Control of Cl- transport in the operculum epithelium of Fundulus heteroclitus: long- and short-term salinity adaptation.

The eurohaline fish, Fundulus heteroclitus, adapts rapidly to enhanced salinity by increasing the ion secretion by gill chloride cells. An increase of approximately 70 mOsm in plasma osmolarity was previously found during the transition. To mimic this in vitro, isolated opercular epithelia of seawater-adapted Fundulus mounted in a modified Ussing chamber were exposed to an increase in NaCl and/or osmolarity on the basolateral side, which immediately increased I(SC).

Urea and water permeability in the ureotelic gulf toadfish (Opsanus beta).

The permeability of toadfish gills and skin to urea and water has been measured in order to investigate the mechanisms behind the pulsatile excretion of urea previously described in this species. A perfused gill preparation was used in the gill studies and isolated pieces of skin mounted in an Ussing chamber in the skin studies. Simultaneously, urea and water permeability was measured in vivo in free swimming fish.

Chloride cells and osmoregulation.

The chloride cells of the gill secretory epithelium of fish that make the transition from fresh water to sea water adapt to the increased salinity by responding to a rapid signal that stimulates chloride secretion. In this paper, data are presented supporting the view that the transient increase in plasma osmolarity that can be measured during the transition is responsible for the stimulation of chloride secretion. A maximal increase of 65 mOsm in the plasma of Fundulus heteroclitus (the killifish) was found during acclimation to sea water.

Chloride transport activation by plasma osmolarity during rapid adaptation to high salinity of Fundulus heteroclitus.

Transition from low salt water to sea water of the euryhaline fish, Fundulus heteroclitus, involves a rapid signal that induces salt secretion by the gill chloride cells. An increase of 65 mOsm in plasma osmolarity was found during the transition. The isolated, chloride-cell-rich opercular epithelium of sea-water-adapted Fundulus exposed to 50 mOsm mannitol on the basolateral side showed a 100% increase in chloride secretion, which was inhibited by bumetanide 10(-4) M and 10(-4) M DPC (N-Phenylanthranilic acid).

Inhibition of tumor promoter-mediated processes in mouse skin and bovine lens by caffeic acid phenethyl ester.

Caffeic acid phenethyl ester (CAPE) was isolated from propolis (a product of honeybee hives) that has been used in folk medicine as a potent antiinflammatory agent. CAPE is cytotoxic to tumor and virally transformed but not to normal cells. Our main goal was to establish whether CAPE inhibits the tumor promoter (12-O-tetradecanoylphorbol-13-acetate)-induced processes associated with carcinogenesis.

A Na+/Ca2+ exchange mechanism in apical membrane vesicles of the retinal pigment epithelium.

The retinal pigment epithelium (RPE) lying between the neural retina and the choroid, performs as a transport organ for solutes and water between the choriocapillaries and the subretinal space. It also has the function to maintain the microenvironment of photoreceptors including the regulation of calcium ions during light or dark adaptation. In order to further elucidate the transport functions of the RPE, apical membranes were isolated from RPE by differential precipitation with divalent ions.

Ca2+/Na+ exchanger and Na+,K+ 2Cl- cotransporter in lens fiber plasma membrane vesicles.

When the Ca(2+)-sensitive fluorescent probe, Fura-2, or the Na(+)-sensitive probe, SBFI, in their cell permeable forms or the Cl(-)-specific probe, SPQ, were incubated with plasma membrane vesicles prepared from dogfish and bovine lenses fibers, there was a selective accumulation of the ion-specific probes within the vesicles. The SBFI and Fura-2 fluorescent excitation ratios of 340 nm to 380 nm (em: 505 nm) in the presence of an outwardly-directed Na+ gradient across the vesicles membrane, indicate that the influx of Ca2+ is increased by 152.5% and 147.

A Na+/H+ exchanger and its relation to oxidative effects in plasma membrane vesicles from lens fibers.

