[HTML][HTML] PTPN13 regulates cellular signalling and β-catenin function during megakaryocytic differentiation

JL Sardina, G López-Ruano, R Prieto-Bermejo… - … et Biophysica Acta (BBA …, 2014 - Elsevier
JL Sardina, G López-Ruano, R Prieto-Bermejo, B Sánchez-Sánchez, A Pérez-Fernández…
Biochimica et Biophysica Acta (BBA)-Molecular Cell Research, 2014Elsevier
PTPN13 is a high-molecular weight intracellular phosphatase with several isoforms that
exhibits a highly modular structure. Although in recent years different roles have been
described for PTPN13, we are still far from understanding its function in cell biology. Here
we show that PTPN13 expression is activated during megakaryocytic differentiation at the
protein and mRNA level. Our results show that the upregulation of PTPN13 inhibits
megakaryocytic differentiation, while PTPN13 silencing triggers differentiation. The ability of …
Abstract
PTPN13 is a high-molecular weight intracellular phosphatase with several isoforms that exhibits a highly modular structure. Although in recent years different roles have been described for PTPN13, we are still far from understanding its function in cell biology. Here we show that PTPN13 expression is activated during megakaryocytic differentiation at the protein and mRNA level. Our results show that the upregulation of PTPN13 inhibits megakaryocytic differentiation, while PTPN13 silencing triggers differentiation. The ability of PTPN13 to alter megakaryocytic differentiation can be explained by its capacity to regulate ERK and STAT signalling. Interestingly, the silencing of β-catenin produced the same effect as PTPN13 downregulation. We demonstrate that both proteins coimmunoprecipitate and colocalise. Moreover, we provide evidence showing that PTPN13 can regulate β-catenin phosphorylation, stability and transcriptional activity. Therefore, the ability of PTPN13 to control megakaryocytic differentiation must be intimately linked to the regulation of β-catenin function. Moreover, our results show for the first time that PTPN13 is stabilised upon Wnt signalling, which makes PTPN13 an important player in canonical Wnt signalling. Our results show that PTPN13 behaves as an important regulator of megakaryocytic differentiation in cell lines and also in murine haematopoietic progenitors. This importance can be explained by the ability of PTPN13 to regulate cellular signalling, and especially through the regulation of β-catenin stability and function. Our results hold true for different megakaryocytic cell lines and also for haematopoietic progenitors, suggesting that these two proteins may play a relevant role during in vivo megakaryopoiesis.
Elsevier