Your search keyword '"Planque Nathalie"' showing total 8 results

1. A novel mechanism for BCR-ABL action: stimulated secretion of CCN3 is involved in growth and differentiation regulation

Author

McCallum, Lynn, Price, Susan, Planque, Nathalie, Perbal, Bernard, Pierce, Andrew, Whetton, Anthony D., and Irvine, Alexandra E.

Abstract

Chronic myeloid leukemia (CML) is characterized by the presence of the constitutively active BCR-ABL protein tyrosine kinase. Using a multipotent hemopoietic cell line, FDCP-Mix, expressing BCR-ABL tyrosine kinase, we investigated the initial effects of this kinase in primitive hematopoietic stem cells. We identified down-regulation of a novel gene, CCN3, as a direct consequence of BCR-ABL kinase activity. CCN3has been reported to function as a tumor suppressor gene in solid tumors. Northern and Western blotting plus immunocytochemical analysis confirmed CCN3expression is decreased and is tyrosine-phosphorylated in BCR-ABL kinase active FDCP-Mix cells. Decreased cellular CCN3 correlated with increased CCN3 secretion in BCR-ABL kinase active cells. In vitro treatment of human CML cell lines with imatinib or siRNA directed against BCR-ABLsignificantly reduced BCR-ABLwhile increasing CCN3expression. Cells from patients responding to imatinib showed a similar decrease in BCR-ABLand increase in CCN3.CML CD34+cells treated with imatinib in vitro demonstrated increased CCN3 protein. Transfecting CCN3into BCR-ABL+cells inhibited proliferation and decreased clonogenic potential. CCN3 plays an important role in internal and external cell-signaling pathways. Thus, BCR-ABL can regulate protein levels by governing secretion, a novel mechanism for this tyrosine kinase.

Published

2006

2. A novel mechanism for BCR-ABL action: stimulated secretion of CCN3 is involved in growth and differentiation regulation

Author

McCallum, Lynn, Price, Susan, Planque, Nathalie, Perbal, Bernard, Pierce, Andrew, Whetton, Anthony D., and Irvine, Alexandra E.

Abstract

Chronic myeloid leukemia (CML) is characterized by the presence of the constitutively active BCR-ABL protein tyrosine kinase. Using a multipotent hemopoietic cell line, FDCP-Mix, expressing BCR-ABL tyrosine kinase, we investigated the initial effects of this kinase in primitive hematopoietic stem cells. We identified down-regulation of a novel gene, CCN3, as a direct consequence of BCR-ABL kinase activity. CCN3 has been reported to function as a tumor suppressor gene in solid tumors. Northern and Western blotting plus immunocytochemical analysis confirmed CCN3 expression is decreased and is tyrosine-phosphorylated in BCR-ABL kinase active FDCP-Mix cells. Decreased cellular CCN3 correlated with increased CCN3 secretion in BCR-ABL kinase active cells. In vitro treatment of human CML cell lines with imatinib or siRNA directed against BCR-ABL significantly reduced BCR-ABL while increasing CCN3 expression. Cells from patients responding to imatinib showed a similar decrease in BCR-ABL and increase in CCN3. CML CD34+ cells treated with imatinib in vitro demonstrated increased CCN3 protein. Transfecting CCN3 into BCR-ABL+ cells inhibited proliferation and decreased clonogenic potential. CCN3 plays an important role in internal and external cell-signaling pathways. Thus, BCR-ABL can regulate protein levels by governing secretion, a novel mechanism for this tyrosine kinase.

Published

2006

3. CCN3 and calcium signaling

Author

Lombet, Alain, Planque, Nathalie, Bleau, Anne-Marie, Li, Chang, and Perbal, Bernard

Abstract

Abstract: The CCN family of genes consists presently of six members in human (CCNI-6) also known as Cyr6I (Cystein rich 6I), CTGF (Connective Tissue Growth Factor), NOV (Nephroblastoma Overexpressed gene), WISP-I, 2 and 3 (Wnt-I Induced Secreted Proteins). Results obtained over the past decade have indicated that CCN proteins are matricellular proteins, which are involved in the regulation of various cellular functions, such as proliferation, differentiation, survival, adhesion and migration. The CCN proteins have recently emerged as regulatory factors involved in both internal and external cell signaling. CCN3 was reported to physically interact with fibulin-IC, integrins, Notch and S100A4. Considering that, the conformation and biological activity of these proteins are dependent upon calcium binding, we hypothesized that CCN3 might be involved in signaling pathways mediated by calcium ions. In this article, we review the data showing that CCN3 regulates the levels of intracellular calcium and discuss potential models that may account for the biological effects of CCN3.

