Effect of antibodies against mitochondrial K+-transporting protein on K+ transport in rat liver mitochondria

The K+ transport in rat liver mitochondria was studied by the immunochemical method. Antibodies to mitochondrial K+-transporting protein with molecular weight 60 kDa were obtained and used as possible inhibitor or K+ transport. Antibodies depressed the DNP-induced K+ efflux and energy-dependent swelling by 50% without causing changes in respiration and oxidative phosphorylation.     

The role of membrane-bound heat shock Hsp90 proteins in the migration of tumor cells in vitro and the involvement of cell surface heparan sulfate proteoglycans in protein binding to the plasma membrane

The heat-shock protein Hsp90, which is found in the extracellular space and on the cell membrane, plays an important role in cell motility, migration, invasion, and metastasis of tumor cells. Currently, the functional role and molecular mechanisms of Hsp90 binding to the plasma membrane are not clear. Using isoform-specific antibodies against Hsp90, Hsp90α, and Hsp90β, we showed that the membrane-bound Hsp90α and Hsp90β proteins play a significant role in the migration of human fibrosarcoma (HT1080) and glioblastoma (A-172) cells in vitro. Impairment of sulfonation of cellular heparan sulfates, cleavage of cellular heparan sulfates by heparinase I/III, as well as the treatment of cells with heparin, lead to a dramatic reduction in the expression levels of the Hsp90 isoforms. Furthermore, heparin significantly inhibits tumor cell migration. These results demonstrate that two isoforms of membrane-bound Hsp90 are involved in tumor-cell migration in vitro. As well, the cell surface heparan sulfate proteoglycans are shown to play a pivotal role in the “anchoring” of Hsp90α and Hsp90β to the plasma membrane.     

Inhibition of 2,4-dinitrophenol-induced potassium efflux by adenine nucleotides in mitochondria

The influence of nucleotides on 2,4-dinitrophenol (DNP)-induced K+ efflux from intact rat liver mitochondria has been studied. ATP and ADP at micromolar concentrations were found to inhibit mitochondrial potassium transport, whereas GTP, GDP, CTP, and UTP did not show tha same effect. The values of half-maximal inhibition (IC50) were approximately 20 microM for ATP and approximately 60 microM for ADP. It is suggested that adenine nucleotides exert their inhibitory action at the matrix side of the inner mitochondrial membrane since the inhibitor of adenine nucleotide translocase atractyloside at concentration of 1 microM completely removed the inhibitory effect of ATP and ADP. The mitochondrial ATPase inhibitor oligomycin (2 microg/ml) was found to reduce slightly the rate of DNP-induced K+ efflux and had no effect on inhibition by adenine nucleotides; the latter was insensitive to Mg2+ and the changes in pH. It seems likely that the regulation of potassium transport is not due to phosphorylation of the channel-forming protein but to binding of the nucleotides in specific regulatory sites. The possibility of potassium efflux from mitochondria in the presence of uncoupler via the ATP-dependent potassium channel is discussed.     

Thermodynamic behaviour and conformational changes of alcohol oxidase of yeasts Hansenula polymorpha

We studied influence of heating, ethanol and sodium azide on the structural and conformational changes of the alcohol oxidase from yeast Hansenula polymorpha. The increase of fluorescence of alcohol oxidase -cofactor, flavin adenine dinucleotide, was revealed when heated to 60 degrees C while the enzymatic activity of alcohol oxidase remained unchanged. Differential scanning microcalorimetry revealed that ethanol stabilized the protein structure and increased the temperature of melting, Based on the data of circular dichroism, we concluded that the percentage of helicities in the secondary structure of alcohol oxidase was not influenced by both ethanol and sodium azide, however ethanol significantly modified the circular dichroism spectrum associated with the tertiary structure of alcohol oxidase.     

Functional distinctions between the mitochondrial ATP-dependent K+ channel (mitoKATP) and its inward rectifier subunit (mitoKIR)

The ATP-sensitive potassium channel from the inner mitochondrial membrane (mitoK(ATP)) is a highly selective conductor of K(+) ions. When isolated in the presence of nonionic detergent and reconstituted in liposomes, mitoK(ATP) is inhibited with high affinity by ATP (K((1/2)) = 20-30 microM). We have suggested that holo-mitoK(ATP) is a heteromultimer consisting of an inwardly rectifying K(+) channel (mitoKIR) and a sulfonylurea receptor (Grover, G. J., and Garlid, K. D. (2000) J. Mol. Cell. Cardiol. 32, 677-695). Here, we show that a 55-kDa protein isolated by ethanol extraction and reconstituted in bilayer lipid membranes and liposomes is the mitoKIR. This protein, which lacks the sulfonylurea receptor subunit, is inhibited with low affinity by ATP, with K(1/2) approximately 550 microM. ATP inhibition of both mitoKIR and holo-mitoK(ATP) is reversed by UDP (K((1/2))1/2 = 10-15 microM). Holo-mitoK(ATP) is and diazoxide, and the opened by cromakalim flux through the open channel is inhibited by glibenclamide and 5-hydroxydecanoate. None of these agents has any effect upon mitoKIR. We have identified two compounds that act specifically on mitoKIR. p-diethylaminoethylbenzoate reverses inhibition of mitoKIR by ATP and ADP at micromolar concentrations and also opens mitoK(ATP) in isolated mitochondria. Tetraphenylphosphonium inhibits K(+) flux through both mitoKIR and mitoK(ATP) with the same apparent affinity. These findings support the hypothesis that the 55-kDa mitoKIR is the channel component of mitoK(ATP).     

