Post-transcriptional regulatory feedback encodes JAK-STAT signal memory of interferon stimulation

Kalliara, Eirini; Kardyńska, Małgorzata; Bagnall, James; Spiller, David G.; Müller, Werner; Rückerl, Dominik; Śmieja, Jarosław; Biswas, Subhra K.; Paszek, Pawel

doi:10.3389/fimmu.2022.947213

“…One of the examples of such work can be found in [116] , where the authors suggested that in order to explain experimental results activation of some phosphatase, not yet identified, is needed. That was confirmed much later [14] , and that finding, in turn, allowed to develop a new model explaining JAK-STAT network's ability to decode relative changes of dose, timing, and type of temporal interferon stimulation [59] .…”

Section: Success Storiesmentioning

confidence: 68%

Mathematical modeling of regulatory networks of intracellular processes – Aims and selected methods

Kardyńska

¹

,

Kogut

²

,

Pacholczyk

³

et al. 2023

Computational and Structural Biotechnology Journal

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“…These included the highly variable and abundant genes including chemokine family Ccl5, Ccl4, Ccl3, Ccl2 as well as IL1b and TNFa. While the scRNA-seq can be in principle treated as time-series data (e.g., across the replicates from individual mice) [34], our current understanding of TLR signalling suggest that due to endotoxin resistance and desensitisation [56][57][58], the regulatory network, and thus model structures and parameters, are time-varying rather than stationary [59]. We therefore treated each data time-point (and replicate) separately, which also allowed more efficient implementation to fit 1,507 mouse, and 1,079 orthologue conditions.…”

Section: Discussionmentioning

confidence: 99%

Variability of the innate immune response is globally constrained by transcriptional bursting

Alachkar

¹

,

Norton

²

,

Wolkensdorfer

³

et al. 2023

Preprint

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Transcription of almost all mammalian genes occurs in stochastic bursts, however the fundamental control mechanisms that allow appropriate single-cell responses remain unresolved. Here we utilise single cell genomics data and stochastic models of transcription to perform global analysis of the toll-like receptor (TLR)-induced gene expression variability. Based on analysis of more than 2000 TLR-response genes across multiple experimental conditions we demonstrate that the single-cell, gene-by-gene expression variability can be empirically described by a linear function of the population mean. We show that response heterogeneity of individual genes can be characterised by the slope of the mean-variance line, which captures how cells respond to stimulus and provides insight into evolutionary differences between species. We further demonstrate that linear relationships theoretically determine the underlying transcriptional bursting kinetics, revealing different regulatory modes of TLR response heterogeneity. Stochastic modelling of temporal scRNA-seq count distributions demonstrates that increased response variability is associated with larger and more frequent transcriptional bursts, which emerge via increased complexity of transcriptional regulatory networks between genes and different species. Overall, we provide a methodology relying on inference of empirical mean-variance relationships from single cell data and new insights into control of innate immune response variability.

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“…Based on the Beta-Poisson fits, we selected 96 high coverage murine response genes (and 28 orthologue genes for species analyses), which have existing estimates of mRNA half-life in LPS-stimulated bone marrow derived macrophages ( Hao and Baltimore, 2009 ; Kratochvill et al, 2011 ) or other cell models. Our current understanding of TLR signalling suggest that due to endotoxin resistance and desensitisation ( Buckley et al, 2006 ; Morris et al, 2014 ; Kalliara et al, 2022 ), the regulatory network, and thus model structures and parameters, are time-varying ( Wang et al, 2018 ). For example, previous work show that stability of TLR target genes are regulated in response to stimulation, and also may vary between treatments ( Hao and Baltimore, 2009 ).…”

Section: Discussionmentioning

confidence: 99%

Variability of the innate immune response is globally constrained by transcriptional bursting

Alachkar

¹

,

Norton

²

,

Wolkensdorfer

³

et al. 2023

Front. Mol. Biosci.

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1

0

View full text Add to dashboard Cite

Transcription of almost all mammalian genes occurs in stochastic bursts, however the fundamental control mechanisms that allow appropriate single-cell responses remain unresolved. Here we utilise single cell genomics data and stochastic models of transcription to perform global analysis of the toll-like receptor (TLR)-induced gene expression variability. Based on analysis of more than 2000 TLR-response genes across multiple experimental conditions we demonstrate that the single-cell, gene-by-gene expression variability can be empirically described by a linear function of the population mean. We show that response heterogeneity of individual genes can be characterised by the slope of the mean-variance line, which captures how cells respond to stimulus and provides insight into evolutionary differences between species. We further demonstrate that linear relationships theoretically determine the underlying transcriptional bursting kinetics, revealing different regulatory modes of TLR response heterogeneity. Stochastic modelling of temporal scRNA-seq count distributions demonstrates that increased response variability is associated with larger and more frequent transcriptional bursts, which emerge via increased complexity of transcriptional regulatory networks between genes and different species. Overall, we provide a methodology relying on inference of empirical mean-variance relationships from single cell data and new insights into control of innate immune response variability.

show abstract

Post-transcriptional regulatory feedback encodes JAK-STAT signal memory of interferon stimulation

Cited by 7 publications

References 73 publications

Mathematical modeling of regulatory networks of intracellular processes – Aims and selected methods

Mathematical modeling of regulatory networks of intracellular processes – Aims and selected methods

Variability of the innate immune response is globally constrained by transcriptional bursting

Variability of the innate immune response is globally constrained by transcriptional bursting

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