Published

2003

4. Nuclear trafficking of secreted factors and cell-surface receptors: New pathways to regulate cell proliferation and differentiation, and involvement in cancers

Author

Planque, Nathalie

Abstract

Abstract: Secreted factors and cell surface receptors can be internalized by endocytosis and translocated to the cytoplasm. Instead of being rcycled or proteolysed, they sometimes translocate to the nucleus. Nuclear import generally involves a nuclear localization signal contained either in the secreted factor or its transmembrane recept or, that is recognized by the importins machinery. In the nucleus, these molecules regulate transcription of specific target genes by direct binding to transcription factors or general coregulators. In addition to the transcription regulation, nuclear secreted proteins and receptors seem to be involved in other important processes for cell life and cellular integrity such as DNA replication, DNA repair and RNA metabolism. Nuclear secreted proteins and transmembrane receptors now appear to induce new signaling pathways to regulate cell proliferation and differentiation. Their nuclear localization is often transient, appearing only during certain phases of the cell cycle. Nuclear secreted and transmembrane molecules regulate the proliferation and differentiation of a large panel of cell types during embryogenesis and adulthood and are also potentially involved in wound healing. Secreted factors such as CCN proteins, EGF, FGFs and their receptors are often detected in the nucleus of cancer cells. Nuclear localization of these molecules has been correlated with tumor progression and poor prognosis for patient survival. Nuclear growth factors and receptors may be responsible for resistance to radiotherapy.

Published

2003

5. Interaction of Maf Transcription Factors with Pax-6 Results in Synergistic Activation of the Glucagon Promoter*

Author

Planque, Nathalie, Leconte, Laurence, Coquelle, Frédéric M., Benkhelifa, Sofia, Martin, Patrick, Felder-Schmittbuhl, Marie-Paule, and Saule, Simon

Abstract

In the endocrine pancreas, α-cell-specific expression of the glucagon gene is mediated by DNA-binding proteins that interact with the G1 proximal promoter element. Among these proteins, the paired domain transcription factor Pax-6 has been shown to bind to G1 and to transactivate glucagon gene expression. Close to the Pax-6-binding site, we observed the presence of a binding site for a basic leucine zipper transcription factor of the Maf family. In the present study, we demonstrate the presence of Maf family members in the endocrine pancreas that bind to G1 and transactivate glucagon promoter expression. In transient transfection experiments, we found that the transactivating effect on the glucagon promoter was greatly enhanced by the simultaneous expression of Maf transcription factors and Pax-6. This enhancement on glucagon transactivation could be correlated with the ability of these proteins to interact together but does not require binding of Maf proteins to the G1 element. Furthermore, we found that Maf enhanced the Pax-6 DNA binding capacity. Our data indicate that Maf transcription factors may contribute to glucagon gene expression in the pancreas.

Published

2001

6. The AP-3-dependent targeting of the melanosomal glycoprotein QNR-71 requires a di-leucine-based sorting signal

Author

Le Borgne, Roland, Planque, Nathalie, Martin, Patrick, Dewitte, Frédérique, Saule, Simon, and Hoflack, Bernard

Abstract

The Quail Neuroretina clone 71 gene (QNR-71) is expressed during the differentiation of retinal pigmented epithelia and the epidermis. It encodes a type I transmembrane glycoprotein that shares significant sequence homologies with several melanosomal proteins. We have studied its intracellular traffic in both pigmented and non-pigmented cells. We report that a di-leucine-based sorting signal (ExxPLL) present in the cytoplasmic domain of QNR-71 is necessary and sufficient for its proper targeting to the endosomal/premelanosomal compartments of both pigmented and non-pigmented cells. The intracellular transport of QNR-71 to these compartments is mediated by the AP-3 assembly proteins. As previously observed for the lysosomal glycoproteins LampI and LimpII, overexpression of QNR-71 increases the amount of AP-3 associated with membranes, and inhibition of AP-3 synthesis increases the routing of QNR-71 towards the cell surface. In addition, expression of QNR-71 induces a misrouting of endogenous LampI to the cell surface. Thus, the targeting of QNR-71 might be similar to that of the lysosomal integral membrane glycoproteins LampI and LimpII. This suggests that sorting to melanosomes and lysosomes requires similar sorting signals and transport machineries.

Published

2001

7. BCR-ABL Decreases the Expression of CCN3 Leading to Increased Clonogenic Potential and Cell Growth.

Author

McCallum, Lynn M.R., Lu, Wanhua, Price, Susan, Planque, Nathalie, Perbal, Bernard, Pierce, Andrew, Whetton, Anthony, and Irvine, Alexandra E.

