Literature DB >> 28065574

A Blueprint for a Synthetic Genetic Feedback Controller to Reprogram Cell Fate.

Domitilla Del Vecchio1, Hussein Abdallah2, Yili Qian3, James J Collins4.   

Abstract

To artificially reprogram cell fate, experimentalists manipulate the gene regulatory networks (GRNs) that maintain a cell's phenotype. In practice, reprogramming is often performed by constant overexpression of specific transcription factors (TFs). This process can be unreliable and inefficient. Here, we address this problem by introducing a new approach to reprogramming based on mathematical analysis. We demonstrate that reprogramming GRNs using constant overexpression may not succeed in general. Instead, we propose an alternative reprogramming strategy: a synthetic genetic feedback controller that dynamically steers the concentration of a GRN's key TFs to any desired value. The controller works by adjusting TF expression based on the discrepancy between desired and actual TF concentrations. Theory predicts that this reprogramming strategy is guaranteed to succeed, and its performance is independent of the GRN's structure and parameters, provided that feedback gain is sufficiently high. As a case study, we apply the controller to a model of induced pluripotency in stem cells.
Copyright © 2017 The Authors. Published by Elsevier Inc. All rights reserved.

Entities:  

Keywords:  cell fate; feedback control; gene regulatory network; multistability; reprogramming; synthetic biology

Mesh:

Substances:

Year:  2017        PMID: 28065574      PMCID: PMC5326680          DOI: 10.1016/j.cels.2016.12.001

Source DB:  PubMed          Journal:  Cell Syst        ISSN: 2405-4712            Impact factor:   10.304


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Review 5.  Competition between target sites of regulators shapes post-transcriptional gene regulation.

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7.  Oct-4 transcription factor is differentially expressed in the mouse embryo during establishment of the first two extraembryonic cell lineages involved in implantation.

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Review 5.  Programming Morphogenesis through Systems and Synthetic Biology.

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6.  Stochastic multistationarity in a model of the hematopoietic stem cell differentiation network.

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7.  Real-Time Genetic Compensation Defines the Dynamic Demands of Feedback Control.

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9.  A mathematical model exhibiting the effect of DNA methylation on the stability boundary in cell-fate networks.

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Review 10.  CRISPR-Based Synthetic Transcription Factors In Vivo: The Future of Therapeutic Cellular Programming.

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Journal:  Cell Syst       Date:  2020-01-22       Impact factor: 10.304
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