Peter Proks

The effect of intracellular pH on ATP-sensitive k⁺ channels in isolated mouse pancreatic β-cells

Journal of Physiology 467 (1993)

Authors:

P Proks, M Takano, FM Ashcroft

Modification of K-ATP channels in pancreatic beta-cells by trypsin.

Pflugers Archiv : European journal of physiology 424:1 (1993) 63-72

Authors:

P Proks, FM Ashcroft

Abstract:

The inside-out configuration of the patch-clamp method was used to study the effects of trypsin on the activity of ATP-sensitive potassium (K-ATP) channels from isolated mouse pancreatic beta-cells. Trypsin (20 micrograms/ml) irreversibly enhanced channel activity around twofold by reducing the interburst intervals without altering the burst kinetics. No effect on the single channel conductance or the inward rectification produced by internal Mg2+ was observed: however, the protease did reduce the inhibitory effect of Mg2+ on channel activity. Trypsin both prevented rundown of K-ATP channel activity and reactivated the channels after complete rundown. These effects of trypsin were absent in the presence of trypsin inhibitor. The protease also reduced the inhibitory effect of ATP on channel activity, increasing the dissociation constant from 7 to 49 microM. Trypsin removed the activating effect of ADP (0.1 mmol/l) on channel activity and reduced the inhibitory effect of tolbutamide (0.5 mmol/l). Carboxypeptidase A did not activate K-ATP channels in excised patches, although it was able to slightly reactivate channels after complete rundown, whereas chymotrypsin increased K-ATP channel activity but it did not produce reactivation. The effects of papain were similar to those of trypsin.

Comparison of 9-aminoacridine and atebrine induced changes in optical, electrical and mechanical characteristics of lipid bilayers.

General physiology and biophysics 11:5 (1992) 441-458

Authors:

P Proks, T Hianik, P Kvasnicka

Abstract:

The effects of fluorescent probes 9-aminoacridine (9AA) and atebrine (AT) on physical properties of liposomes and planar bilayer lipid membranes (BLM) were studied. The method of fluorescence spectroscopy and the electrostriction method based on measurement of higher current harmonics were used. At low concentrations (10(-5)-5 x 10(-5) mol/l), 9AA increased fluorescence intensity, while in liposomes from soybean phosphatidylcholine fluorescence quenching occurred at higher probe concentration. Fluorescence quenching occurred over the entire concentration range tested (10(-5)-10(-4) mol/l) in liposomes made from a mixture of egg phosphatidylcholine and cardiolipin. In contrast to 9AA, AT, thanks to its hydrophobic chain, penetrates deeper into the hydrophobic membrane moiety; thus, immobilization of the molecule and an increase in fluorescence intensity was always observed. Probes adsorbed to membranes, leaving their electric capacitance effectively unchanged. Adsorption of charged dye particles induced small changes in transmembrane potential. In the presence of 10(-5) mol/l AT, the modulus of elasticity E perpendicular increased somewhat for soft membranes (E perpendicular approximately 2.5 x 10(7) Pa), whereas it decreased for hard membranes (E perpendicular approximately 5 x 10(7) Pa). pH gradient present on the membrane affected the ability of the dyes to incorporate into the membranes. Our results provide evidence against the proposed model of the quenching mechanism introduced by Rottenberg and Lee (1975).

Low-conductance chloride channel from crayfish skeletal muscle incorporated into planar lipid bilayers.

General physiology and biophysics 10:6 (1991) 537-548

Authors:

P Proks, O Hurnák, J Zachar

Abstract:

Low-conductance chloride channel from skeletal muscle SR vesicles of the crayfish Astacus fluviatilis was incorporated into planar lipid bilayers and its basic characteristics were investigated. The channel has a relatively low unitary conductance of 26 pS in symmetrical 160 mmol/l choline-chloride. The dependence of the channel conductance on Cl- concentration shows saturating behavior with a maximum conductance of 37 pS and an ionic activity for half-maximum conductance Km = 75 mmol/l. The channel exhibits a complex kinetics with several modes of activity. Open state probability slightly decreases with the increasing absolute value of voltage. The channel activity does not appear to be dependent on the presence of Ca2+ ions. The channel is effectively inhibited by DIDS, a stilbene derivative. The permeability properties of the channel are similar to the specific behavior of the "double-barrelled" channel from Torpedo electroplax described by Miller and White (1984).

Merocyanin 540 fluorescent probe-induced changes in mechanical and electrical characteristics of lipid bilayers

Bioelectrochemistry Elsevier 26:3 (1991) 493-499

Authors:

P Proks, T Hianik