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Merck

Transcription profiling in human platelets reveals LRRFIP1 as a novel protein regulating platelet function.

Blood (2010-09-14)
Alison H Goodall, Philippa Burns, Isabelle Salles, Iain C Macaulay, Chris I Jones, Diego Ardissino, Bernard de Bono, Sarah L Bray, Hans Deckmyn, Frank Dudbridge, Desmond J Fitzgerald, Stephen F Garner, Arief Gusnanto, Kerstin Koch, Cordelia Langford, Marie N O'Connor, Catherine M Rice, Derek Stemple, Jonathan Stephens, Mieke D Trip, Jaap-Jan Zwaginga, Nilesh J Samani, Nicholas A Watkins, Patricia B Maguire, Willem H Ouwehand
ABSTRACT

Within the healthy population, there is substantial, heritable, and interindividual variability in the platelet response. We explored whether a proportion of this variability could be accounted for by interindividual variation in gene expression. Through a correlative analysis of genome-wide platelet RNA expression data from 37 subjects representing the normal range of platelet responsiveness within a cohort of 500 subjects, we identified 63 genes in which transcript levels correlated with variation in the platelet response to adenosine diphosphate and/or the collagen-mimetic peptide, cross-linked collagen-related peptide. Many of these encode proteins with no reported function in platelets. An association study of 6 of the 63 genes in 4235 cases and 6379 controls showed a putative association with myocardial infarction for COMMD7 (COMM domain-containing protein 7) and a major deviation from the null hypo thesis for LRRFIP1 [leucine-rich repeat (in FLII) interacting protein 1]. Morpholino-based silencing in Danio rerio identified a modest role for commd7 and a significant effect for lrrfip1 as positive regulators of thrombus formation. Proteomic analysis of human platelet LRRFIP1-interacting proteins indicated that LRRFIP1 functions as a component of the platelet cytoskeleton, where it interacts with the actin-remodeling proteins Flightless-1 and Drebrin. Taken together, these data reveal novel proteins regulating the platelet response.