R. S. Fadeev

Who Is Mr. HAMLET? Interaction of Human α-Lactalbumin with Monomeric Oleic Acid

A specific state of the human milk Ca(2+) binding protein alpha-lactalbumin (hLA) complexed with oleic acid (OA) prepared using an OA-pretreated ion-exchange column (HAMLET) triggers several cell death pathways in various tumor cells. The possibility of preparing a hLA-OA complex with structural and cytotoxic properties similar to those of the HAMLET but under solution conditions has been explored. The complex was formed by titration of hLA by OA at pH 8.3 up to OA critical micelle concentration. We have shown that complex formation strongly depends on calcium, ionic strength, and temperature; the optimal conditions were established. The spectrofluorimetrically estimated number of OA molecules irreversibly bound per hLA molecule (after dialysis of the OA-loaded preparation against water followed by lyophilization) depends upon temperature: 2.9 at 17 degrees C (native apo-hLA; resulting complex referred to as LA-OA-17 state) and 9 at 45 degrees C (thermally unfolded apo-hLA; LA-OA-45). Intrinsic tryptophan fluorescence measurements revealed substantially decreased thermal stability of Ca(2+)-free forms of HAMLET, LA-OA-45, and OA-saturated protein. The irreversibly bound OA does not affect the Ca(2+) association constant of the protein. Phase plot analysis of fluorimetric and CD data indicates that the OA binding process involves several hLA intermediates. The effective pseudoequilibrium OA association constants for Ca(2+)-free hLA were estimated. The far-UV CD spectra of Ca(2+)-free hLA show that all OA-bound forms of the protein are characterized by elevated content of alpha-helical structure. The various hLA-OA complexes possess similar cytotoxic activities against human epidermoid larynx carcinoma cells. Overall, the LA-OA-45 complex possesses physicochemical, structural, and cytotoxic properties closely resembling those of HAMLET. The fact that the HAMLET-like complex can be formed in aqueous solution makes the process of its preparation more transparent and controllable, opening up opportunities for formation of active complexes with specific properties.

Oleic acid is a key cytotoxic component of HAMLET-like complexes

Abstract HAMLET is a complex of α-lactalbumin (α-LA) with oleic acid (OA) that selectively kills tumor cells and Streptococcus pneumoniae. To assess the contribution of the proteinaceous component to cytotoxicity of HAMLET, OA complexes with proteins structurally and functionally distinct from α-LA were prepared. Similar to HAMLET, the OA complexes with bovine β-lactoglobulin (bLG) and pike parvalbumin (pPA) (bLG-OA-45 and pPA-OA-45, respectively) induced S. pneumoniae D39 cell death. The activation mechanisms of S. pneumoniae death for these complexes were analogous to those for HAMLET, and the cytotoxicity of the complexes increased with OA content in the preparations. The half-maximal inhibitory concentration for HEp-2 cells linearly decreased with rise in OA content in the preparations, and OA concentration in the preparations causing HEp-2 cell death was close to the cytotoxicity of OA alone. Hence, the cytotoxic action of these complexes against HEp-2 cells is induced mostly by OA. Thermal stabilization of bLG upon association with OA implies that cytotoxicity of bLG-OA-45 complex cannot be ascribed to molten globule-like conformation of the protein component. Overall, the proteinaceous component of HAMLET-like complexes studied is not a prerequisite for their activity; the cytotoxicity of these complexes is mostly due to the action of OA.

Rapid fluorescent visualization of multiple NAD(P)H oxidoreductases in homogenate, permeabilized cells, and tissue slices.

