Protective role of CFTR during fungal infection of cystic fibrosis bronchial epithelial cells with Aspergillus fumigatus

Lung infection with the fungus Aspergillus fumigatus (Af) is a common complication in cystic fibrosis (CF) and is associated with loss of pulmonary function. We established a fungal epithelial co-culture model to examine the impact of Af infection on CF bronchial epithelial barrier function using Af strains 10AF and AF293-GFP, and the CFBE41o- cell line homozygous for the F508del mutation with (CF+CFTR) and without (CF) normal CFTR expression. Following exposure of the epithelial surface to Af conidia, formation of germlings (early stages of fungal growth) was detected after 9-12 hours and hyphae (mature fungal growth) after 12-24 hours. During fungal morphogenesis, bronchial epithelial cells showed signs of damage including rounding, and partial detachment after 24 hours. Fluorescently labeled conidia were internalized after 6 hours and more internalized conidia were observed in CF compared to CF+CFTR cells. Infection of the apical surface with 10AF conidia, germlings, or hyphae was performed to determine growth stage-specific effects on tight junction protein zona occludens protein 1 (ZO-1) expression and transepithelial electrical resistance (TER). In response to infection with conidia or germlings, epithelial barrier function degraded time-dependently (based on ZO-1 immunofluorescence and TER) with a delayed onset in CF+CFTR cell monolayers and required viable fungi and apical application. Infection with hyphae caused an earlier onset and faster rate of decline in TER compared to conidia and germlings. Gliotoxin, a major Af virulence factor, caused a rapid decline in TER and induced a transient chloride secretory response in CF+CFTR but not CF cells. Our findings suggest growth and internalization of Af result in deleterious effects on bronchial epithelial barrier function that occurred more rapidly in the absence of CFTR. Bronchial epithelial barrier breakdown was time-dependent and morphotype-specific and mimicked by acute administration of gliotoxin. Our study also suggests a protective role for CFTR by turning on CFTR-dependent chloride transport in response to gliotoxin, a mechanism that will support mucociliary clearance, and could delay the loss of epithelial integrity during fungal development in vivo

CFTR displays voltage dependence and two gating modes during stimulation

The patch-clamp technique in conjunction with current noise analysi

Use of AC Impedance Analysis to Study Membrane Changes Related to Acid Secretion in Amphibian Gastric Mucosa

We have applied transepithelial AC impedance techniques to gastric mucosa to reconcile ultrastructural and electrophysiological findings about gastric acid secretion and the mucosal barrier. By fitting impedance data measured at different HCl secretion rates to equivalent circuit models, we extracted capacitances and resistances (as measures of membrane area and ionic conductance, respectively) for the apical and basolateral membranes. The impedance measurements were found to be incompatible with earlier equivalent circuit models that modeled membrane electrical properties as lumped circuits based on one or two cell types. A distributed circuit model was developed that assumed only one dominant electrical pathway (i.e., one cell type), but that incorporated electrical effects arising from long and narrow membrane-lined structures present in the epithelium (e.g., gastric crypts, tubulovesicles, lateral intercellular spaces). This morphologically based model was found to represent the measured data accurately, and to yield values for membrane capacitances consistent with morphometric measurements of membrane areas. The main physiological conclusions from this analysis were as follows: (a) The dominant transepithelial current pathway may reside in the oxyntic cells. (b) The transepithelial conductance increase associated with the onset of acid secretion is entirely due to increased conductance of the apical membrane. This is in turn due entirely to increased area of this membrane, resulting from incorporation of tubulovesicular membrane. (c) When membrane conductances are normalized to actual membrane area by use of membrane capacitances, it turns out that acid secretion is not associated with a change in specific ionic conductance (change in conductance per unit area) at either the apical or basolateral membrane. (d) The puzzlingly low value of transepithelial resistance (≤400 Ω-cm(2)) arises because there are hundreds or thousands of square centimeters of actual membrane area per square centimeter chamber area. Apical membrane resistance is 25 kΩ-cm(2) (actual membrane area), implying a tight barrier to back-diffusion of protons

Mouse mammary epithelial cells on floating collagen gels: Transepithelial ion transport and effects of prolactin

Epithelial cells dissociated from midpregnant BALB/c mouse mammary glands were cultured for as long as 20 days as confluent monolayers on floating collagen gels. Detached gels bearing monolayers were placed in lucite Ussing chàmbers for measurement of transepithelial potential difference (PD), short-circuit current (I(sc)), resistance (R), and unidirectional fluxes of Na(+) and Cl(-) during short-circuit current conditions (PD = 0). With Hanks' solution bathing both sides of cultures maintained with insulin and cortisol, PD = -12.8 mV (serosal side ground), I(sc) = 24.6 μA/cm(2), and R = 507 ω·cm(2). Net absorption of Na(+) equaled I(sc), and there was no net Cl(-) transport. PD and I(sc) were reduced 50% by mucosal addition of 10 μM amiloride and to zero by metabolic inhibition with nitrogen gas or by serosal addition of 0.1 mM ouabain. In similar cultures supplemented with prolactin, PD and I(sc) increased to -15.8 mV and 48.0 μA/cm(2), respectively, and R decreased to 374 ω·cm(2). Inhibitor effects were similar to those seen in prolactin-free cultures. Prolactin exposure resulted in a 3-fold increase in net absorption of Na(+). Na(+) absorption was not equivalent to I(sc), and there was little Cl(-) absorption; therefore, prolactin induced active transport of other, as yet unidentified, ions. These effects of prolactin require at least 3 days to occur and cannot be attributed to the known contamination with neurohypophysial hormones. The prolactin-induced increase in Na(+) absorption parallels its Na(+)-retaining ability in lower vertebrates and could be part of the mechanism that keeps milk Na(+) concentration low in intact glands

