Andrea H. Rossi scite author profile

Airway goblet cells secrete mucin onto mucosal surfaces under the regulation of an apical, phospholipase C/G(q)-coupled P2Y(2) receptor. We tested whether cortical actin filaments negatively regulate exocytosis in goblet cells by forming a barrier between secretory granules and plasma membrane docking sites as postulated for other secretory cells. Immunostaining of human lung tissues and SPOC1 cells (an epithelial, mucin-secreting cell line) revealed an apical distribution of beta- and gamma-actin in ciliated and goblet cells. In goblet cells, actin appeared as a prominent subplasmalemmal sheet lying between granules and the apical membrane, and it disappeared from SPOC1 cells activated by purinergic agonist. Disruption of actin filaments with latrunculin A stimulated SPOC1 cell mucin secretion under basal and agonist-activated conditions, whereas stabilization with jasplakinolide or overexpression of beta- or gamma-actin conjugated to yellow fluorescent protein (YFP) inhibited secretion. Myristoylated alanine-rich C kinase substrate, a PKC-activated actin-plasma membrane tethering protein, was phosphorylated after agonist stimulation, suggesting a translocation to the cytosol. Scinderin (or adseverin), a Ca(2+)-activated actin filament severing and capping protein was cloned from human airway and SPOC1 cells, and synthetic peptides corresponding to its actin-binding domains inhibited mucin secretion. We conclude that actin filaments negatively regulate mucin secretion basally in airway goblet cells and are dynamically remodeled in agonist-stimulated cells to promote exocytosis.

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Ca²⁺ dependency of ‘Ca²⁺‐independent’ exocytosis in SPOC1 airway goblet cells

Rossi¹,

Sears

Davis

2004

The Journal of Physiology

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SPOC1 airway goblet cells secrete mucin in response to P2Y 2 receptor agonists and to secretagogues, phorbol 12-myristate 13-acetate (PMA) and ionomycin, which mobilize elements of the phospholipase C pathway, PKC and Ca 2+ , respectively. Previous studies demonstrated that mucin secretion from SLO-permeabilized, EGTA-buffered SPOC1 cells was stimulated by PMA at low Ca 2+ levels (< 0.1 µM), consistent with the notion that regulated exocytosis may occur by Ca 2+ -independent pathways. We tested the alternative hypothesis that PMA-induced mucin secretion is, in fact, a Ca 2+ -dependent process under the conditions of low bulk Ca 2+ , one that is permitted in the typical SLO-permeabilized cell model by the slow binding kinetics of EGTA. Both IP 3 and elevated bulk Ca 2+ activated mucin secretion in SPOC1 cells buffered by EGTA, suggesting that IP 3 generates a local Ca 2+ gradient in the vicinity of the secretory granules to the degree necessary to trigger exocytosis. BAPTA, which binds Ca 2+ approximately 100-fold faster than EGTA, diminished IP 3 -induced mucin release over a range of concentrations by ≥ 69%, yet maintained an essentially normal mucin secretory response to elevated bulk Ca 2+ in permeabilized SPOC1 cells. BAPTA also diminished the mucin secretory response of permeabilized cells to PMA, relative to the EGTA-buffered control: at PMA below 30 nM, BAPTA abolished the secretory response, and at higher concentrations it was reduced significantly relative to the EGTA-buffered controls. PMA-induced secretion in EGTA was insensitive to heparin. These results suggest that Ca 2+ is released locally during PMA-induced exocytosis, by an IP 3 -independent mechanism.

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Calcium signaling in human airway goblet cells following purinergic activation

Rossi¹,

Salmon²,

Chua

et al. 2007

American Journal of Physiology-Lung Cellular and Molecular Phys

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Despite the general importance of Ca(2+) signaling in signal transduction, and of goblet cell mucin hypersecretion in inflammatory pulmonary diseases, measurement of airway goblet cell intracellular Ca(2+) (Ca(i)(2+)) has not been reported. In this article, we describe the results of experiments measuring Ca(i)(2+) in primary cultures of human bronchial goblet cells after stimulation with the purinergic agonist adenosine 5'-O-(3-thiotriphosphate) (ATPgammaS) and phorbol 12-myristate 13-acetate (PMA). Ca(2+) signaling in human goblet cells after purinergic stimulation follows the classic paradigm of a Ca(i)(2+) transient from a basal activity of 110 nM to a peak response of 260.1 +/- 41.2 nM within 2 min, followed by a long superbasal plateau (155.3 +/- 0.2 nM) between 10 and 15 min. The rise in Ca(i)(2+) appears to result from a mobilization of intracellular stores, because the transient was nearly abolished by inhibition of PLC with the phosphatidylinositol-specific PLC inhibitor U-73122, and it was not affected significantly by removal of extracellular Ca(2+). Loading goblet cells with BAPTA inhibited the ATPgammaS-induced Ca(2+) transient by 86.0 +/- 13.1%, relative to control. Finally, in contrast to the massive effects of high doses of PMA (300 nM) on mucin secretion from goblet cells, phorbol ester stimulated a small (27.1 +/- 7% of the ATPgammaS control peak), brief rise in Ca(i)(2+). This diminutive signal likely denotes a local Ca(2+) gradient, which may be associated with the mucin granule exocytotic process.

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Andrea H. Rossi

Barrier role of actin filaments in regulated mucin secretion from airway goblet cells

Ca²⁺ dependency of ‘Ca²⁺‐independent’ exocytosis in SPOC1 airway goblet cells

Calcium signaling in human airway goblet cells following purinergic activation

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Andrea H. Rossi

Barrier role of actin filaments in regulated mucin secretion from airway goblet cells

Ca2+ dependency of ‘Ca2+‐independent’ exocytosis in SPOC1 airway goblet cells

Calcium signaling in human airway goblet cells following purinergic activation

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Product

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Ca²⁺ dependency of ‘Ca²⁺‐independent’ exocytosis in SPOC1 airway goblet cells