The complex transcriptional landscape of the anucleate human platelet.

Authors

Paul F. Bray, Thomas Jefferson UniversityFollow
Steven E. McKenzie, Thomas Jefferson UniversityFollow
Leonard Edelstein, Thomas Jefferson UniversityFollow
Srikanth Nagalla, Thomas Jefferson UniversityFollow
Kathleen Delgrosso, Thomas Jefferson UniversityFollow
Adam Ertel, Thomas Jefferson UniversityFollow
Joan Kupper, Thomas Jefferson University,Follow
Yi Jing, Thomas Jefferson University,Follow
Eric R. Londin, Thomas Jefferson UniversityFollow
Phillipe Loher, Thomas Jefferson UniversityFollow
Huang-Wen Chen, Thomas Jefferson University,
Paolo Fortina, Thomas Jefferson UniversityFollow
Isidore Rigoutsos, Thomas Jefferson UniversityFollow

Document Type

Article

Publication Date

1-2013

Comments

This article has been peer reviewed. It is the author’s final published version in BMC Genomics, Volume 14, Issue 1, January 2013, Pages 1-15.

The published version is available at DOI: 10.1186/1471-2164-14-1. Copyright © BioMed Central

Abstract

BACKGROUND: Human blood platelets are essential to maintaining normal hemostasis, and platelet dysfunction often causes bleeding or thrombosis. Estimates of genome-wide platelet RNA expression using microarrays have provided insights to the platelet transcriptome but were limited by the number of known transcripts. The goal of this effort was to deep-sequence RNA from leukocyte-depleted platelets to capture the complex profile of all expressed transcripts.

RESULTS: From each of four healthy individuals we generated long RNA (≥40 nucleotides) profiles from total and ribosomal-RNA depleted RNA preparations, as well as short RNA (<40 >nucleotides) profiles. Analysis of ~1 billion reads revealed that coding and non-coding platelet transcripts span a very wide dynamic range (≥16 PCR cycles beyond β-actin), a result we validated through qRT-PCR on many dozens of platelet messenger RNAs. Surprisingly, ribosomal-RNA depletion significantly and adversely affected estimates of the relative abundance of transcripts. Of the known protein-coding loci, ~9,500 are present in human platelets. We observed a strong correlation between mRNAs identified by RNA-seq and microarray for well-expressed mRNAs, but RNASeq identified many more transcripts of lower abundance and permitted discovery of novel transcripts.

CONCLUSIONS: Our analyses revealed diverse classes of non-coding RNAs, including: pervasive antisense transcripts to protein-coding loci; numerous, previously unreported and abundant microRNAs; retrotransposons; and thousands of novel un-annotated long and short intronic transcripts, an intriguing finding considering the anucleate nature of platelets. The data are available through a local mirror of the UCSC genome browser and can be accessed at: http://cm.jefferson.edu/platelets_2012/.

Recommended Citation

Bray, Paul F.; McKenzie, Steven E.; Edelstein, Leonard; Nagalla, Srikanth; Delgrosso, Kathleen; Ertel, Adam; Kupper, Joan; Jing, Yi; Londin, Eric R.; Loher, Phillipe; Chen, Huang-Wen; Fortina, Paolo; and Rigoutsos, Isidore, "The complex transcriptional landscape of the anucleate human platelet." (2013). Cardeza Foundation for Hematologic Research. Paper 25.
https://jdc.jefferson.edu/cardeza_foundation/25