Pseudomonas aeruginosa Inhibition of Flagellin-Activated NF-κB and Interleukin-8 by Human Airway Epithelial Cells ▿

Pseudomonas aeruginosa-induced activation of NF-κB and secretion of proinflammatory cytokines by airway epithelial cells require that the bacteria express flagellin. We tested whether P. aeruginosa and human airway epithelial cells secrete factors that modulated this response. Experiments were performed with both the Calu-3 cell line and primary cultures of tracheal epithelial cells. P. aeruginosa strain PAK ΔfliC (flagellin knockout) did not activate NF-κB or interleukin-8 (IL-8) but inhibited flagellin-activated NF-κB by 40 to 50% and IL-8 secretion by 20 to 25%. PAK ΔfliC also inhibited NF-κB induced by IL-1β and Toll-like receptor 2 agonist Pam3CSK4. Similar inhibitions were observed with strains PAK, PAO1, and PA14. The inhibitory factor was present in conditioned medium isolated from PAK ΔfliC or Calu-3 plus PAK ΔfliC, but it was not present in conditioned medium isolated from Calu-3 cells alone or from PAK ΔfliC that had been heat treated. Inhibition by PAK ΔfliC-conditioned medium was exerted from either the apical or the basolateral side of the epithelium, was enhanced in simple Ringer's solution over that in tissue culture medium, and did not result from altered pH or depletion of glucose. The inhibitory effect of conditioned medium was abolished by boiling and appeared from filtration studies to result from effects of a factor with a molecular mass of <3 kDa. These and further studies with isogenic mutants led to the conclusion that the NF-κB and IL-8 response of airway epithelial cells to P. aeruginosa results from a balance of proinflammatory effects of flagellin and antiinflammatory effects of a small (<3-kDa), heat-sensitive factor(s) that is not lipopolysaccharide, C12 homoserine lactone, alginate, CIF, or exotoxin A, S, T, U, or Y

Modulation of Cytosolic Ca(2+) Concentration in Airway Epithelial Cells by Pseudomonas aeruginosa

Modulation of cytosolic (intracellular) Ca(2+) concentration (Ca(i)) may be an important host response when airway epithelial cells are exposed to Pseudomonas aeruginosa. We measured Ca(i) in Calu-3 cells exposed from the apical or basolateral surface to cytotoxic and noncytotoxic strains of P. aeruginosa. Apical addition of either noncytotoxic strains or cytotoxic strains failed to affect Ca(i) over a 3-h time period, nor were changes observed after basolateral addition of noncytotoxic strains. In contrast, basolateral addition of cytotoxic strains caused a slow increase in Ca(i) from 100 nM to 200 to 400 nM. This increase began after 20 to 50 min and persisted for an additional 30 to 75 min, at which time the cells became nonviable. P. aeruginosa-induced increases in Ca(i) were blocked by the addition of the Ca channel blocker La(3+) to the basolateral but not to the apical chamber. Likewise, replacing the basolateral but not the apical medium with Ca-free solution prevented P. aeruginosa-mediated changes in Ca(i). With isogenic mutants of PA103, we demonstrated that the type III secretion apparatus, the type III-secreted effector ExoU, and type IV pili were necessary for increased Ca(i). We propose that translocation of ExoU through the basolateral surface of polarized airway epithelial cells via the type III secretion apparatus leads to release of Ca stored in the endoplasmic reticulum and activation of Ca channels in the basolateral membranes of epithelial cells

Flagella are required for swimming toward, and pili are required for binding of <i>P</i>. <i>aeruginosa</i> to wounded CFBE41o- cells.

<p>CFBE41o- monolayers were incubated in Ringer and wounded in the presence of <i>P</i>. <i>aeruginosa</i> strains PAK-GFP or Syto 11-labeled PAKΔfliC or Syto 11-labeled PAKΔpilA. After 30 mins, cells were rinsed and placed in the incubator for 2 hrs, then rinsed and imaged (DIC and green fluorescence). Yellow arrowheads show path of wound in healing CFBE41o- cells. <b>A.</b> PAK-GFP, <b>B.</b> PAKΔfliC, <b>C.</b> PAKΔpilA, <b>D.</b> Average (+/- SD, n = 3) number of bacteria bound along wounds of CFBE41o- cell monolayers.</p