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Balancing role of nitric oxide in complement-mediated activation of platelets from mCd59a and mCd59b double-knockout mice

Balancing role of nitric oxide in complement-mediated activation of platelets from mCd59a and mCd59b double-knockout mice
Balancing role of nitric oxide in complement-mediated activation of platelets from mCd59a and mCd59b double-knockout mice
CD59 is a membrane protein inhibitor of the membrane attack complex (MAC) of complement. mCd59 knockout mice reportedly exhibit hemolytic anemia and platelet activation. This phenotype is comparable to the human hemolytic anemia known as paroxysmal nocturnal hemoglobinuria (PNH), in which platelet activation and thrombosis play a critical pathogenic role. It has long been suspected but not formally demonstrated that both complement and nitric oxide (NO) contribute to PNH thrombosis. Using mCd59a and mCd59b double knockout mice (mCd59ab(-/-) mice) in complement sufficient (C3(+/+)) and deficient (C3(-/-)) backgrounds, we document that mCd59ab(-/-) platelets are sensitive to complement-mediated activation and provide evidence for possible in vivo platelet activation in mCd59ab(-/-) mice. Using a combination of L-NAME (a NO-synthase inhibitor) and NOC-18 or SNAP (NO-donors), we further demonstrate that NO regulates complement-mediated activation of platelets. These results indicate that the thrombotic diathesis of PNH patients could be due to a combination of increased complement-mediated platelet activation and reduced NO-bioavailability as a consequence of hemolysis.
0361-8609
221-227
Qin, Xuebin
45ebf60e-0805-4435-82ea-7ef4c7deab72
Hu, Weiguo
846d74db-5182-4f7f-bcf1-a8151ff9a519
Song, Wenping
2be3c6cd-ac9f-44ff-942a-75c2026de131
Blair, Price
9c1447de-18c5-465e-bdaa-badd415ced5e
Wu, Gongxiong
0e3e947c-80ee-4004-8763-824d4b7c5578
Hu, Xuemei
2bc63522-2216-417c-bb6f-50092ce68ad6
Song, Yanli
5106ab3d-2029-4646-8dc3-45e5aa798cc6
Bauer, Selena
2cfecfcf-a31c-4366-a86b-398b8b360495
Feelisch, Martin
8c1b9965-8614-4e85-b2c6-458a2e17eafd
Leopold, Jane A.
16e91f10-60a6-45db-ac42-e383797a9054
Loscalzo, Joseph
693bbc82-3c0e-4209-b7f6-5c8632fb4257
Halperin, Jose A.
28f275f5-91d1-469b-b71e-f7e73354ee3c
Qin, Xuebin
45ebf60e-0805-4435-82ea-7ef4c7deab72
Hu, Weiguo
846d74db-5182-4f7f-bcf1-a8151ff9a519
Song, Wenping
2be3c6cd-ac9f-44ff-942a-75c2026de131
Blair, Price
9c1447de-18c5-465e-bdaa-badd415ced5e
Wu, Gongxiong
0e3e947c-80ee-4004-8763-824d4b7c5578
Hu, Xuemei
2bc63522-2216-417c-bb6f-50092ce68ad6
Song, Yanli
5106ab3d-2029-4646-8dc3-45e5aa798cc6
Bauer, Selena
2cfecfcf-a31c-4366-a86b-398b8b360495
Feelisch, Martin
8c1b9965-8614-4e85-b2c6-458a2e17eafd
Leopold, Jane A.
16e91f10-60a6-45db-ac42-e383797a9054
Loscalzo, Joseph
693bbc82-3c0e-4209-b7f6-5c8632fb4257
Halperin, Jose A.
28f275f5-91d1-469b-b71e-f7e73354ee3c

Qin, Xuebin, Hu, Weiguo, Song, Wenping, Blair, Price, Wu, Gongxiong, Hu, Xuemei, Song, Yanli, Bauer, Selena, Feelisch, Martin, Leopold, Jane A., Loscalzo, Joseph and Halperin, Jose A. (2009) Balancing role of nitric oxide in complement-mediated activation of platelets from mCd59a and mCd59b double-knockout mice. American Journal of Hematology, 84 (4), 221-227. (doi:10.1002/ajh.21363). (PMID:19229985)

Record type: Article

Abstract

CD59 is a membrane protein inhibitor of the membrane attack complex (MAC) of complement. mCd59 knockout mice reportedly exhibit hemolytic anemia and platelet activation. This phenotype is comparable to the human hemolytic anemia known as paroxysmal nocturnal hemoglobinuria (PNH), in which platelet activation and thrombosis play a critical pathogenic role. It has long been suspected but not formally demonstrated that both complement and nitric oxide (NO) contribute to PNH thrombosis. Using mCd59a and mCd59b double knockout mice (mCd59ab(-/-) mice) in complement sufficient (C3(+/+)) and deficient (C3(-/-)) backgrounds, we document that mCd59ab(-/-) platelets are sensitive to complement-mediated activation and provide evidence for possible in vivo platelet activation in mCd59ab(-/-) mice. Using a combination of L-NAME (a NO-synthase inhibitor) and NOC-18 or SNAP (NO-donors), we further demonstrate that NO regulates complement-mediated activation of platelets. These results indicate that the thrombotic diathesis of PNH patients could be due to a combination of increased complement-mediated platelet activation and reduced NO-bioavailability as a consequence of hemolysis.

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Published date: April 2009
Organisations: Clinical & Experimental Sciences

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Local EPrints ID: 337703
URI: http://eprints.soton.ac.uk/id/eprint/337703
DOI: doi:10.1002/ajh.21363
ISSN: 0361-8609
PURE UUID: 3c6ad0f7-c598-487c-bd25-28d48422c4b8
ORCID for Martin Feelisch: ORCID iD orcid.org/0000-0003-2320-1158

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Date deposited: 02 May 2012 13:25
Last modified: 15 Mar 2024 03:41

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Contributors

Author: Xuebin Qin
Author: Weiguo Hu
Author: Wenping Song
Author: Price Blair
Author: Gongxiong Wu
Author: Xuemei Hu
Author: Yanli Song
Author: Selena Bauer
Author: Martin Feelisch ORCID iD
Author: Jane A. Leopold
Author: Joseph Loscalzo
Author: Jose A. Halperin

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