The existence of a Na+/H+ exchange mechanism and its role in the regulation of lens fiber cell intracellular pH, as well as the effect of oxidants and antioxidants, have been examined in vesicular preparations from spiny dogfish and bovine eyes. The fluorescent probes, SBFI (sodium-binding benzofuran isophthalate) for Na+ and SNARF-1 (seminaphthorhodafluor-1) for H+, were used to determine fluorescent ratios in a dual-wavelength spectrofluorimeter. The results show that: (1) the plasma membrane vesicles can be purified from lens fiber (52.

Study of the Ca2+/Na+ exchange mechanism in vesicles isolated from apical membranes of lens epithelium of spiny dogfish (Squalus acanthias) and bovine eye.

Apical membrane vesicles of dogfish and bovine lens epithelium were prepared by differential centrifugation and Mg2+ precipitation. Enrichment of the apical enzyme markers, for Na+,K(+)-ATPase was achieved. Na+,K(+)-ATPase was enriched 25.

Lens opacification and H2O2 elevation induced by a tumor promoter.

Incubation of whole bovine lens with 10(-7) M 12-O-tetradecanoylphorbol-13-acetate (TPA) led to the lens opacity within 24 h. The hydrogen peroxide (H2O2) concentration in the whole lens was elevated 4 fold after treatment with either 10(-7) M TPA or 2.5 mM glucose/20 microM glucose oxidase.

Characterization of BADS-binding proteins in epithelial plasma membranes.

When a fluorescent stilbene was added to epithelial plasma membrane suspension the emission spectrum showed a broad peak containing overlapping emissions resulting from different adducts. By focusing on a specific emission wavelength a common site having a dissociation constant of approximately 5 microM was calculated in the rat kidney, small intestine, pancreatic islets and shark rectal gland. This binding could be displaced by loop diuretics, (e.

Histochemical demonstration of carbonic anhydrase in gills and opercular epithelium of seawater- and freshwater-adapted killyfish (Fundulus heteroclitus).

Gills and operculum of seawater- and freshwater-adapted killyfish (Fundulus heteroclitus) were stained histochemically for carbonic anhydrase (CA). In the seawater-acclimatized specimens, CA was found predominantly in the chloride cells which were considerably larger than in the freshwater-adapted ones. Within these cells, the reaction products were concentrated in the apical parts of the cytoplasm.

Fluorescent stilbene (BADS) binding proteins in anion-transporting epithelia.

Chloride transport occurs at the interface between the internal and external environments of a cell where chloride uptake or efflux is regulated through a variety of mechanisms that involve cotransport of cations, exchange mechanism with anions, or movement through channels. One of these mechanisms, a chloride-bicarbonate exchange found in the human red blood cell, is well characterized and is mediated by a protein commonly known as band 3. To ascertain the presence of this or other mechanisms in epithelia, the sensitivity of epithelial membranes toward stilbenes was examined.

Mechanically stripped pigmented and non-pigmented epithelium of the shark ciliary body: morphology and transepithelial electrical properties.

Sections of intact ciliary epithelium and mechanically stripped non-pigmented (NPE) and pigmented (PE) cell layers of adult sharks (Squalus acanthias) were mounted in Ussing-type chambers (area 0.1 cm2). Addition of 10(-5) M forskolin to the aqueous side of intact epithelium significantly increased short-circuit current (Isc) within 15 min and a maximum of approx.

A Na/H exchange mechanism in apical membrane vesicles of the retinal pigment epithelium.

The retinal pigment epithelium (RPE) interposed between the vascular system of the choroid and the neural retina performs a variety of functions essential for vision. In order to further elucidate the transport functions of the RPE, apical membranes were isolated from the RPE of the dogfish (Squalus acanthias) by differential precipitation with calcium. Na-K-ATPase, an apical marker enzyme in this tissue, was enriched 15-fold in the final membrane fraction.

Effect of pH on chloride absorption in the flounder intestine.

Chloride absorption in the small intestine of the winter flounder, Pseudopleuronectes americanus, is reported to be sensitive to ambient pH. We studied this sensitivity in isolated stripped intestinal mucosa mounted in modified Ussing chambers. Unidirectional 36Cl fluxes (JClm----s, JCls----m) were measured under short-circuited conditions in bathing solutions containing various combinations of HCO3- (0-20 mM), partial pressure of CO2 (0-36 mmHg), and pH (6.

