Calix[4]arene C-90 and its analogs activate ATPase of the myometrium myosin subfragment-1.

Numerous female reproductive abnormalities are consequences of disorders in uterus smooth muscle (myometrium) contractile function. In this work, we described activators of ATPase, which could be used for development of effective treatments for correcting this dysfunction. Myosin ATPase localized in the catalytic domain of myosin subfragment-1 transforms a chemical energy deposited in macroergic bonds of ATP into mechanical movement. It was shown that сalix[4]arene C-90 and its structural analogs functionalized at the upper rim of macrocycle with four or at least two N-phenylsulfonуltrifluoroacetamidine groups, are able to activate ATP hydrolysis catalyzed by myometrium myosin subfragment-1. It was shown with the method of computer modeling that N-phenylsulfonуltrifluoroacetamidine groups of calix[4]arene C-90 interact with responsible for binding, coordination and the hydrolysis of ATP amino acid residues of myosin subfragment-1. The results can be used for further research aimed at using calix[4]arene C-90 and its analogs as pharmacological compounds that can effectively normalize myometrium contractile hypofunction.

[Protective effect of tiacalix[4]arene-tetrasulphonate on heavy metal inhibition of myometrium myosin subfragment-1 ATP-hydrolase activity].

Heavy metals have a negative effect on the contractility of uterine smooth muscles (myometrium), these effects can lead to various pathologies of a women reproductive system. To overcome these effects the methods for correcting the myometrium contractile activity are to be developed. Catalyzed by myosin ATPase ATP hydrolysis is the most important reaction in the molecular mechanism of myometrium contraction. We have found an inhibitory effect of 0.03-0.3 mM Ni2+, Pb2+ and Cd2+ on enzymatic hydrolysis of ATP by myosin subfragment-1 obtained from swine uterine smooth muscles. We have demonstrated that 100 µM thiacalix[4]arene-tetrasulphonate (C-798) recovered to the control level of ATPase activity of myosin subfragment-1 in the presence of heavy metal cations. One of the most probable mechanisms of C-798 corrective activity is based on its ability to chelate heavy metals, thus cations Pb, Cd and Ni can be removed from the incubation medium. Computer simulation has demonstrated that the protective effect of C-798 may also be the result of weakening the interaction of heavy metal ions with amino acid residues of the myosin molecule near the active site of ATP hydrolase. The obtained results can be used for further research aimed at assessing the prospects of thiacalix[4]arene-tetrasulfonate as pharmacological compounds.

[The calix[4]arene C-107 is highly effective supramolecular inhibitor of the Na+,K(+)-ATPase of plasma membranes].

The inhibition of the Na+,K(+)-ATPase activity of the myometrium cell plasma membranes with calixarene C-107 (5,17-diamino(2-pyridyl) methylphosphono-11,23-di-tret-butyl-26,28-dihydroxy-25,27-dipropoxycalix[4]arene) was investigated. It has been shown that calixarene C-107 reduced the Na+,K(+)-ATPase activity more efficiently than ouabain did, while it did not practically influence the "basal" Mg(2+)-ATPase activity of the same membrane. The magnitude of the cofficient of inhibition I0.5 was 33 +/- 4 nM, Hill coefficient was 0.38 +/- 0.06. The model calixarene C-150--the calixarene "scaffold" (26,28-dihydroxy-25,27-dipropoxycalix[4]arene), and the model compound M-3 (4-hydroxyaniline(2-pyridine)methylphosphonic acid)--a fragment of the calixarene C-107, had practically no influence on the enzymatic activity of Na+,K(+)-ATPase and Mg(2+)-ATPase. We carried out the computer simulation of interaction of calixarenes C-107 and the mentioned model compound with ligand binding sites of the Na+,K(+)-ATPase of plasma membrane and structure foundation of their intermolecular interaction was found out. The participation of hydrogen, hydrophobic, electrostatic and pi-pi (stacking) interaction between calixarene and enzyme aminoacid residues, some of which are located near the active center of Na+,K(+)-ATPase, was discussed.

[Structural and functional bases of the intermolecular interaction of calix[4]arene C-97 with myosin subfragment-1 of myometrium].

Calix[4]arene C-97 (code is shown) is the macrocyclic compound which has lipophilic intramolecular higly-structured cavity formed by four aromatic cycles, one of which on the upper rim is modified by methylene bisphosphonic group. It was shown that calix[4]arene C-97 (100 microM) efficiently inhibits ATPase activity of myosin subfragment-1 from pig myometrium, the inhibition coefficient I(0.5) being 83 +/- 7 microM. At the same time, this compound at 100 microM concentration significantly increases the effective hydrodynamic diameter of myosin subfragment-1, that may be indicative of intermolecular complexation between the calix[4]arene and myosin head. Computer simulation methods (docking, molecular dynamics, involving the Grid) have been used to clarify structural basis of the intermolecular interaction of calix[4]arene C-97 with myosin subfragment-1 of the myometrium; participation of hydrophobic, electrostatic and pi-pi (stacking) interactions between calix[4]arene C-97 and amino acid residues of myosin subfragment-1, some of them being located near the active site of the ATPase has been found out.