The Mechanisms of Stimulation of Migration and Invasion of Tumor Cells by Extracellular Heat Shock Protein 90 (eHsp90) in vitro

Biophysics - Extracellular heat shock protein 90 (eHsp90) plays an important role in cell motility, invasion, and metastasis of tumor cells. eHsp90 stimulates migration and invasion of cells via...     

Release of the glucose-regulated protein 94 by baby hamster kidney cells

Glucose-regulated protein 94 (grp94) is a major component of the endoplasmic reticulum (ER) lumen of eukaryotic cells. We showed that grp94 is released from baby hamster kidney (BHK-21) cells into a serum-free medium. The exit of grp94 into the medium was not related to the protein discharge due to cell death and was independent of de novo protein synthesis. The treatment of cells with brefeldin A and monensin, the inhibitors of the classical pathway of protein secretion, did not decrease the extracellular level of grp94, indicating that the discharge of grp94 from cells does not occur through the ER/Golgi-dependent pathway. Exosomes, membrane vesicles secreted by several cell types, were not involved in the release of grp94 from cells. Methyl-β-cyclodextrin, a substance that disrupts the lipid raft organization, considerably reduced the extracellular level of grp94, indicating that lipid rafts are involved in the liberation of grp94 from BHK-21 cells. The results suggest that BHK-21 cells release grp94 into the serum-free medium via the nonclassical secretory pathway in which lipid rafts play an important role. Copyright ? 2012 John Wiley & Sons, Ltd.     

Reconstitution of the Mitochondrial ATP-Dependent Potassium Channel into Bilayer Lipid Membrane1

Electrical properties and regulation of the mitochondrialATP-dependent potassium channel were studied. The channel protein wassolubilized from the mitochondrial membrane using an ethanol/water mixture.Reconstituted into a bilayer lipid membrane BLM), the protein formed aslightly voltage-dependent channel with a conductance of 10 pS in 100 mM KCl.Often, several channels worked simultaneously (clusters) when many channelswere incorporated into the BLM. The elementary channel and the clusters wereboth highly potassium selective. At concentrations of 1 to 10 M, ATPfavors channel opening, while channels become closed at 1–3 mM ATP. GDP(0.5 mM) reactivated the ATP-closed channels without affecting the untreatedchannels. The sulfhydryl-reducing agent ditiothreitol increased the openprobability at concentrations of 1 to 3 mM, but damaged the selectivity ofthe channel.     

Effects of pelargonidine and a benzocaine analogue p-diethylaminoethyl benzoate on mitochondrial K(ATP) channel.

ATP-dependent K+ (K(ATP)) channel was purified from the inner mitochondrial membrane and reconstituted into the bilayer lipid membrane. The K(ATP) activity was inhibited by high concentrations of ATP and ADP, but was activated by low concentrations (up to 200 microM) of ADP. p-Diethylaminoethyl benzoate (DEB) acted as a K(ATP) opener: at micromolar concentrations, it reversed the inhibitory effect of ATP and ADP, and also prevented K(ATP) rundown. Pelargonidine extracted from Pelargonium flowers reduced the spontaneous activity of K(ATP) channels and attenuated DEB-induced channel activation. The opposite action of DEB and pelargonidine on K(ATP) corresponded to the opposite redox properties of the two agents in reactions with free radicals: DEB behaved as an electron donor, while pelargonidine acted as an electron acceptor. We suggest that the thiol groups in mitochondrial K(ATP) are targets for redox-active ligands.     

Internalization by Cells and Antitumor Activity of Antibodies and Immunotoxins Specific for the Heat Shock Protein 90 β Isoform

Mouse monoclonal antibodies to Hsp90β (β isoform of heat shock protein 90) have been shown to bind specifically to Hsp90β localized on the surface of tumor and nontransformed cells. After binding to the membrane-associated Hsp90β, the antibodies actively dissociated into the culture medium and were also internalized by the cells. An immunoconjugate based on the Hsp90β-specific antibody and the cytotoxic agent mertansine did not have high cytotoxic activity for tumor cells in vitro. Administration of Hsp90β-specific antibodies in mice did not affect the growth of the primary Lewis lung carcinoma, while tumor metastasis to the lungs decreased and the average lifespan of mice increased. The results indicate a certain therapeutic potential of antibodies to Hsp90β for the treatment of tumor diseases.