Single-cell RNA-seq and Computational Analysis Using Temporal Mixture Modelling Resolves Th1/Tfh Fate Bifurcation in Malaria

Overview

Journal Sci Immunol

Specialty Allergy & Immunology

Date 2017 Mar 28

PMID 28345074

Citations 143

Authors

Tapio Lonnberg

Valentine Svensson

Kylie R James

Daniel Fernandez-Ruiz

Ismail Sebina

Ruddy Montandon

Megan S F Soon

Lily G Fogg

Arya Sheela Nair

Urijah Liligeto

Michael J T Stubbington

Lam-Ha Ly

Frederik Otzen Bagger

Max Zwiessele

Neil D Lawrence

Fernando Souza-Fonseca-Guimaraes

Patrick T Bunn

Christian R Engwerda

William R Heath

Oliver Billker

Oliver Stegle

Ashraful Haque

Sarah A Teichmann

Affiliations

Soon will be listed here.

Abstract

Differentiation of naïve CD4 T cells into functionally distinct T helper subsets is crucial for the orchestration of immune responses. Due to extensive heterogeneity and multiple overlapping transcriptional programs in differentiating T cell populations, this process has remained a challenge for systematic dissection . By using single-cell transcriptomics and computational analysis using a temporal mixtures of Gaussian processes model, termed GPfates, we reconstructed the developmental trajectories of Th1 and Tfh cells during blood-stage infection in mice. By tracking clonality using endogenous TCR sequences, we first demonstrated that Th1/Tfh bifurcation had occurred at both population and single-clone levels. Next, we identified genes whose expression was associated with Th1 or Tfh fates, and demonstrated a T-cell intrinsic role for Galectin-1 in supporting a Th1 differentiation. We also revealed the close molecular relationship between Th1 and IL-10-producing Tr1 cells in this infection. Th1 and Tfh fates emerged from a highly proliferative precursor that upregulated aerobic glycolysis and accelerated cell cycling as cytokine expression began. Dynamic gene expression of chemokine receptors around bifurcation predicted roles for cell-cell in driving Th1/Tfh fates. In particular, we found that precursor Th cells were coached towards a Th1 but not a Tfh fate by inflammatory monocytes. Thus, by integrating genomic and computational approaches, our study has provided two unique resources, a database www.PlasmoTH.org, which facilitates discovery of novel factors controlling Th1/Tfh fate commitment, and more generally, GPfates, a modelling framework for characterizing cell differentiation towards multiple fates.

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