[Effects of low power laser radiation of blue, green and red ranges on free radical processes in rat blood in endotoxic shock].

This study was performed to investigate the effects of low power laser radiation in blue (441.2 nm), green (532.5 nm) and red (632.8 nm) wavelength ranges on free radical processes in experimental endotoxic shock in rats. The experimental model was produced by intraperitoneal injection of lipopolysacharide B (25 mg/kg) (LPS). The following parameters were assayed in the study: the chemiluminescent assay (to evaluate the free radical production by blood leukocytes), nitro blue tetrazolium assay (to monitor the superoxide dismutase activity of plasma) and cis-parinaric acid fluorescence (to estimate the intensity of lipid peroxidation in erythrocyte membranes). It was found that the low power laser radiation significantly influenced all investigated processes, in animals both treated and untreated without LPS injection. The most pronounced effects were observed in all groups of animals subjected to the low power laser radiation: at the dose of 0.75 J/cm2 green laser was most effective and at the dose of 1.5 J/cm2 green and red lasers provided maximal effects. The mechanisms of the observed phenomena are discussed.

[The role of tetrapyrrol photosensitizers in photoinduced variation of free radical characteristics of rat blood in endotoxic shock].

The main goal of the present study was to evaluate the comparative effectiveness of tetrapyrrol photosensitizers (protoporphyrine IX and chlorine e6) in red (632.8 nm) and green (532.5) spectrum bands on rat blood free radical status, using the experimental model of endotoxic shock. Endotoxic shock was produced by intraperitoneal injection of lipopolysaccharide B. Irradiation effectiveness was estimated by leukocyte activation (measured with luminol-dependent chemiluminescence), superoxide dismutase activity of blood plasma (nitro blue tetrasolium assay) and lipid peroxidation (assay with cis-parinaric acid). It was found that laser irradiation has multidirectional effects on leukocyte activation, membrane lipid peroxidation and plasma SOD activity and all these effects were more pronounced in the case of endotoxic shock. Protoporphyrin was more effective in leukocyte activation and chlorine e6 demonstrated maximal effects on blood SOD activity.

[Antioxidants as aromatic amino acid oxidation products].

The accumulation of UV photolysis products of amino acids tyrosine and tryptophan, which possess an antioxidant activity, has been studied by the method of luminol-activated chemiluminescence. The amount of antioxidant products was judged by the value of the total antioxidant potential of a UV-irradiated solution, the measure of which was the distance between the peaks of the chemiluminescence curve in the system 2,2'-azo-bis(2-amidinopropane)hydrochloride + luminol in a UV-irradiated and an unirradiated samples (induction period, tau(i)). Simultaneously, the absorption and fluorescence spectra of unirradiared and UV-irradiated amino acid solutions were recorded. It was shown that, upon the exposure of a tryptophan solution to radiation, the accumulation of the fluorescent product N-formyl kynurenine (lambda(em) = 325 nm, lambda(max) = 440 nm) occures, and the curve of its accumulation was similar to the curve of growth of tau(i) photoproducts produced during UV-radiation. When a tyrosine solution was irradiated, the main fluorescent product was dityrosine (lambda(em) = 310 nm, lambda(max) = 415 nm). Nevertheless, the dose dependencies of the formation of dityrosine, and the total antioxidant potential (tau(i)) were completely different. It was found that another product of tyrosine UV-photolysis, dioxyphenylalanine, possessed a pronounced antioxidant activity. It was concluded that the main antioxidants produced under UV-irradiation of tryptophan is formyl kynurenine, and under the irradiation of tyrosine, dioxyphenylalanine.

[Role of endogenous porphyrins in the effects of low-intensity laser radiation of the red region on free radical processes in the blood of rats under experimental endotoxic shock].

The role of endogenous porphyrins in the effects of laser radiation of the red region (632.8 nm) on free radical processes in the blood of rats under endotoxic shock induced by the administration of lipopolysaccharide B (25 mg/kg) has been studied. The measurements of the functional activity of polymorphonuclear leukocytes (the method of luminol-dependent chemiluminescence), the superoxide dismutase activity of blood plasma (using nitro blue tetrazolium), and the degree of lipid oxidation of erythrocyte membranes (the method of fluorescence of cis-parinaric acid) have been carried out. It has been found that low-intensity laser radiation strongly affects all processes examined irrespective of the administration of lipopolysaccharide B. The effect of radiation was most pronounced in animals injected with the polysaccharide, the changes being dependent on the concentration of endogenous porphyrins in samples.

[Kinetic chemiluminescence as a method for the study of free radical reactions].

The review gives concepts of analysis of kinetics of complex reactions with the participation of free-radicals. The concepts are based on the comparison of the kinetic curves of the chemiluminescent reactions in the presence of a physical enhancer coumarin C-525 with the simulated kinetic functions. This method was applied to the investigation of the mechanism of a branched-chain reaction of lipid peroxidation in biological and phospholipid membranes as well as to the effect of antioxidants and determination of their activities. It was also used for studying the reaction of the formation of free radicals in the complex of cytochrome c with cardiolipin. This reaction plays a key role in the initiation of apoptosis.

