Galina V. Jerdeva scite author profile

The acinar epithelial cells of the lacrimal gland exocytose the contents of mature secretory vesicles containing tear proteins at their apical membranes in response to secretagogues. Here we use time-lapse confocal fluorescence microscopy and fluorescence recovery after photobleaching to investigate the changes in actin filaments located beneath the apical membrane during exocytosis evoked by the muscarinic agonist, carbachol (100 μM). Time-lapse confocal fluorescence microscopy of apical actin filaments in reconstituted rabbit lacrimal acini transduced with replication-deficient adenovirus containing GFP-actin revealed a relatively quiescent apical actin array in resting acini. Carbachol markedly increased apical actin filament turnover and also promoted transient actin assembly around apparent fusion intermediates. Fluorescence recovery after photobleaching measurements revealed significant (P≤0.05) increases and decreases, respectively, in mobile fraction (Mf) and turnover times (t½) for apical actin filaments in carbachol-stimulated acini relative to untreated acini. The myosin inhibitors, 2,3-butanedione monoxime (BDM, 10 mM, 15 minutes) and ML-7 (40 μM, 15 minutes), significantly decreased carbachol-stimulated secretion of bulk protein and the exogenous secretory vesicle marker, syncollin-GFP; these agents also promoted accumulation of actin-coated structures which were enriched, in transduced acini, in syncollin-GFP, confirming their identity as fusion intermediates. Actin-coated fusion intermediates were sized consistent with incorporation of multiple rather than single secretory vesicles; moreover, BDM and ML-7 caused a shift towards formation of multiple secretory vesicle aggregates while significantly increasing the diameter of actin-coated fusion intermediates. Our findings suggest that the increased turnover of apical actin filaments and the interaction of actin with non-muscle myosin II assembled around aggregates of secretory vesicles facilitate exocytosis in lacrimal acinar epithelial cells.

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Cytoplasmic dynein participates in apically targeted stimulated secretory traffic in primary rabbit lacrimal acinar epithelial cells

Wang

Jerdeva

Yarber

et al. 2003

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A major function of the acinar cells of the lacrimal gland is the production and stimulated release of tear proteins into ocular surface fluid. We investigate the participation of cytoplasmic dynein in carbachol-stimulated traffic to the apical plasma membrane in primary rabbit lacrimal acinar epithelial cells. Confocal fluorescence microscopy revealed a major carbachol-induced, microtubule-dependent recruitment of cytoplasmic dynein and the dynactin complex into the subapical region. Colocalization studies,sorbitol density gradient/phase partitioning analysis and microtubule-affinity purification of membranes showed that some dynein and dynactin complex were associated with VAMP2-enriched membranes. Adenovirus-mediated overexpression of p50/dynamitin inhibited the recruitment and colocalization of dynein, the dynactin complex and VAMP2 in the subapical region. Nocodazole treatment and p50/dynamitin overexpression also depleted subapical stores of rab3D in resting acini, suggesting that dynein activity was also involved in maintenance of rab3D-enriched secretory vesicles. These data implicate cytoplasmic dynein in stimulated traffic to the apical plasma membrane in these secretory epithelial cells.

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Direct interaction between Rab3D and the polymeric immunoglobulin receptor and trafficking through regulated secretory vesicles in lacrimal gland acinar cells