Intracellular NAD(P)H oxidoreductases are a class of diverse enzymes that are the key players in a number of vital processes. The method we present and validate here is based on the ability of many NAD(P)H oxidoreductases to reduce the superoxide probe lucigenin, which is structurally similar to flavins, to its highly fluorescent water-insoluble derivative dimethylbiacridene. Two modifications of the method are proposed: (i) an express method for tissue homogenate and permeabilized cells in suspensions and (ii) a standard procedure for cells in culture and acute thin tissue slices. The method allows one to assess, visualize, and localize, using fluorescent markers of cellular compartments, multiple NADH and NADPH oxidoreductase activities. The application of selective inhibitors (e.g., VAS2870, a NOX2 inhibitor; plumbagin, a NOX4 inhibitor) allows one to distinguish and compare specific NAD(P)H oxidoreductase activities in cells and tissues and to attribute them to known enzymes. The method is simple, rapid, and flexible. It can be easily adapted to a variety of tasks. It will be useful for investigations of the role of various NAD(P)H oxidoreductases in a number of physiological and pathophysiological processes.

Study of cytotoxicity of fullerene C60 derivatives

We investigated the cytotoxicity of the fullerene C60 derivatives. We showed that complexes of C60 fullerene with polyvinylpyrrolidone (m.w. of polyvinylpyrrolidone 10000 and 25000), C60-NO2-proline and C60-alanine had no toxic effect on HEp-2 cells. Sodium salt of polycarboxylic derivative of fullerene C60 exerted a pronounced toxic effect on this cell culture.

Smooth muscle titin forms in vitro amyloid aggregates

Amyloids are insoluble fibrous protein aggregates, and their accumulation is associated with amyloidosis and many neurodegenerative diseases, including Alzheimers disease. In the present study, we report that smooth muscle titin (SMT; 500 kDa) from chicken gizzard forms amyloid aggregates in vitro. This conclusion is supported by EM data, fluorescence analysis using thioflavin T (ThT), Congo red (CR) spectroscopy and X-ray diffraction. Our dynamic light scattering (DLS) data show that titin forms in vitro amyloid aggregates with a hydrodynamic radius (Rh) of approximately 700–4500 nm. The initial titin aggregates with Rh approximately 700 nm were observed beyond first 20 min its aggregation that shows a high rate of amyloid formation by this protein. We also showed using confocal microscopy the cytotoxic effect of SMT amyloid aggregates on smooth muscle cells from bovine aorta. This effect involves the disorganization of the actin cytoskeleton and result is cell damage. Cumulatively, our results indicate that titin may be involved in generation of amyloidosis in smooth muscles.

[Increase in resistance of A431 cancer cells to TRAIL-induced apoptosis in confluent cultures].

It was shown that cancer cells acquired resistance to TRAIL-induced apoptosis in confluent cultures. Recombinant protein izTRAIL induced apoptosis of human carcinoma A431 cells in the first hours after cell plating at a concentration of 3–10 ng/mL, while in confluent cultures these cells acquire resistance to protein izTRAIL even at the concentration of 2 μg/mL. Detachment and suspending of the cells of confluent cultures immediately suppressed the resistance to izTRAIL. The cells of confluent cultures, being resistant to TRAIL-induced apoptosis continue progression through the cell cycle, as evidenced by the DNA cytograms and the Ki67p-GFP reporter system. Thus, the results showed that tumor A431 cells can acquire resistance to TRAIL-induced apoptosis in confluent cultures, while continue progression through the cell cycle, keeping the proliferative potential.

Cell Aggregation Increases Drug Resistance of Acute Myeloid Leukemia Cells

One of the major causes of low efficiency of the therapy for acute myeloid leukemia is drug resistance of leukemic cells. Microenvironment plays a key role in formation of the phenotype of leukemic cell drug resistance. Investigation of the mechanisms of microenvironment-mediated drug resistance is important to identify novel pharmacological targets for the acute myeloid leukemia therapy. We studied the role of cell aggregation in the drug resistance of leukemic cells. We showed the increased resistance of acute myeloid leukemia cells THP-1 to bortezomib, doxorubicin and fludarabine in multicellular aggregates. In the multicellular aggregates of THP-1 with the higher drug resistance, cell proliferation activity did not change, while the intracellular level of anti-apoptotic protein Bcl-2 increased. Inhibition of the aggregation of THP-1 cells prevented drug resistance. This work demonstrates the involvement of cell aggregation in the formation of drug resistance phenotype in leukemic cells.

