Distinct Translational Control in CD4+ T Cell Subsets

Bjur, Eva; Larsson, Ola; Yurchenko, Ekaterina A.; Zheng, Leilei; Gandin, Valentina; Topisirović, Ivan; Li, Shuijun; Wagner, Carston R.; Sonenberg, Nahum; Piccirillo, Ciriaco A.

doi:10.1371/journal.pgen.1003494

Cited by 65 publications

(61 citation statements)

References 46 publications

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“…Consistent with the translational silencing of eIF4E in T REG cells, mTOR gene deficiency or inhibition can abrogate the proliferation and differentiation of Th1, Th2, or Th17 cells, while promoting Foxp3 expression and adopting a T REG phenotype [122]. In line with this, inhibition of eIF4E activity in CD4+ T cells abrogated their proliferation in response to TCR stimulation in the presence of IL-2 [120]. Surprisingly, inhibition of eIF4E activity in activated T EFF cells also resulted in the induction of Foxp3 expression in a subset of cells, suggesting that modulation of eIF4E expression may impact CD4+ T cell lineage identity, with translational silencing of eIF4E being required for T REG stability.…”

Section: The Emerging Role Of Differential Mrna Translation In Modulasupporting

confidence: 58%

“…Additionally, the rate of GATA3 translation is increased following the activation of the CD28 co-stimulatory pathway in CD4+ T cells without direct increase in GATA3 mRNA abundance, while IL-4 signaling can facilitate IL-4 translation in a similar manner [97,119]. Recently, a genome-wide study examined the role of mRNA translational regulation in CD4+ T cell subsets [120]. The isolation of polyribosome-bound transcripts, enriched with highly translated mRNA transcripts and comparison with total cytosolic mRNA, identified distinct translational signatures differentiating T REG and T EFF cells.…”

Section: The Emerging Role Of Differential Mrna Translation In Modulamentioning

confidence: 99%

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Post-Transcriptional and Translational Mechanisms of Regulation of Gene Expression in T Cell Subsets

Istomine¹,

Piccirillo²

2018

Gene Expression and Regulation in Mammalian Cells - Transcription From General Aspects

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The immune system is under strict regulatory control to ensure homeostasis of inflammatory responses, lying dormant when not needed but quick to act when called upon. Small changes in gene expression can lead to drastic changes in lineage commitment, cellular function, and immunity. Conventional assessment of these changes centered on the analysis of mRNA levels through a variety of methodologies, including microarrays. However, mRNA synthesis does not always correlate directly to protein synthesis and downstream functional activity. Work conducted in recent years has begun to shed light on the various post-transcriptional changes that occur in response to a dynamic external environment in which a given immune cell type encounters. In this chapter, we provide a critical review of key post-transcriptional and translational mechanisms of regulation of gene expression in the immune system, with an emphasis of these regulatory processes in various CD4+ T cell subsets and their related effector functions.

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Section: The Emerging Role Of Differential Mrna Translation In Modulasupporting

confidence: 58%

Section: The Emerging Role Of Differential Mrna Translation In Modulamentioning

confidence: 99%

Post-Transcriptional and Translational Mechanisms of Regulation of Gene Expression in T Cell Subsets

Istomine¹,

Piccirillo²

2018

Gene Expression and Regulation in Mammalian Cells - Transcription From General Aspects

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“…This observation is consistent with previous studies demonstrating increased eIF4E protein expression on lymphocyte activation. 36 Together, these data demonstrate that eIF4A capbinding activity and p70s6K signaling is rapidly enhanced on BCR activation.…”

Section: Bcr Activation Enhances Protein Translation In Human Splenicmentioning

confidence: 70%

Inhibiting CARD11 translation during BCR activation by targeting the eIF4A RNA helicase

Steinhardt¹,

Peroutka²,

Mazan-Mamczarz³

et al. 2014

Blood

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Key Points• BCR activation enhances eIF4A m7GTP cap-binding.• The 59UTR of CARD11 suppresses protein translation.Human diffuse large B-cell lymphomas (DLBCLs) often aberrantly express oncogenes that generally contain complex secondary structures in their 59 untranslated region (UTR). Oncogenes with complex 59UTRs require enhanced eIF4A RNA helicase activity for translation. PDCD4 inhibits eIF4A, and PDCD4 knockout mice have a high penetrance for B-cell lymphomas. Here, we show that on B-cell receptor (BCR)-mediated p70s6K activation, PDCD4 is degraded, and eIF4A activity is greatly enhanced. We identified a subset of genes involved in BCR signaling, including CARD11, BCL10, and MALT1, that have complex 59UTRs and encode proteins with short half-lives. Expression of these known oncogenic proteins is enhanced on BCR activation and is attenuated by the eIF4A inhibitor Silvestrol. Antigen-experienced immunoglobulin (Ig)G 1 splenic B cells, from which most DLBCLs are derived, have higher levels of eIF4A cap-binding activity and protein translation than IgM 1 B cells. Our results suggest that eIF4A-mediated enhancement of oncogene translation may be a critical component for lymphoma progression, and specific targeting of eIF4A may be an attractive therapeutic approach in the management of human B-cell lymphomas. (Blood. 2014;124(25):3758-3767)

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“…Recently, studies of "translatomes" (ie, the pool of translated messenger RNAs [mRNAs]) using polysome or ribosome profiling have highlighted mRNA translation as a key mechanism controlling gene expression and influencing a wide range of functions in immune cells. [11][12][13] Changes in translational efficiency affect protein levels without changes in steady-state mRNA levels, thereby enabling rapid adaptation to environmental changes essential for a functional immune system. 13 Thus, profiling mRNA translation may be essential to efficiently link observed immune cell phenotypes to underlying gene expression programs.…”

Section: Introductionmentioning

confidence: 99%

IL-15 activates mTOR and primes stress-activated gene expression leading to prolonged antitumor capacity of NK cells

Mao

Hoef

Zhang

et al. 2016

Blood

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145

114

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Distinct Translational Control in CD4+ T Cell Subsets

Cited by 65 publications

References 46 publications

Post-Transcriptional and Translational Mechanisms of Regulation of Gene Expression in T Cell Subsets

Post-Transcriptional and Translational Mechanisms of Regulation of Gene Expression in T Cell Subsets

Inhibiting CARD11 translation during BCR activation by targeting the eIF4A RNA helicase

IL-15 activates mTOR and primes stress-activated gene expression leading to prolonged antitumor capacity of NK cells

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