[Computer modeling of interaction of calix[4]arene C-99 with subfragment-1 of myometrium myosin].

In this work the computer design of interaction of calix[4]aren C-99 with a substrate-binding center of a functionally active area of a subfragment-1 myosin of the myometrium is carried out. It is shown when using methodology of molecular docking the receipt of ligand-receptor complexes which have geometry concerted with experimental data is possible. The cross-coupling of ATP and calix[4]aren C-99 on their orientation in ligand-binding center of subfragment-1 myosin of myometrium has been studied.

[Kinetic regularities and mechanisms of action of calix[4]arene C-99 on ATPase activity of myosin subfragment-1 of myometrium].

It has been shown that calix[4]arene C-99 inhibited myosin subfragment-1 ATPase of myometrium. This inhibition is noncompetitive as to ATP and Mg2+. At the same time, this compound reduces the seeming enzymatic hydrolysis maximum rate of nucleoside triphosphate with respect to ATP and Mg2+. With the help of computer design the interaction of mentioned calix[4]arene with myosin subfragment-1 of myometrium has been investigated. Several mechanisms involved in the calix[4]arene C-99 inhibition of myosin head ATPase were supposed and participation of hydrogen, hydrophobic and electrostatic interactions in these mechanisms was discussed.

[Ca2+/H+ exchange through plasma membrane in the system of transport of calcium and hydrogen ions]. / Ca2+/H+ obmin kriz' plazmatychnu membranu v systemi mekhnizmiv transportuvannia ioniv Ca ta vodniu.

The survey is aimed to review the data from literature, concerning possible mechanisms of Ca2+ and H+ transport through the plasma membrane of a cells, and also possibility of existence of Ca2+/H(+)-exchange in the plasma membrane of the muscle cells. It is known that the modification of pHl (delta pH) also can influence the work of the contractile system of muscle cells, and the transition of Ca2+ through the plasma membrane of the cells. Thus, one can suppose a direct relation between Ca2+ and H+ transport, through Ca2+/H+ exchange, and indirect relation through connection with other systems of transport of both Ca2+ (Ca(2+)-ATPase, Na+/Ca2+ exchange), and H+ (Na+/H(+)-exchange, H(+)-ATPase). For example it is shown, that the activator (inhibitor) of the Na+/H(+)-exchange through the plasma membrane of muscle cells, influence the work of the retractive system. And as is known, Ca2+ takes main part in involvement in the system excitation--contraction, and, thus, influencing the work of the Na+/H(+)-exchange, it is possible to regulate transport of Ca2+ through the plasma membrane of a muscle cell. The problem about a possibility of existence of Ca2+/H+ exchange, or functioning of Ca2+/H(+)-exchanger, is still far from the solution. Therefore, in the given review the attempt is made to analyze available information about possible connection between Ca2+ and H+ transport through the plasma cell membrane.

[Thermobiosensors: features of design and function and prospects for their use]. / Termobiosensory: osoblyvosti konstruktsiï i funktsionuvannia ta perspektyva praktychnoho vykorystannia ïkh.

Thermobiosensors are biosensors, which utilize thermal sensors (thermistors, thermocouple) for measuring changes of heat arising during ferment, immune or metabolic reactions. Thermosensors apply to an estimation of a condition of ferment systems, interactions of immune components, kinetics of a biocatalysis, and also for application in biochemical diagnostics, at definition of quality of products, monitoring of an environment and control of biotechnological processes. In the review the data, concerning of the major principle of development and creation mini- and microthermobiosensors, are given on the basis of modern achievement in the field of technology of micromanufacturing. The various types mini-, micro- and multithermobiosensors, and also their application in separate areas of the biochemical and clinical analysis and monitoring of an environment are surveyed. The development and modern achievement in creation of separate variants thermosensors is in detail described on the basis of thermistors and thermocouples. The place thermosensors in general development of biosensor controls is allocated and the attention to prospect of their further improvement and application is given.

[Effect of H+ extracellular and intracellular buffering capacity on the activity Ca2+/H+ exchange in the lymphocyte plasma membrane]. / Vplyv pozaklitynnoï i vnutrishn'oklitynnoï bufernoï iemnosti dlia H+ na Ca2+/H+ obmin u plazmatychnii membrani limfotsytiv.

Formation of delta pH is registered when studying Ca2+ passive transport through lymphocytes' plasma membrane (PM). The pHi values strongly depended on pH0. Changes of pH0 lead to unidirectional changes of pHi and affect Ca2+ concentration in cytoplasm of the intact cells. The presence of Ca(2+)-channels antagonists does not affect this phenomenon. Ca2+/H+ exchange is supposed to exist in PM. It is also of great interest that cytoplasmic Ca2+ and H+ activities are some equal in physiological range. Besides, H(+)-buffering as well as Ca(2+)-buffering systems are present in the cell and have their maximal capacity about 7.2 in the intact cells. The spectrofluorimetric study of internal lymphocytes' H(+)-buffering capacity with titration technique using weak base, acid or other buffer addition has demonstrated maximal value of 9.0-1.1 mM depending on the substance to be added.