Yen-Hua Chen scite author profile

SUMMARY Metazoan sibling cells often diverge in activity and identity, suggesting links between growth signals and cell fate. We show that unequal transduction of nutrient-sensitive PI3K/AKT/mTOR signaling during cell division bifurcates transcriptional networks and fates of kindred cells. A sibling B lymphocyte with stronger signaling, indexed by FoxO1 inactivation and IRF4 induction, undergoes PI3K-driven Pax5 repression and plasma cell determination, while its sibling with weaker PI3K activity renews a memory or germinal center B cell fate. PI3K-driven effector T cell determination silences TCF1 in one sibling cell, while its PI3K-attenuated sibling self-renews in tandem. Prior to bifurcations achieving irreversible plasma or effector cell fate determination, asymmetric signaling during initial divisions specifies a more proliferative, differentiation-prone lymphocyte in tandem with a more quiescent memory cell sibling. By triggering cell division but transmitting unequal intensity between sibling cells, nutrient-sensitive signaling may be a frequent arbiter of cell fate bifurcations during development and repair.

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Capsular Types of Klebsiella pneumoniae Revisited by wzc Sequencing

Pan

et al. 2013

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Capsule is an important virulence factor in bacteria. A total of 78 capsular types have been identified in Klebsiella pneumoniae. However, there are limitations in current typing methods. We report here the development of a new genotyping method based on amplification of the variable regions of the wzc gene. Fragments corresponding to the variable region of wzc were amplified and sequenced from 76 documented capsular types of reference or clinical strains. The remaining two capsular types (reference strains K15 and K50) lacked amplifiable wzc genes and were proven to be acapsular. Strains with the same capsular type exhibited ≧94% DNA sequence identity across the variable region (CD1-VR2-CD2) of wzc. Strains with distinct K types exhibited <80% DNA sequence identity across this region, with the exception of three pairs of strains: K22/K37, K9/K45, and K52/K79. Strains K22 and K37 shared identical capsular polysaccharide synthesis (cps) genes except for one gene with a difference at a single base which resulted in frameshift mutation. The wzc sequences of K9 and K45 exhibited high DNA sequence similarity but possessed different genes in their cps clusters. K52 and K79 exhibited 89% wzc DNA sequence identity but were readily distinguished from each other at the DNA level; in contrast, strains with the same capsular type as K52 exhibited 100% wzc sequence identity. A total of 29 strains from patients with bacteremia were typed by the wzc system. wzc DNA sequences confirmed the documented capsular type for twenty-eight of these clinical isolates; the remaining strain likely represents a new capsular type. Thus, the wzc genotyping system is a simple and useful method for capsular typing of K. pneumoniae.

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CD8 + T Lymphocyte Self-Renewal during Effector Cell Determination

et al. 2016

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SUMMARY Selected CD8+ T cells must divide, produce differentiated effector cells, and self-renew, often repeatedly. We now show that silencing expression of the transcription factor TCF1 marks loss of self-renewal by determined effector cells, and that this requires cell division. In acute infections, the first three CD8+ T cell divisions produce daughter cells with unequal proliferative signaling but uniform maintenance of TCF1 expression. The more quiescent initial daughter cells resemble canonical central memory cells. The more proliferative, effector-prone cells from initial divisions can subsequently undergo division-dependent production of a TCF1-negative effector daughter cell along with a self-renewing TCF1-positive daughter cell, the latter also contributing to the memory cell pool upon resolution of infection. Self-renewal in the face of effector cell determination may promote clonal amplification and memory cell formation in acute infections, sustain effector regeneration during persistent subclinical infections, and be rate-limiting, but remediable, in chronic active infections and cancer.

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Anabolism-Associated Mitochondrial Stasis Driving Lymphocyte Differentiation over Self-Renewal

et al. 2016

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SUMMARY Regeneration requires related cells to diverge in fate. We show that activated lymphocytes yield sibling cells with unequal elimination of aged mitochondria. Disparate mitochondrial clearance impacts cell fate and reflects larger constellations of opposing metabolic states. Differentiation driven by an anabolic constellation of PI3K/mTOR activation, aerobic glycolysis, inhibited autophagy, mitochondrial stasis, and ROS production is balanced with self-renewal maintained by a catabolic constellation of AMPK activation, mitochondrial elimination, oxidative metabolism, and maintenance of FoxO1 activity. Perturbations up and down the metabolic pathways shift the balance of nutritive constellations and cell fate owing to self-reinforcement and reciprocal inhibition between anabolism and catabolism. Cell fate and metabolic state are linked by transcriptional regulators, such as IRF4 and FoxO1, with dual roles in lineage and metabolic choice. Instructing some cells to utilize nutrients for anabolism and differentiation while other cells catabolically self-digest and self-renew may enable growth and repair in metazoa.

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CD4+ T cell effector commitment coupled to self-renewal by asymmetric cell divisions

et al. 2016

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Yen-Hua Chen

Asymmetric PI3K Signaling Driving Developmental and Regenerative Cell Fate Bifurcation

Capsular Types of Klebsiella pneumoniae Revisited by wzc Sequencing

CD8 + T Lymphocyte Self-Renewal during Effector Cell Determination

Anabolism-Associated Mitochondrial Stasis Driving Lymphocyte Differentiation over Self-Renewal

CD4+ T cell effector commitment coupled to self-renewal by asymmetric cell divisions

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