Abstract

Chronic Myeloid Leukemia (CML) is characterized by expression of the constitutively active BCR-ABL tyrosine kinase. Previously, we have identified downregulation of the negative growth regulator, CCN3, as a result of BCR-ABL kinase activity and detected reduced CCN3 expression in human CML cell lines and primary human CML cells. We now report a reciprocal relationship of BCR-ABL and CCN3 expression and the functional consequence of expressing CCN3 in BCR-ABL+ cells. Real-time PCR was used to examine the relationship between BCR-ABL and CCN3 expression in human K562 cells. Parental K562 cells showed high expression of BCR-ABL (4.68 x104 transcripts in 5 μL of cDNA) whilst CCN3 expression was not detected. Treatment with siRNA directed against BCR-ABL (0.5 μg per106 cells) for 72 hours resulted in a 3.7 fold decrease in BCR-ABL and 6.1 fold increase in CCN3 expression (mean Ct change 1.9 ± 0.2 and 2.6 ± 0.5 for BCR-ABL and CCN3 respectively, n=3, p=0.001). Similarly, K562 cells treated with imatinib (1 micromolar) for 96 hours showed a 5.9 fold decrease in BCR-ABL expression and a 4.2 fold increase in CCN3 expression (mean Ct change 2.5 ± 0.1 and 2.1± 0.2 for BCR-ABL and CCN3 respectively, n=3, p=0.001). To investigate CCN3 function, we expressed CCN3 in BCR-ABL+ cells using Nucleofector technology (Amaxa, GmbH). K562 cells were transfected with either the pCb6+ vector (Invitrogen,UK) or pCb6+ vector containing the CCN3 construct. Cells were analysed 24 hours post-transfection by flow cytometry and also after 7 days in methyl cellulose culture to determine clonogenicity. Cell cycle analysis was performed on 20,000 events using the winMDI software. CCN3 expression in BCR-ABL+ cells resulted in an accumulation of cells in the subG0 phase of the cell cycle (mean for subG0 9.9% ± 4.6 and 21.8% ± 0.7 for the pCb6+ vector alone and pCb6+ vector containing CCN3 construct respectively). CCN3 expression significantly increased the number of cells within the subG0 area of the cell cycle (n=3, p=0.027). In addition, CCN3 expression reduced the clonogenic capacity of BCR-ABL+ cells. K562 cells transfected with the pCb6+ vector containing CCN3 construct formed significantly fewer colonies on methyl cellulose in comparison to cells that had been transfected with the pCb6+ vector alone (n=3, p=0.027). This study demonstrates a reciprocal relationship between CCN3 and BCR-ABL expression. CCN3 is known to be a negative growth regulator and increased expression of CCN3 in BCR-ABL+ cells inhibits proliferation and decreases clonogenic potential. Thus CCN3 down-regulation mediated by BCR-ABL offers growth advantage to hematopoietic cells.

Published

2005

8. BCR-ABL Decreases the Expression of CCN3 Leading to Increased Clonogenic Potential and Cell Growth.

Author

McCallum, Lynn M.R., Lu, Wanhua, Price, Susan, Planque, Nathalie, Perbal, Bernard, Pierce, Andrew, Whetton, Anthony, and Irvine, Alexandra E.

Abstract

Chronic Myeloid Leukemia (CML) is characterized by expression of the constitutively active BCR-ABL tyrosine kinase. Previously, we have identified downregulation of the negative growth regulator, CCN3, as a result of BCR-ABL kinase activity and detected reduced CCN3 expression in human CML cell lines and primary human CML cells. We now report a reciprocal relationship of BCR-ABL and CCN3 expression and the functional consequence of expressing CCN3 in BCR-ABL+ cells. Real-time PCR was used to examine the relationship between BCR-ABLand CCN3expression in human K562 cells. Parental K562 cells showed high expression of BCR-ABL(4.68 x104transcripts in 5 μL of cDNA) whilst CCN3expression was not detected. Treatment with siRNA directed against BCR-ABL(0.5 μg per106cells) for 72 hours resulted in a 3.7 fold decrease in BCR-ABLand 6.1 fold increase in CCN3expression (mean Ct change 1.9 ± 0.2 and 2.6 ± 0.5 for BCR-ABLand CCN3respectively, n=3, p=0.001). Similarly, K562 cells treated with imatinib (1 micromolar) for 96 hours showed a 5.9 fold decrease in BCR-ABLexpression and a 4.2 fold increase in CCN3expression (mean Ct change 2.5 ± 0.1 and 2.1± 0.2 for BCR-ABLand CCN3respectively, n=3, p=0.001). To investigate CCN3 function, we expressed CCN3 in BCR-ABL+ cells using Nucleofector technology (Amaxa, GmbH). K562 cells were transfected with either the pCb6+ vector (Invitrogen,UK) or pCb6+ vector containing the CCN3construct. Cells were analysed 24 hours post-transfection by flow cytometry and also after 7 days in methyl cellulose culture to determine clonogenicity. Cell cycle analysis was performed on 20,000 events using the winMDI software. CCN3 expression in BCR-ABL+ cells resulted in an accumulation of cells in the subG0phase of the cell cycle (mean for subG09.9% ± 4.6 and 21.8% ± 0.7 for the pCb6+ vector alone and pCb6+ vector containing CCN3construct respectively). CCN3 expression significantly increased the number of cells within the subG0area of the cell cycle (n=3, p=0.027). In addition, CCN3 expression reduced the clonogenic capacity of BCR-ABL+ cells. K562 cells transfected with the pCb6+ vector containing CCN3construct formed significantly fewer colonies on methyl cellulose in comparison to cells that had been transfected with the pCb6+ vector alone (n=3, p=0.027).

Published

2005