BACKGROUND: beta2-Glycoprotein I is the most relevant antigen in antiphospholipid syndrome. We have shown that binding of dimerized beta2-GPI to platelets via ApoER2' sensitizes platelets for second activating stimuli. OBJECTIVE: Determine the region of ApoER2 involved in the binding of dimeric beta2-GPI. METHODS: Cultured human megakaryocytes (MK) and three different human megakaryocytic cell lines were used for mRNA isolation to clone and express recombinant soluble platelet ApoER2. Domain deletion mutants of ApoER2 were constructed to identify the binding site for dimeric beta2-GPI. The presence of ApoER2 splice variants in platelets was demonstrated by immuno-blotting. RESULTS: Three different mRNA splice variants were isolated from all four types of megakaryocytic cells used. Sequence analysis identified the splice variants: (i) shApoER2Delta5 lacking low-density lipoprotein (LDL) binding domains 4, 5 and 6; (ii) shApoER2Delta4-5 lacking LDL binding domains 3, 4, 5, 6 and (iii) shApoER2Delta3-4-5 lacking LDL binding domains 3, 4, 5, 6 and 7. The presence of three splice variants of ApoER2 on platelets was confirmed by immuno-blotting, with ApoER2Delta4-5 being the most abundantly expressed splice variant. Upon stimulation with dimeric beta2-GPI, all three splice variants were translocated to the cytosol; however, ApoER2Delta4-5 translocation was most prominent. Dimeric beta2-GPI binds platelet ApoER2 variants via LDL-binding domain 1. CONCLUSIONS: Three different ApoER2 mRNA splice variants were isolated from MK and platelets express all three splice variants. All splice variants were shown to be functional by translocation upon stimulation with dimeric beta2-GPI. All three splice variants express LDL-binding domain 1.
BACKGROUND: beta2-Glycoprotein I is the most relevant antigen in antiphospholipid syndrome. We have shown that binding of dimerized beta2-GPI to platelets via ApoER2' sensitizes platelets for second activating stimuli. OBJECTIVE: Determine the region of ApoER2 involved in the binding of dimeric beta2-GPI. METHODS: Cultured human megakaryocytes (MK) and three different human megakaryocytic cell lines were used for mRNA isolation to clone and express recombinant soluble platelet ApoER2. Domain deletion mutants of ApoER2 were constructed to identify the binding site for dimeric beta2-GPI. The presence of ApoER2 splice variants in platelets was demonstrated by immuno-blotting. RESULTS: Three different mRNA splice variants were isolated from all four types of megakaryocytic cells used. Sequence analysis identified the splice variants: (i) shApoER2Delta5 lacking low-density lipoprotein (LDL) binding domains 4, 5 and 6; (ii) shApoER2Delta4-5 lacking LDL binding domains 3, 4, 5, 6 and (iii) shApoER2Delta3-4-5 lacking LDL binding domains 3, 4, 5, 6 and 7. The presence of three splice variants of ApoER2 on platelets was confirmed by immuno-blotting, with ApoER2Delta4-5 being the most abundantly expressed splice variant. Upon stimulation with dimeric beta2-GPI, all three splice variants were translocated to the cytosol; however, ApoER2Delta4-5 translocation was most prominent. Dimeric beta2-GPI binds platelet ApoER2 variants via LDL-binding domain 1. CONCLUSIONS: Three different ApoER2 mRNA splice variants were isolated from MK and platelets express all three splice variants. All splice variants were shown to be functional by translocation upon stimulation with dimeric beta2-GPI. All three splice variants express LDL-binding domain 1.
Authors: Sangeetha Ramesh; Craig N Morrell; Cristina Tarango; Gail D Thomas; Ivan S Yuhanna; Guillermina Girardi; Joachim Herz; Rolf T Urbanus; Philip G de Groot; Philip E Thorpe; Jane E Salmon; Philip W Shaul; Chieko Mineo Journal: J Clin Invest Date: 2010-12-01 Impact factor: 14.808
Authors: Tara C White-Adams; Michelle A Berny; Erik I Tucker; Jacqueline M Gertz; David Gailani; Rolf T Urbanus; Philip G de Groot; András Gruber; Owen J T McCarty Journal: Arterioscler Thromb Vasc Biol Date: 2009-08-06 Impact factor: 8.311
Authors: Zurina Romay-Penabad; Renan Aguilar-Valenzuela; Rolf T Urbanus; Ronald H W M Derksen; Maarten T T Pennings; Elizabeth Papalardo; Tuya Shilagard; Gracie Vargas; Yong Hwang; Philip G de Groot; Silvia S Pierangeli Journal: Blood Date: 2010-11-30 Impact factor: 22.113