Megakaryocyte-specific deletion of the protein-tyrosine phosphatases Shp1 and Shp2 causes abnormal megakaryocyte development, platelet production, and function

Mazharian, Alexandra; Mori, Jun; Wang, Yingjie; Heising, Silke; Neel, Benjamin G.; Watson, Steve P.; Senis, Yotis A.

doi:10.1182/blood-2012-08-449272

Cited by 85 publications

(99 citation statements)

References 48 publications

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“…Mutations in PTPN11 occur in 50% of patients, SOS1 in 13%, RAF in 3-17%, and KRAS in less than 5% [7]. PTPN11 encodes SH2 domain, which contains protein-tyrosine phosphatases Shp1 and Shp2; Shp1 is expressed in hematopoietic and epithelial cells, while Shp2 is expressed widely and they are both key regulators in megakaryocyte development, platelet formation, and function (including interaction with collagen and fibrinogen); these two phosphatases seem to have opposite roles in platelet function (Shp1 reduces platelet response to collagen and fibrinogen by positively regulating immune receptor tyrosine-based activation motif-containing receptors and integrin signaling, whilst Shp2 behaves in the opposite way) [8].…”

Section: Resultsmentioning

confidence: 99%

Prolonged thrombocytopenia in a child with severe neonatal alloimmune reaction and Noonan syndrome

et al. 2015

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Fetomaternal alloimmune thrombocytopenia (FMAIT) caused by maternal antibodies is the leading cause of severe neonatal thrombocytopenia. A 1-month-old Caucasian girl was referred to our Hematology Clinic for persistent thrombocytopenia diagnosed after a bleeding episode. Diagnostic tests suggested FMAIT. Mild thrombocytopenia persisted for 18 months, and subsequent findings of dysmorphic facies, short stature and mild pulmonary stenosis led to the hypothesis of Noonan syndrome (NS), which was confirmed by genetic test. Other hematological abnormalities were excluded and she had no further bleeding episodes. This case illustrates the possibility of different diagnoses with the same clinical manifestations. The persistence of thrombocytopenia longer than expected associated with typical physical features led to the diagnosis of NS.

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Section: Resultsmentioning

confidence: 99%

Prolonged thrombocytopenia in a child with severe neonatal alloimmune reaction and Noonan syndrome

et al. 2015

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“…Alexandra et al recently showed that deletion of Shp1 in mice resulted in platelets being less responsive to CRP by reducing both GPVI expression and signaling via the Src-Syk-PLCg2 pathway. 37 On the contrary, deletion of Shp2 resulted in platelets being hyper-responsive to agonists. 37 Although the phosphorylation of Shp1 Y564 and Shp2 Y580 was suppressed in PIRB-TM platelets in response to CRP, the distinct roles of Shp1 and Shp2 in platelet activation suggest that PIRB negatively regulates platelet activation, probably by enhancing the phosphatase activities of Shp2 instead of Shp1.…”

Section: Discussionmentioning

confidence: 99%

“…37 On the contrary, deletion of Shp2 resulted in platelets being hyper-responsive to agonists. 37 Although the phosphorylation of Shp1 Y564 and Shp2 Y580 was suppressed in PIRB-TM platelets in response to CRP, the distinct roles of Shp1 and Shp2 in platelet activation suggest that PIRB negatively regulates platelet activation, probably by enhancing the phosphatase activities of Shp2 instead of Shp1. However, further investigation will be needed to clarify this.…”

