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Abstract

Pentachlorophenol (PCP) is a toxic substance that affects many tissues adversely. Present experiments, using an in vitro preparation, were designed to study whether PCP affected the electrophysiological parameters of the bullfrog cornea epithelium, specifically, the Na⁺/K⁺ ATPase pump and the K⁺ conductance located in the basolateral membrane and the Cl^- conductance located in the apical membrane. For this purpose, corneas were impaled with microelectrodes and experiments were done under short-circuit current (l_sc) conditions. Addition of PCP to a concentration of 5 × 10^-5 M to the tear solution gave a marked decrease in l_sc; a marked depolarization of the intracellular potential, V_o; and minimal but significant decreases in the apical membrane fractional resistance, fR_o, and in the transepithelial conductance, g_t. l_sc experiments in Cl^--free solutions with amphotericin B in the tear solution confirm results indicating that PCP inhibits the active transepithelial transport mechanism and produces a small increase in the basolateral membrane resistance due to a decrease in the K⁺ conductance.

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References

Reichle

. Phenol and its derivatives. In: Hancock

Ed. Benzene and Its Industrial Derivatives. New York: John Wiley and Sons, pp 376–382, 1975.

Carswell

, Nason

. Properties and uses of pentachlorophenol. Indus Eng Chem 30: 622–626, 1938.

Cline

, Hill

, Phillips

, Needham

. Pentachlorophenol measurements in body fluids of people in log homes and workplaces. Arch Environ Contamination Toxicol 18: 475–481, 1989.

Begley

, Reichert

, Rashad

, Klemmer

. Association between renal function tests and pentachlorophenol exposure. Clin Toxicol 11: 97–106, 1977.

Arrhenius

, Renberg

, Johansson

Subcellular distribution, a risk factor evaluation of PCP. Chemico Biol Interact 18: 23–34, 1977.

Quevedo

, Montoya

, Ferraris

, Venegas

Inhibition of the sodium transport by pentachlorophenol (PCP) in toad skin (Pleurodema thaul). Comp Biochem Physiol C 101: 365–369, 1992.

Norris

, Quevedo

Pentachlorophenol (PCP) inhibits ion transport in the isolated toad cornea. Gen Pharmacol 24: 867–872, 1993.

Nwoga

, Sniffen

, Pena-Rasgado

, Kimbier

, Rasgado-Flores

Effect of pentachlorophenol on calcium accumulation in barnacle muscle cells. J Physiol 491: 13–20, 1996.

Candia

, Bentley

, Cook

. Stimulation by amphotericin B of active Na transport across amphibian cornea. Am J Physiol 226: 1438–1444, 1974.

10.

Carrasquer

, Ahn

, Schwartz

, Rehm

. Electrogenicity of the Na-K ATPase pump in bullfrog cornea. Am J Physiol 249: F185–F191, 1985.

11.

Carrasquer

, Nagel

, Rehm

, Schwartz

Microelectrode studies of PD responses to changes in stromal K⁺ in bullfrog cornea. Biochim Biophys Acta 900: 258–266, 1987.

12.

Nagel

, Reinach

Mechanism of stimulation by epinephrine of active transepithelial Cl transport in isolated frog cornea. J Membr Biol 56: 73–79, 1980.

13.

Reus

, Reinach

, Weinman

, Grady

. Intracellular ion activities and Cl transport mechanisms in bullfrog corneal epithelium. Am J Physiol 244: C336–C347, 1983.

14.

Nagel

, Carrasquer

Effect of loop diuretics on bullfrog cornea epithelium. Am J Physiol 256: C750–C755, 1989.

15.

Zadunaisky

. Sodium activation of chloride transport in the frog cornea. Biochim Biophys Acta 282: 255–257, 1972.

16.

Frizzell

, Field

, Schultz

. Sodium-coupled chloride transport by epithelial tissues. Am J Physiol 236: F1–F8, 1979.

17.

Candia

. The active translocation of Cl and Na by the frog cornea epithelium: Cotransport or separate pumps? In: Zadunaisky

Ed. Chloride Transport in Biological Membranes. New York: Academic Press, pp 223–242, 1982.

18.

Nagel

The intracellular electrical profile of the frog skin epithelium. Pflugers Arch 365: 135–143, 1976.

19.

Candia

. Effect of pH on CI^- transport across the isolated bullfrog cornea. Exp Eye Res 15: 375–382, 1973.

20.

Candia

, Reinach

, Alvarez

Amphotericin B-induced active transport of K⁺ and the Na⁺-K⁺ flux ratio in frog corneal epithelium. Am J Physiol 247: C454–C461, 1984.

21.

Carrasquer

, Wu

, Kissel

, Rehm

, Schwartz

, Dinno

. Microelectrode studies of amphotericin B on Na and K conductance in bullfrog comea. Biochim Biophys Acta 982: 73–78, 1989.

22.

Ussing

, Zehran

Active transport of sodium as the source of electric current in the short-circuited isolated frog skin. Acta Physiol Scand 23: 110–127, 1951.

Effect of Pentachlorophenol (Pcp) on Frog Cornea Epithelium (44436)

Abstract

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References