# The competitive nature of STAT complex formation drives phenotype   switching of T cells

**Authors:** Ildar I Sadreev, Michael Z Q Chen, Yoshinori Umezawa, Vadim N, Biktashev, Claudia Kemper, Diana V Salakhieva, Gavin I Welsh, Nikolay V Kotov

arXiv: 1701.05503 · 2017-01-20

## TL;DR

This study combines mathematical modeling and experimental data to uncover how STAT protein competition influences T cell phenotype switching, revealing a mechanism for immune response plasticity relevant to inflammatory diseases.

## Contribution

It introduces a novel model explaining T cell phenotype switching through STAT competition, advancing understanding of immune cell plasticity and potential therapeutic targets.

## Key findings

- Model accurately predicts IFN-γ to IL-10 switching
- T cell switching driven by redistribution of STAT dimers
- Applicable to various STAT signaling pathways

## Abstract

Signal transducers and activators of transcription (STATs) are key molecular determinants of T cell fate and effector function. A number of inflammatory diseases are characterized by an altered balance of T cell phenotypes and cytokine secretion. STATs, therefore, represent viable therapeutic targets in numerous pathologies. However, the underlying mechanisms of how the same STAT proteins regulate both the development of different T cell phenotypes and their plasticity during changes in extracellular conditions remain unclear. In this study, we investigated the STAT mediated regulation of T cell phenotype formation and plasticity using mathematical modeling and experimental data for intracellular STAT signaling proteins. The close fit of our model predictions to the experimental data for IFN-{\gamma} to IL-10 switching allows us to propose a potential mechanism for T cell switching that regulates human Th1/Tr1 responses. According to this mechanism, T cell phenotype switching is due to the relative redistribution of STAT dimer complexes caused by the extracellular cytokine-dependent STAT competition effects. The proposed model is applicable to a number of STAT signaling circuits.

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Source: https://tomesphere.com/paper/1701.05503