Evans

Zhang

Jerdeva

et al. 2008

American Journal of Physiology-Cell Physiology

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The lacrimal gland is responsible for tear production, and a major protein found in tears is secretory component (SC), the proteolytically cleaved fragment of the extracellular domain of the polymeric Ig receptor (pIgR), which is the receptor mediating the basal-to-apical transcytosis of polymeric immunoglobulins across epithelial cells. Immunofluorescent labeling of rabbit lacrimal gland acinar cells (LGACs) revealed that the small GTPase Rab3D, a regulated secretory vesicle marker, and the pIgR are colocalized in subapical membrane vesicles. In addition, the secretion of SC from primary cultures of LGACs was stimulated by the cholinergic agonist carbachol (CCH), and its release rate was very similar to that of other regulated secretory proteins in LGACs. In pull-down assays from resting LGACs, recombinant wild-type Rab3D (Rab3DWT) or the GDP-locked mutant Rab3DT36N both pulled down pIgR, but the GTP-locked mutant Rab3DQ81L did not. When the pull-down assays were performed in the presence of guanosine-5'-(gamma-thio)-triphosphate, GTP, or guanosine-5'-O-(2-thiodiphosphate), binding of Rab3DWT to pIgR was inhibited. In blot overlays, recombinant Rab3DWT bound to immunoprecipitated pIgR, suggesting that Rab3D and pIgR may interact directly. Adenovirus-mediated overexpression of mutant Rab3DT36N in LGACs inhibited CCH-stimulated SC release, and, in CCH-stimulated LGACs, pull down of pIgR with Rab3DWT and colocalization of pIgR with endogenous Rab3D were decreased relative to resting cells, suggesting that the pIgR-Rab3D interaction may be modulated by secretagogues. These data suggest that the novel localization of pIgR to the regulated secretory pathway of LGACs and its secretion therefrom may be affected by its novel interaction with Rab3D.

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Dominant-negative PKC-ε impairs apical actin remodeling in parallel with inhibition of carbachol-stimulated secretion in rabbit lacrimal acini

Jerdeva¹,

Yarber²,

Trousdale³

et al. 2005

American Journal of Physiology-Cell Physiology

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We investigated the involvement of PKC-epsilon in apical actin remodeling in carbachol-stimulated exocytosis in reconstituted rabbit lacrimal acinar cells. Lacrimal acinar PKC-epsilon cosedimented with actin filaments in an actin filament binding assay. Stimulation of acini with carbachol (100 microM, 2-15 min) significantly (P < or = 0.05) increased PKC-epsilon recovery with actin filaments in two distinct biochemical assays, and confocal fluorescence microscopy showed a significant increase in PKC-epsilon association with apical actin in stimulated acini as evidenced by quantitative colocalization analysis. Overexpression of dominant-negative (DN) PKC-epsilon in lacrimal acini with replication-defective adenovirus (Ad) resulted in profound alterations in apical and basolateral actin filaments while significantly inhibiting carbachol-stimulated secretion of bulk protein and beta-hexosaminidase. The chemical inhibitor GF-109203X (10 microM, 3 h), which inhibits PKC-alpha, -beta, -delta, and -epsilon, also elicited more potent inhibition of carbachol-stimulated secretion relative to Gö-6976 (10 microM, 3 h), which inhibits only PKC-alpha and -beta. Transduction of lacrimal acini with Ad encoding syncollin-green fluorescent protein (GFP) resulted in labeling of secretory vesicles that were discharged in response to carbachol stimulation, whereas cotransduction of acini with Ad-DN-PKC-epsilon significantly inhibited carbachol-stimulated release of syncollin-GFP. Carbachol also increased the recovery of secretory component in culture medium, whereas Ad-DN-PKC-epsilon transduction suppressed its carbachol-stimulated release. We propose that DN-PKC-epsilon alters lacrimal acinar apical actin remodeling, leading to inhibition of stimulated exocytosis and transcytosis.

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Galina V. Jerdeva

Actin and non-muscle myosin II facilitate apical exocytosis of tear proteins in rabbit lacrimal acinar epithelial cells

Cytoplasmic dynein participates in apically targeted stimulated secretory traffic in primary rabbit lacrimal acinar epithelial cells

Direct interaction between Rab3D and the polymeric immunoglobulin receptor and trafficking through regulated secretory vesicles in lacrimal gland acinar cells

Dominant-negative PKC-ε impairs apical actin remodeling in parallel with inhibition of carbachol-stimulated secretion in rabbit lacrimal acini

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