form of retinoblastoma protein, suggesting that the majority of hypoploid and polyploid megakaryocytes are G1-arrested cells. As human megakaryocytes grown in vitro present a defect in their polyploidization, the study switched to the murine model. The modal ploidy of megakaryocytes derived from lineage-negative cells was 32N, and an elevated expression of p21 was found in high-ploidy megakaryocytes. In addition, p21 and p27 were coexpressed in the majority of mature polyploid megakaryocytes. The p21 was detected by immunofluorescence in megakaryocytes derived from p53−/− mice, demonstrating a p53-independent regulation during megakaryocyte differentiation. Megakaryocytopoiesis of p21−/− mice was subsequently studied. No marked abnormality in the ploidy of primary or cultured megakaryocytes was detected. Overexpression of p21 in p21−/− or normal murine megakaryocytes and in human megakaryocytes showed in all these cases a marked inhibition in megakaryocyte polyploidization. In conclusion, while a reciprocal relation is observed between p21 levels in megakaryocytes and the cycling state of the cells, p21 is not essential for the determination of the ploidy profile in normal megakaryocytes in vivo. However, high levels of its expression in cultured megakaryocytes arrest the endomitotic cell cycle.</description><subject>Biological and medical sciences</subject><subject>Cell differentiation, maturation, development, hematopoiesis</subject><subject>Cell physiology</subject><subject>Fundamental and applied biological sciences. 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Psychology</topic><topic>Life Sciences</topic><topic>Molecular and cellular biology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Baccini, Véronique</creatorcontrib><creatorcontrib>Roy, Lydia</creatorcontrib><creatorcontrib>Vitrat, Natacha</creatorcontrib><creatorcontrib>Chagraoui, Hédia</creatorcontrib><creatorcontrib>Sabri, Siham</creatorcontrib><creatorcontrib>Couedic, Jean-Pierre Le</creatorcontrib><creatorcontrib>Debili, Najet</creatorcontrib><creatorcontrib>Wendling, Françoise</creatorcontrib><creatorcontrib>Vainchenker, William</creatorcontrib><collection>ScienceDirect Open Access Titles</collection><collection>Elsevier:ScienceDirect:Open Access</collection><collection>Pascal-Francis</collection><collection>CrossRef</collection><collection>Hyper Article en Ligne (HAL)</collection><jtitle>Blood</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Baccini, Véronique</au><au>Roy, Lydia</au><au>Vitrat, Natacha</au><au>Chagraoui, Hédia</au><au>Sabri, Siham</au><au>Couedic, Jean-Pierre Le</au><au>Debili, Najet</au><au>Wendling, Françoise</au><au>Vainchenker, William</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Role of p21Cip1/Waf1 in cell-cycle exit of endomitotic megakaryocytes</atitle><jtitle>Blood</jtitle><date>2001-12-01</date><risdate>2001</risdate><volume>98</volume><issue>12</issue><spage>3274</spage><epage>3282</epage><pages>3274-3282</pages><issn>0006-4971</issn><eissn>1528-0020</eissn><abstract>The cyclin-dependent kinase inhibitor p21Waf-1/Cip-1 is expressed at high level during megakaryocyte differentiation, but its precise function remains unknown. 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subjects	Biological and medical sciences Cell differentiation, maturation, development, hematopoiesis Cell physiology Fundamental and applied biological sciences. Psychology Life Sciences Molecular and cellular biology
title	Role of p21Cip1/Waf1 in cell-cycle exit of endomitotic megakaryocytes
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