Intracellular voltage recordings in the opercular epithelium of Fundus heteroclitus.

Opercular epithelial cells of Fundus heteroclitus were investigated using conventional microelectrodes. The area of interest was the cells lining the inside of the opercular epithelium closest to the gill arches, an area with a high density of chloride cells. Only one cell type could be discerned from the values of 60 opercular cells measured with the opercular epithelium in open circuit conditions.

Effect of a chloride channel blocker on bullfrog corneal epithelium.

The effect of the chloride channel blocker, diphenylamine-2-carboxylate (DPC), was investigated on the bullfrog cornea epithelium using microelectrodes. Perfusion of 2 X 10(-4) M DPC on the tear side resulted in a 44% reduction of the corneal transepithelial potential difference (TEP) and a 9% reduction in corneal conductance. The cornea epithelial cells hyperpolarized 7.

Effect of atriopeptin II on isolated opercular epithelium of Fundulus heteroclitus.

The effect of atriopeptin II (ANF) on the in vitro opercular epithelium was investigated by use of short-circuit current techniques. Serosal addition of ANF stimulates chloride secretion (short-circuit current) 19% above control values with a 7% increase in tissue conductance. Mucosal addition of ANF to the opercular epithelium was without effect.

Effects of ouabain and furosemide on transepithelial electrical parameters of the isolated shark ciliary epithelium.

Sections of the ciliary epithelium of adult sharks (Squalus acanthias) were mounted in Ussing-type chambers (area 0.2 cm2) for measurements of transepithelial potential difference (PD), short circuit current (SCC) and calculation of transepithelial resistance (R). In 15 preparations PD was aqueous side negative (-0.

Leukotriene modulation of chloride transport in frog cornea.

The present study has identified the metabolites of arachidonic acid (AA) formed by the isolated frog cornea and has shown that this tissue is capable of the biosynthesis of both lipoxygenase and cyclo-oxygenase pathway metabolites. The cyclo-oxygenase (CO) metabolites found in greatest abundance were the prostaglandins E2 and F2a (PGE2 and PGF2a). The major lipoxygenase (LO) pathway metabolite found by thin-layer chromatography (TLC) was leukotriene B4 (LTB4), whereas leukotriene C4 (LTC4) biosynthesis was detected by radioimmunoassay.

Membrane potentials and intracellular chloride activity in the ciliary body of the shark.

We have found that membrane potential in the isolated ciliary epithelium of the shark, Squalus acanthias, is -53 mV. High extracellular potassium or ouabain (10(-5) mol X l-1) decrease the potential, and furosemide (10(-4) mol X l-1) hyperpolarizes it. There is no difference in membrane potential between the cells of the non-pigmented and pigmented layers.

Effect of calcium antagonist compound nisoldipine on transepithelial electrical parameters in the isolated frog cornea.

The new calcium antagonist, nisoldipine, inhibited short circuit current and transcorneal potential difference in the isolated frog cornea (a chloride transporting epithelium). Transepithelial resistance increased. The effects of nisoldipine were dose-dependent.

Mechanism for leukotriene C4 stimulation of chloride transport in cornea.

The leukotriene, LTC4, exerts a stimulatory effect on chloride transport in the frog cornea. In the work described here, the mechanism of action of LTC4 to stimulate chloride transport was studied. In corneas pretreated with indomethacin, the effect of LTC4 was abolished, suggesting the involvement of cyclo-oxygenase products in the response.

Direct insertion and fluorescence studies of rhodamine-labeled beta-adrenergic receptors in cell membranes.

Previous studies utilizing the fluorescence of propanolol as a probe for the beta-adrenergic receptor showed that this receptor is motionally constrained. To further study the beta-adrenergic receptor in situ we have reinserted rhodamine-labeled beta-receptors into cell membranes. This report presents documentation of their insertion and physiologic viability.