Abstract
Gain of function (GOF) mutations in protein tyrosine phosphatase Ptpn11 have been identified in childhood leukemias, and these mutations are sufficient to drive the development of myeloproliferative disorder and malignant leukemias in mice. However, the molecular mechanisms by which Ptpn11 mutations induce these malignancies are not completely understood. Here we report that Ptpn11 GOF mutations cause cytokine hypersensitivity in hematopoietic cells partly by enhancing the production of reactive oxygen species (ROS). GOF mutations D61G or E76K in Ptpn11 increased ROS levels in myeloid progenitors but not in hematopoietic stem cells. Increased ROS enhanced cellular responses to cytokines by promoting cytokine signaling. Treatment with an antioxidant partially corrected cytokine hypersensitivity in Ptpn11 mutant progenitors. Further analyses demonstrated that Ptpn11 mutations increased mitochondrial aerobic metabolism by interacting with a novel substrate in the mitochondria. This study provides new insights into the pathogenic effects of GOF mutations of Ptpn11 and implies that antioxidants may have a therapeutic benefit for the leukemic patients with these mutations.
Highlights
Shp2, a ubiquitously expressed protein tyrosine phosphatase (PTP), is implicated in multiple cell signaling processes [1,2,3]
We examined reactive oxygen species (ROS) in myeloid cells at various stages and found that ROS levels in common myeloid progenitors (CMPs), granulocyte macrophage progenitors (GMPs), megakaryocyte erythroid progenitors (MEPs) were all elevated in Ptpn11D61G/+ mice (Figure 2B)
We present the evidence that ROS production in Ptpn11 Gain of function (GOF) mutant myeloid cells was increased and that the elevated levels of ROS contributed to Ptpn11 GOF mutationinduced excessive myeloid expansion by enhancing cytokine signaling
Summary
A ubiquitously expressed protein tyrosine phosphatase (PTP), is implicated in multiple cell signaling processes [1,2,3]. None of the putative substrates identified to date can fully account for the overall positive signaling effects of Shp on the many biological processes with which it has been implicated. It appears that Shp functions in growth factor and cytokine signaling in both catalytically-dependent and –independent manners [7,8,9]
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