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Literature DB >> 26474675

Asymmetric Cell Division in T Lymphocyte Fate Diversification.

Janilyn Arsenio¹, Patrick J Metz¹, John T Chang².

Abstract

Immunological protection against microbial pathogens is dependent on robust generation of functionally diverse T lymphocyte subsets. Upon microbial infection, naïve CD4(+) or CD8(+) T lymphocytes can give rise to effector- and memory-fated progeny that together mediate a potent immune response. Recent advances in single-cell immunological and genomic profiling technologies have helped elucidate early and late diversification mechanisms that enable the generation of heterogeneity from single T lymphocytes. We discuss these findings here and argue that one such mechanism, asymmetric cell division, creates an early divergence in T lymphocyte fates by giving rise to daughter cells with a propensity towards the terminally differentiated effector or self-renewing memory lineages, with cell-intrinsic and -extrinsic cues from the microenvironment driving the final maturation steps.

Entities: Chemical Disease Gene Species

Keywords: T lymphocyte differentiation; T lymphocyte fate determination; adaptive immunity; asymmetric division; single-cell analyses

Mesh：

Year: 2015 PMID： 26474675 PMCID： PMC4640954 DOI： 10.1016/j.it.2015.09.004

Source DB: PubMed Journal: Trends Immunol ISSN： 1471-4906 Impact factor: 16.687

130 in total

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Review 4. Immunological memory and protective immunity: understanding their relation.

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5. Asymmetric (differential) cell division of thymic lymphocytes by means of cytoplasmic polarization: possible biological meanings.

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6. PKC-zeta mediates insulin effects on glucose transport in cultured preadipocyte-derived human adipocytes.

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7. Regulation of asymmetric division and CD8+ T lymphocyte fate specification by protein kinase Cζ and protein kinase Cλ/ι.

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8. Multiple splice variants of Par3 and of a novel related gene, Par3L, produce proteins with different binding properties.

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Review 9. Diversity in T cell memory: an embarrassment of riches.

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10. The cell fate determinant Llgl1 influences HSC fitness and prognosis in AML.

Authors: Florian H Heidel; Lars Bullinger; Patricia Arreba-Tutusaus; Zhu Wang; Julia Gaebel; Carsten Hirt; Dietger Niederwieser; Steven W Lane; Konstanze Döhner; Valera Vasioukhin; Thomas Fischer; Scott A Armstrong
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2. EGFR-Aurka Signaling Rescues Polarity and Regeneration Defects in Dystrophin-Deficient Muscle Stem Cells by Increasing Asymmetric Divisions.

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Review 3. Cycling through developmental decisions: how cell cycle dynamics control pluripotency, differentiation and reprogramming.

Authors: Abdenour Soufi; Stephen Dalton
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Asymmetric Cell Division in T Lymphocyte Fate Diversification.

1. ICOS receptor instructs T follicular helper cell versus effector cell differentiation via induction of the transcriptional repressor Bcl6.

2. Dynamic in situ cytometry uncovers T cell receptor signaling during immunological synapses and kinapses in vivo.

Review 3. Analysis of metabolites in single cells-what is the best micro-platform?

Review 4. Immunological memory and protective immunity: understanding their relation.

5. Asymmetric (differential) cell division of thymic lymphocytes by means of cytoplasmic polarization: possible biological meanings.

6. PKC-zeta mediates insulin effects on glucose transport in cultured preadipocyte-derived human adipocytes.

7. Regulation of asymmetric division and CD8+ T lymphocyte fate specification by protein kinase Cζ and protein kinase Cλ/ι.

8. Multiple splice variants of Par3 and of a novel related gene, Par3L, produce proteins with different binding properties.

Review 9. Diversity in T cell memory: an embarrassment of riches.

10. The cell fate determinant Llgl1 influences HSC fitness and prognosis in AML.

1. Evaluating optimal therapy robustness by virtual expansion of a sample population, with a case study in cancer immunotherapy.

2. EGFR-Aurka Signaling Rescues Polarity and Regeneration Defects in Dystrophin-Deficient Muscle Stem Cells by Increasing Asymmetric Divisions.

Review 3. Cycling through developmental decisions: how cell cycle dynamics control pluripotency, differentiation and reprogramming.

Review 4. Metabolism and the Control of Cell Fate Decisions and Stem Cell Renewal.

Review 5. Early programming and late-acting checkpoints governing the development of CD4 T-cell memory.

6. T Cell Reprogramming Against Cancer.

Review 7. Lymphocyte Fate and Metabolism: A Clonal Balancing Act.

Review 8. Chemokines: Critical Regulators of Memory T Cell Development, Maintenance, and Function.

Review 9. Polarity as a physiological modulator of cell function.

Review 10. Orchestrating Lymphocyte Polarity in Cognate Immune Cell-Cell Interactions.