Nicolas Groulx scite author profile

To accommodate expanding volume (V) during hyposmotic swelling, animal cells change their shape and increase surface area (SA) by drawing extra membrane from surface and intracellular reserves. The relative contributions of these processes, sources and extent of membrane reserves are not well defined. In this study, the SA and V of single substrate-attached A549, 16HBE14o(-), CHO and NIH 3T3 cells were evaluated by reconstructing cell three-dimensional topology based on conventional light microscopic images acquired simultaneously from two perpendicular directions. The size of SA reserves was determined by swelling cells in extreme 98% hypotonic (approximately 6 mOsm) solution until membrane rupture; all cell types examined demonstrated surprisingly large membrane reserves and could increase their SA 3.6 +/- 0.2-fold and V 10.7 +/- 1.5-fold. Blocking exocytosis (by N-ethylmaleimide or 10 degrees C) reduced SA and V increases of A549 cells to 1.7 +/- 0.3-fold and 4.4 +/- 0.9-fold, respectively. Interestingly, blocking exocytosis did not affect SA and V changes during moderate swelling in 50% hypotonicity. Thus, mammalian cells accommodate moderate (<2-fold) V increases mainly by shape changes and by drawing membrane from preexisting surface reserves, while significant endomembrane insertion is observed only during extreme swelling. Large membrane reserves may provide a simple mechanism to maintain membrane tension below the lytic level during various cellular processes or acute mechanical perturbations and may explain the difficulty in activating mechanogated channels in mammalian cells.

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Ca²⁺‐dependent ATP release from A549 cells involves synergistic autocrine stimulation by coreleased uridine nucleotides

Tatur

Groulx

Orlov

et al. 2007

The Journal of Physiology

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Extracellular ATP is a potent surfactant secretagogue but its origin in the alveolus, its mechanism(s) of release and its regulatory pathways remain unknown. Previously 2+ -dependent ATP release evoked by hypotonic shock. Our study reveals a novel paradigm in which stress-induced ATP release from alveolar cells is amplified by the synergistic autocrine/paracrine action of coreleased uridine and adenosine nucleotides. We suggest that a similar mechanism of purinergic signal propagation operates in other cell types.

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The Pollution Particulate Concentrator (PoPCon): A platform to investigate the effects of particulate air pollutants on viral infectivity

Groulx

Urch

Duchaine

et al. 2018

Science of The Total Environment

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Single Molecule Fluorescence Study of the Bacillus thuringiensis Toxin Cry1Aa Reveals Tetramerization

Groulx

McGuire

Laprade

et al. 2011

Journal of Biological Chemistry

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Background:The stoichiometry of pore-forming toxins is frequently unknown because crystal structures do not reflect the active conformations. Results: We used single subunit counting on fluorescently labeled Cry1Aa toxin of Bacillus thuringiensis to follow its oligomerization process. Conclusion: We determined that the final architecture of the pores is tetrameric. Significance: The stochastic analysis introduced permits the application of single subunit counting to dynamic processes such as oligomerization.

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Nicolas Groulx

Membrane Reserves and Hypotonic Cell Swelling

Ca²⁺‐dependent ATP release from A549 cells involves synergistic autocrine stimulation by coreleased uridine nucleotides

The Pollution Particulate Concentrator (PoPCon): A platform to investigate the effects of particulate air pollutants on viral infectivity

Single Molecule Fluorescence Study of the Bacillus thuringiensis Toxin Cry1Aa Reveals Tetramerization

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Nicolas Groulx

Membrane Reserves and Hypotonic Cell Swelling

Ca2+‐dependent ATP release from A549 cells involves synergistic autocrine stimulation by coreleased uridine nucleotides

The Pollution Particulate Concentrator (PoPCon): A platform to investigate the effects of particulate air pollutants on viral infectivity

Single Molecule Fluorescence Study of the Bacillus thuringiensis Toxin Cry1Aa Reveals Tetramerization

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Product

Resources

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Ca²⁺‐dependent ATP release from A549 cells involves synergistic autocrine stimulation by coreleased uridine nucleotides