Single-cell RNA sequencing reveals molecular and functional platelet bias of aged haematopoietic stem cells

Amit Grover; Alejandra Sanjuán-Pla; Supat Thongjuea; Joana Carrelha; Alice Giustacchini; Adriana Rosa Gambardella; Iain C. Macaulay; Elena Mancini; Tiago C. Luís; Adam J. Mead; Sten Eirik W. Jacobsen; Claus Nerlov

doi:10.1038/ncomms11075

Single-cell RNA sequencing reveals molecular and functional platelet bias of aged haematopoietic stem cells

Amit Grover(John Radcliffe Hospital), Alejandra Sanjuán-Pla(John Radcliffe Hospital), Supat Thongjuea(John Radcliffe Hospital), Joana Carrelha(John Radcliffe Hospital), Alice Giustacchini(John Radcliffe Hospital), Adriana Rosa Gambardella(John Radcliffe Hospital), Iain C. Macaulay(John Radcliffe Hospital), Elena Mancini(European Molecular Biology Laboratory), Tiago C. Luís(John Radcliffe Hospital), Adam J. Mead(John Radcliffe Hospital), Sten Eirik W. Jacobsen(John Radcliffe Hospital), Claus Nerlov(John Radcliffe Hospital)

Nature Communications

March 24, 2016

10.1038/ncomms11075

Cited by 340Open Access

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Abstract

Aged haematopoietic stem cells (HSCs) generate more myeloid cells and fewer lymphoid cells compared with young HSCs, contributing to decreased adaptive immunity in aged individuals. However, it is not known how intrinsic changes to HSCs and shifts in the balance between biased HSC subsets each contribute to the altered lineage output. Here, by analysing HSC transcriptomes and HSC function at the single-cell level, we identify increased molecular platelet priming and functional platelet bias as the predominant age-dependent change to HSCs, including a significant increase in a previously unrecognized class of HSCs that exclusively produce platelets. Depletion of HSC platelet programming through loss of the FOG-1 transcription factor is accompanied by increased lymphoid output. Therefore, increased platelet bias may contribute to the age-associated decrease in lymphopoiesis.

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