Section: Discussionmentioning

confidence: 99%

Paired immunoglobulin-like receptor B regulates platelet activation

Fan¹,

Shi²,

Dai³

et al. 2014

Blood

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Key Points• Paired immunoglobulin-like receptor B negatively regulates platelet activation.Murine paired immunoglobulin-like receptors B (PIRB), as the ortholog of human leukocyte immunoglobulin-like receptor B2 (LILRB2), is involved in a variety of biological functions. Here, we found that PIRB and LILRB2 were expressed in mouse and human platelets, respectively. PIRB intracellular domain deletion (PIRB-TM) mice had thrombocythemia and significantly higher proportions of megakaryocytes in bone marrow. Agonist-induced aggregation and spreading on immobilized fibrinogen were facilitated in PIRB-TM platelets. The rate of clot retraction in platelet-rich plasma containing PIRB-TM platelets was also increased. Characterization of signaling confirmed that PIRB associated with phosphatases Shp1/2 in platelets. The phosphorylation of Shp1/2 was significantly downregulated in PIRB-TM platelets stimulated with collagen-related peptide (CRP) or on spreading. The results further revealed that the phosphorylation levels of the linker for activation of T cells, SH2 domain-containing leukocyte protein of 76kDa, and phospholipase C were enhanced in PIRB-TM platelets stimulated with CRP. The phosphorylation levels of FAK Y397 and integrin b3 Y759 were also enhanced in PIRB-TM platelet spread on fibrinogen. The PIRB/LILRB2 ligand angiopoietin-like-protein 2 (ANGPTL2) was expressed and stored in platelet a-granules. ANGPTL2 inhibited agonist-induced platelet aggregation and spreading on fibrinogen. The data presented here reveal that PIRB and its ligand ANGPTL2 possess an antithrombotic function by suppressing collagen receptor glycoprotein VI and integrin aIIbb3-mediated signaling. (Blood. 2014;124(15):2421-2430 Introduction Platelets, which are derived from megakaryocytes, circulate in mammalian blood and play essential roles in hemostasis, angiogenesis, inflammation, and metastasis, 1-3 contain a variety of receptors on their surface. The immunoglobulin superfamily (IgSF) is a large group of cell surface proteins that are involved in the adhesion, binding, or recognition of cells. 4 Several IgSF members expressed on the platelet surface regulate platelet adhesion, activation, and aggregation. Among those receptors, platelet collagen receptor glycoprotein VI (GPVI) has short cytoplasmic domains lacking signaling motifs, but it transmits activating signals by linking to immunoreceptor tyrosine-based activation motif (ITAM) of the Fc receptor g chain (FcRg chain). 5 The GPVI/FcRg chain complex can propagate potent signaling causing aIIbb3 activation and platelet aggregation and thereby play an important role in hemostasis and thrombosis formation. 6 In contrast to GPVI, platelet endothelial cell adhesion molecule-1, a platelet surface IgSF member with 6 extracellular Ig domains and a cytoplasmic immunoreceptor tyrosinebased inhibitory motif (ITIM), mildly inhibits human or mouse platelet activation by collagen, adenosine 59-diphosphate (ADP), or thrombin. 7 Similarly, antibody-mediated cross-linking of G6B, a platelet surface IgS...

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“…Absence of spinophilin also results in reduced cAMP synthesis in response to PGI 2 , highlighting multiple functions of this scaffold protein in platelets. Studies on SHP‐1‐deficient mice have identified a main role of SHP‐1 in regulating GPVI and integrin αIIbß3 signaling but did not reveal any defect in GPCR signaling 39. Because SHP‐1 is ablated during megakaryocyte differentiation in these mice, it is possible that the role of SHP‐1 in regulating GPCR signaling is not apparent because of compensatory mechanisms and/or redundancy with the closely related SHP‐2 phosphatase.…”

Section: Interactions At Receptor Levelmentioning

confidence: 97%

“…Because SHP‐1 is ablated during megakaryocyte differentiation in these mice, it is possible that the role of SHP‐1 in regulating GPCR signaling is not apparent because of compensatory mechanisms and/or redundancy with the closely related SHP‐2 phosphatase. Indeed, platelets deficient in both SHP‐1 and SHP‐2, display marked defects in PAR4 receptor signaling, suggesting a level of redundancy 39. Whether a spinophilin/RGS18 complex exists in SHP‐1 deficient platelets remains to be determined.…”

Section: Interactions At Receptor Levelmentioning

confidence: 99%

Cyclic nucleotide‐dependent inhibitory signaling interweaves with activating pathways to determine platelet responses

Nagy

Smolenski

2018

Research and Practice in Thrombosis and Haemostasis

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Platelets are regulated by extracellular cues that impact on intracellular signaling. The endothelium releases prostacyclin and nitric oxide which stimulate the synthesis of cyclic nucleotides cAMP and cGMP leading to platelet inhibition. Other inhibitory mechanisms involve immunoreceptor tyrosine‐based inhibition motif‐containing receptors, intracellular receptors and receptor desensitization. Inhibitory cyclic nucleotide pathways are traditionally thought to represent a passive background system keeping platelets in a quiescent state. In contrast, cyclic nucleotides are increasingly seen to be dynamically involved in most aspects of platelet regulation. This review focuses on crosstalk between activating and cyclic nucleotide‐mediated inhibitory pathways highlighting emerging new hub structures and signaling mechanisms. In particular, interactions of plasma membrane receptors like P2Y12 and GPIb/IX/V with the cyclic nucleotide system are described. Furthermore, differential regulation of the RGS18 complex, second messengers, protein kinases, and phosphatases are presented, and control over small G‐proteins by guanine‐nucleotide exchange factors and GTPase‐activating proteins are outlined. Possible clinical implications of signaling crosstalk are discussed.

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Megakaryocyte-specific deletion of the protein-tyrosine phosphatases Shp1 and Shp2 causes abnormal megakaryocyte development, platelet production, and function

Cited by 85 publications

References 48 publications

Prolonged thrombocytopenia in a child with severe neonatal alloimmune reaction and Noonan syndrome

Prolonged thrombocytopenia in a child with severe neonatal alloimmune reaction and Noonan syndrome

Paired immunoglobulin-like receptor B regulates platelet activation

Cyclic nucleotide‐dependent inhibitory signaling interweaves with activating pathways to determine platelet responses

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