[Regularities of endogenous lipid metabolites formation in phorbol 12-miristate 13-acetate-stimulated peripheral blood lymphocytes at leukemia].

Regularities of biologically active lipid metabolites formation in dynamics (5, 10, 30, 60 s) by phorbol 12-miristate 13-acetate stimulation in [14C]palmitic acid have been investigated in normal and leukemia peripheral blood lymphocytes prelabeled with [14C]palmitate. In normal cells there was two-phase formation of 1,2-diacylglycerol (5, 30 s), lysophosphatidylcholine (10, 60 s), as well as free palmitic acid at 10 s of stimulation. Under the identical experimental conditions there was inhibition of investigated lipid release processes at early (5 and 10 s) stages of stimulation of leukemic lymphocytes. At later (30, 60 s) terms of these lymphocytes the activation, basically, similar to norm changes in the formation of palmitic acid-containing metabolites except free palmitic acid (the level of which raised only at 60 second of the post-stimulation) was found. Various protein kinases C are involved in the regulation of investigated lipid levels at certain stages of signal transduction both in norm, and in blast cells. Short-term (5, 10 s) activations of healthy donors lymphocytes are coupled to functioning of Ca2+-independent isoforms of protein kinase C. The inhibition of this protein kinase C in leukemic cells leads to normalization of the investigated lipid release. The data obtained suggests disorders of early membrane-bound reactions in agonist - and a protein kinase C-mediated processes of formation palmitic acid-containing lipid metabolites in the leukemic cells in comparison with the norm.

[Structural organization of a hexamer of glutamate dehydrogenase. 3. Effect of the coenzyme and substrate on the urea-induced dissociation and inactivation of the hexamer]. / Strukturnaia organizatsiia geksamera glutamatdegidrogenazy. 3. Vliianie kofermenta i substrata na indutsiruemye mochevinoi dissotsiatsiiu i inaktivatsiiu geksamera.

Effects of coenzyme (NADH) and substrate (2-oxoglutarate) on the urea-induced dissociation and inactivation of immobilized phosphopyridoxyl derivative of bovine liver glutamate dehydrogenase (L-glutamate-NAD(P)-oxidoreductase, EC 1.4.1.3) have been studied. Urea at concentration 3.0 to 4.0 M in the presence of NADH induced dissociation of the enzyme's hexamer to catalytically inactive immobilized dimer. In the presence of both NADH and 2-oxoglutarate at the urea concentration 1.0 to 2.0 M the hexamer dissociated to the conformationally stable immobilized trimer possessing 60% catalytic activity of the hexamer. Studies of regulatory properties of the immobilized trimer showed that the allosteric inhibition of glutamate dehydrogenase by GTP was realized on the level of trimers, where the subunits interact through identical heterological contacts.

[Structural organization of glutamate dehydrogenase hexamer. 1. Immobilization on sepharose as a model for analysis of structural-functional characteristics of the enzyme]. / Strukturnaia organizatsiia geksamera glutamatdegidrogenazy. 1. Immobilizatsiia na sefaroze s tsel'iu polucheniia modeli dlia izucheniia strukturno-funktsional'nykh osobennostei fermenta.

Bovine liver glutamate dehydrogenase (L-glutamate-NAD(P)-oxidoreductase, EC 1.4.1.3) and its radioactive phosphopyridoxyl derivative were covalently immobilized on Sepharose CL-4B with different degrees of cyanogen bromide activation. The catalytical and regulatory properties of the immobilized samples of the enzymes were studied. It was shown that the enzymes were immobilized through a single subunit of hexamer when sepharose was activated by small amounts of cyanogen bromide (less than 5 mg per 1 ml of gel). In this case, the immobilization did not alter the catalytical and regulatory properties of glutamate dehydrogenase. The immobilized radioactive phosphopyridoxyl derivative of glutamate dehydrogenase completely imitated the immobilized native enzyme and can be used as a convenient model for structural and functional investigation of catalytically active hexamer of glutamate dehydrogenase.

[Structural organization of glutamate dehydrogenase. 2. Inactivation and dissociation of immobilized hexamer induced by urea]. / Strukturnaia organizatsiia geksamera glutamatdegidrogenazy. 2. Izuchenie inaktivatsii i dissotsiatsii immobilizovannogo geksamera pod vliianiem mocheviny.

The urea-induced inactivation and dissociation of catalytically active hexamer of glutamate dehydrogenase (L-glutamate-NAD(P)-oxidoreductase, EC 1.4.1.3) from bovine liver were studied using radioactive phosphopyridoxyl derivative of the enzyme immobilized on cyanogen bromide-activated Sepharose CL-4B. It is shown that at neutral pH (7.0-7.8) urea causes dissociation of glutamate dehydrogenase to directly yield catalytically inactive immobilized monomers rather than hexamer's stable fragments at the same time. At pH 8.9 or 5.6 the urea-induced is accompanied by the formation of conformationally stable immobilized dimers or trimers, respectively. The trimers are catalytically active, whereas the dimers did not exhibit any enzymatic activity. The data obtained led to suggestion that the hexamer consists of three either equivalent dimers (3 alpha 2) or of two equivalent trimers (2 alpha 3).

[Purification of glutamate dehydrogenase from the rabbit liver and study of its major physico-chemical properties]. / Ochistka glutamatdegidrogenazy pecheni krolika i izuchenie osnovnykh fiziko-khimicheskikh svoistv.

Highly purified preparations of glutamate dehydrogenase were obtained from mitochondrial and cytoplasmic fractions of rabbit liver by affinity chromatography on CL-Sepharose 4B modified by adenosine diphosphate. Some physico-chemical properties of the purified enzymes (e. g., specific activity, molecular weight, quaternary structure, stability against denaturating effect of urea, pH optimum of catalyzed reactions, Km values for substrates and coenzymes) were found to be identical. The sole difference was detected in the ability of enzyme preparations to be activated by adenosine diphosphate. The activation of the cytoplasmic enzyme is 160%, that of mitochondrial glutamate dehydrogenase is 230-240% under the same conditions.

[Alliinase: purification and chief physico-chemical properties]. / Alliinase: ochistka i osnovnye fiziko-khimicheskie svoistva.

A method has been developed for the purification of alliinase from garlic bulbs. High purity preparations of the enzyme were obtained with specific activity increased 67-fold over that of the homogenate. The preparations were homogeneous on electrophoresis in polyacril gel. Total activity yield was 25%. The native enzyme has a molecular weight of 130.000 and consists of two subunits. Approximately 6 moles of firmly bound pyridoxal phosphate are determined per 1 mole of the purest enzyme (4 equivalents are apparently bound non-specifically outside the active sites). The isoelectric point (pI) of alliinase in 6.2. The enzyme's absorption and circular dichroism spectra have one maximum at 430 nm, in the characteristic range of many pyridoxal-P-containing enzymes. The Km value for the natural substrate, alliin, is 5 . 10(-4) M.