Susheela Carroll scite author profile

The lipid phosphatidylinositol-4,5-bisphosphate (PtdIns[4,5]P2) appears to play an important role in endocytosis. However, the timing of its formation and turnover, and its specific functions at different stages during endocytic internalization, have not been established. In this study, Sla2 ANTH-GFP and Sjl2-3GFP were expressed as functional fusion proteins at endogenous levels to quantitatively explore PtdIns(4,5)P2 dynamics during endocytosis in yeast. Our results indicate that PtdIns(4,5)P2 levels increase and decline in conjunction with coat and actin assembly and disassembly, respectively. Live-cell image analysis of endocytic protein dynamics in an sjl1Δ sjl2Δ mutant, which has elevated PtdIns(4,5)P2 levels, revealed that the endocytic machinery is still able to assemble and disassemble dynamically, albeit nonproductively. The defects in the dynamic behavior of the various endocytic proteins in this double mutant suggest that PtdIns(4,5)P2 turnover is required for multiple stages during endocytic vesicle formation. Furthermore, our results indicate that PtdIns(4,5)P2 turnover may act in coordination with the Ark1/Prk1 protein kinases in stimulating disassembly of the endocytic machinery.

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Analysis of yeast endocytic site formation and maturation through a regulatory transition point

Carroll

Stimpson

Weinberg

et al. 2012

MBoC

161

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Modeling Vesicle Traffic Reveals Unexpected Consequences for Cdc42p-Mediated Polarity Establishment

et al. 2011

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Summary Background Polarization in yeast has been proposed to involve a positive feedback loop whereby the polarity regulator Cdc42p orients actin cables, which deliver vesicles carrying Cdc42p to the polarization site. Previous mathematical models treating Cdc42p traffic as a membrane-free flux suggested that directed traffic would polarize Cdc42p, but it remained unclear whether Cdc42p would become polarized without the membrane-free simplifying assumption. Results We present mathematical models that explicitly consider stochastic vesicle traffic via exocytosis and endocytosis, providing several new insights. Our findings suggest that endocytic cargo influences the timing of vesicle internalization in yeast. Moreover, our models provide quantitative support for the view that integral membrane cargo proteins would become polarized by directed vesicle traffic given the experimentally determined rates of vesicle traffic and diffusion. However, such traffic cannot effectively polarize the more rapidly-diffusing Cdc42p in the model, without making additional assumptions that seem implausible and lack experimental support. Conclusions Our findings suggest that actin-directed vesicle traffic would perturb, rather than reinforce, polarization in yeast.

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A Yeast Killer Toxin Screen Provides Insights into A/B Toxin Entry, Trafficking, and Killing Mechanisms

et al. 2009

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Summary Like Ricin, Shiga, and Cholera toxins, yeast K28 is an A/B toxin that depends on endocytosis and retrograde trafficking for toxicity. Knowledge of the specific proteins, lipids, and mechanisms required for trafficking and killing by these toxins remains incomplete. Since K28 is a model for clinically relevant toxins, we screened over 5000 yeast mutants, identifying 365 that affect K28 sensitivity. Hypersensitive mutants revealed cytoprotective pathways, including stress-activated signaling and protein degradation. Resistant mutants clustered to endocytic, lipid organization and cell wall biogenesis pathways. Furthermore, GPI anchors and transcriptional regulation are important for K28-cell binding. Strikingly, the AP2 complex, which in metazoans links endocytic cargo to the clathrin coat, but had no assigned function in yeast, was critical for K28 toxicity. Yeast AP2 localizes to endocytic sites and has a cargo-specific function in K28 uptake. This comprehensive genetic analysis identified conserved processes important for A/B toxin trafficking and killing.

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Role of Ca²⁺in responses of airway epithelia toPseudomonas aeruginosa, flagellin, ATP, and thapsigargin

Fu¹,

Bettega²,

Carroll³

et al. 2007

American Journal of Physiology-Lung Cellular and Molecular Phys

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Neither Pseudomonas aeruginosa nor flagellin affected cytosolic Ca(2+) concentration ([Ca](i)) in airway epithelial cell lines JME and Calu-3, but bacteria or flagellin activated NF-kappaB, IL-8 promoter, and IL-8 secretion. ATP (purinergic agonist) and thapsigargin (blocks Ca(2+) pump, releases endoplasmic reticulum Ca(2+), and triggers Ca(2+) entry through plasma membrane channels) both increased [Ca](i) but hardly stimulated NF-kappaB and IL-8. ATP and thapsigargin elicited larger, synergistic activations of NF-kappaB and IL-8 secretion when combined with flagellin. BAPTA-AM (to buffer [Ca](i)) or Ca(2+)-free solution reduced increases in [Ca](i) due to ATP or thapsigargin and also reduced NF-kappaB activation and IL-8 secretion triggered by flagellin, ATP, thapsigargin, ATP + flagellin, and thapsigargin + flagellin. IL-8 promoter analysis showed that AP-1 and CCAAT/enhancer-binding protein (C/EBP)beta/nuclear factor for IL-6 (NF-IL6) sites were important for IL-8 expression, and the NF-kappaB-binding site was critical for activation by all agonists and for activation by [Ca](i). Thus increased [Ca](i) was not required for P. aeruginosa- or flagellin-activated NF-kappaB and IL-8 expression and secretion, and increased [Ca](i) was only weakly stimulatory during activation by ATP or thapsigargin. However, ATP- or thapsigargin-induced increases in [Ca](i) synergized with flagellin or P. aeruginosa, and buffering or reducing [Ca](i) reduced these responses. Thus [Ca](i) plays an important regulatory role in P. aeruginosa- or flagellin-activated innate immune responses in airway epithelia. Dose-dependent responses indicated that flagellin-ATP synergism occurred most prominently at ATP concentrations ([ATP]) > 10 microM and [flagellin] >10(-8) g/ml and during steady increases rather than oscillations in [Ca](i).

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