Resistance of cancer cells to the TRAIL-induced apoptosis in confluent cultures

TRAIL (TNF-alpha Related Apoptosis-Inducing Ligand) is an attractive candidate for anticancer therapy. TRAIL selectively kills tumor cells, without damaging normal cells. It is known that cancer cells can acquire resistance to chemotherapeutic drugs, oxidative stress in high density culture. This phenomenon appears as a multi-cell resistance, cell adhesion-dependent resistance, or density-dependent resistance of tumor cells. However, it is unclear whether such resistance appears in TRAIL-induced apoptosis. We observed that the resistance to izTRAIL of all tumor cell lines used was considerably increased in confluent cultures. The increase in tumor cell resistance in dense populations is not related to their proliferative status. It was shown that the dissociation of calcium-dependent cell-cell contacts with EGTA did not suppress tumor cell resistance to izTRAIL in confluent cultures. This phenomenon of cancer cells resistance to TRAIL-induced apoptosis should be considered in the development of methods of anticancer therapy.

Substrate-specific reduction of tetrazolium salts by isolated mitochondria, tissues, and leukocytes

Tetrazolium salts are commonly used in cytochemical and biochemical studies as indicators of metabolic activity of cells. Formazans, formed by reduction of tetrazolium salts, behave as pseudo-solutions during initial incubation, which allows monitoring their optical density throughout incubation. The criteria and conditions for measuring oxidative activity of mitochondria and dehydrogenase activity in reduction of nitroblue tetrazolium (NBT) and methyl thiazolyl tetrazolium (MTT) in suspensions of isolated mitochondria, tissue homogenates, and leukocytes were investigated in this work. We found that the reduction of these two acceptors depended on the oxidized substrate–NBT was reduced more readily during succinate oxidation, while MTT–during oxidation of NAD-dependent substrates. Reduction of both acceptors was more sensitive to dehydrogenase inhibitors that to respiratory chain inhibitors. The reduction of NBT in isolated mitochondria, in leukocytes in the presence of digitonin, and in liver and kidney homogenates was completely blocked by succinate dehydrogenase inhibitors–malonate and TTFA. Based on these criteria, activation of succinate oxidation was revealed from the increase in malonate-sensitive fraction of the reduced NBT under physiological stress. The effect of progesterone and its synthetic analogs on oxidation of NAD-dependent substrates by mitochondria was investigated using MTT. Both acceptors are also reduced by superoxide anion; the impact of this reaction is negligible or completely absent under physiological conditions, but can become detectable on generation of superoxide induced by inhibitors of individual enzyme complexes or in the case of mitochondrial dysfunction. The results indicate that the recording of optical density of reduced NBT and MTT is a highly sensitive method for evaluation of metabolic activity of mitochondria applicable for different incubation conditions, it offers certain advantages in comparison with other methods (simultaneous incubation of a large set of probes in spectral cuvettes or plates); moreover, it allows determination of activity of separate redox-dependent enzymes when selective inhibitors are available.

Multikinase inhibitor sorafenib and HDAC inhibitor suberoylanilide hydroxamic acid suppress confluent resistance of cancer cells to recombinant protein izTRAIL

Suppression of human tumor cell resistance to TRAIL-induced apoptosis in confluent cultures, using molecular target drugs (sorafenib and SAHA) at non-toxic concentrations was studied. Sorafenib, a multikinase inhibitor, and SAHA, an inhibitor of histone deacetylase, effectively suppressed resistance of confluent human cells derived from the skin carcinoma (A431 cell line) and fibrosarcoma (HT-1080 cell line). The effectiveness of suppression of confluent resistance with these inhibitors for human carcinoma A431 cells was significantly higher than that for the human ovarian carcinoma OVCAR-3 cells. For all cell lines studied, suppression of confluent resistance with SAHA was more effective than when sorafenib was used. The possible reason for increasing tumor cell resistance in confluent cultures and the importance of this phenomenon for understanding drug resistance of cells in the tumor tissue are discussed.