[Role of endogenous porphyrins in laser therapy of experimental skin wounds].

The role of endogenous porphyrins in the effect of laser irradiation on the superoxide dismutase (SOD) activity of wound exudate and rat leukocyte activity has been studied on models of aceptic incised skin wounds. Wounds were irradiated by a He-Ne laser (632.8 nm, 1.5 J/cm2) on the 2nd, 3rd, and 4th days after the beginning of the experiment. Irradiation effects were evaluated by the SOD activity (NBT test) and the activity of leukocytes of wound exudate (as a chemiluminescent response to opsonized zymosan). It was found that in animals subjected to laser irradiation, the SOD activity sharply increased. This effect depended on endogenous porphyrin concentration and was retained throughout the experiment. The SOD activity in unirradiated animals decreased from the 2nd to the 5th day of experiment. The evaluation of the activity of wound exudate leukocytes did not reveal any distrinct dependence of the effect on the concentration of endogenous porphyrins.

[Production of reactive oxygen species by monocyte-derived macrophages from the blood of healthy donors and patients with IHD].

Production of reactive oxygen species (ROS) by macrophages from blood monocytes of healthy donors (MP(N)) and patients with IHD (MP(IHD)) before, during, and after their incubation with low-density lipoprotein (LDL) isolated from the blood plasma of healthy donors (LDL(N)) and patients with a high cholesterol level (LDL(H)) was estimated by the method of luminol-dependent and stimulated by opsonized zymosan (OZ) or phorbol-12-myristate-13-acetate (PMA) chemiluminescence (CL). Intrinsic luminol-dependent, and zymosan- or PMA-stimulated chemiluminescence of MP(IHD) have exceeded the same types of chemiluminescence of MP(N) by factors of 1.4, 1.8, 2.7, and 1.6, respectively (p < 0.05-0.01). The effect of zymosan on MP(N) and MP(IHD) was stronger than that of TPA by factors of 4.3 and 3.2, respectively, but manifested itself 2.5-3.0 times slower. LDL(N) and LDL(H) incubated with MP(N) during 15-60 min increased ROS production by a factor of 1.4 and 2.5 respectively, but influenced ROS production by MP(IHD) (as estimated by luminol-dependent chemiluminescence). Effects LDL(N) and LDL(H) on MP(IHD) were not detected at all. Repeated increase in zymosan-stimulated CL of MP(N) was also observed after their 15-180 min preincubation with LDL(N) and LDL(H) which followed after taking out LDL, washing MP(N) and adding Hanks' solution with opsonized zymosan. This increase was also stronger after MP(N) incubation with LDL(H) than after MP(N) incubation with LDL(N), and no increase was observed in experiments with MP(IHD). Thus, the results obtained by a chemiluminescent method showed that fresh macrophages from the blood of patients with IHD had higher ROS production than macrophages from healthy donors. LDL(N) and LDL(H) could exhibit primary and secondary (after preincubation) stimulating effect on CL in MP(N); but had no effect on MP(IHD). An analysis of macrophage chemiluminescence is a sensitive test for evaluation the degree of macrophage's stimulation and it may be effectively used for the dynamic control for treatment effectiveness in clinics.

[A study of the effect of low-intensity laser radiation of the blue, green, and red spectral regions on the healing of experimental skin wounds in rats].

The effect of low-intensity laser radiation of the blue (441.2 nm), green (532 nm), and red (632.8 nm) spectral regions on the healing of experimental skin wounds in rats has been studied. The effect of the traditionally applied laser radiation in the red region has been compared with the effect of laser radiation in the other spectral regions, assuming that, upon irradiation of wounds by lasers emitting in the blue and green regions, a similar effect can be achieved at lower doses. The following parameters characterizing the healing of experimental wounds were used: the functional activity of phagocytes of wound exudates, which was determined by luminol-dependent chemiluminescence, and their number; the antioxidant activity of wound exudates; and the rate of healing, which was determined as a change in the wound area. It was shown that irradiation with laser accelerated the healing of wounds in all cases. The exposure to laser radiations in the red (1.5 J/cm), blue, and green (0.75 J/cm2) spectral regions shortened the time of wound healing from 22 to 17 and 19 days, respectively. The functional activity of leukocytes after the exposure increased on day 5 after the infliction of the wound, whereas in the control it decreased. The superoxide dismutase activity increased in all experimental groups by day 5 after the operation. A maximum increase in the superoxide dismutase activity occurred after the exposure to laser radiation in the red region at a dose of 1.5 J/cm and in the blue and green spectral regions at a dose of 0.75 J/cm2.

[A comparative spin trapping study of hypobromous and hypochlorous acids interaction with tert-butyl hydroperoxide].

We have demonstrated that hypochlorite (HOCI/OCl-) and hypobromite (HOBr/OBr-) can react with tert-butyl hydroperoxide with close rate constants (k(HOCl) = 10,8 M(-1) x s(1); k(HOBr) = 8,9 M(-1) x (s(-1)). By means of the spin trap 4-pyridyl-1-oxide-N-tert-butyl nitron we have found that both reactions proceed through decomposition of tert-butyl hydroperoxide and generation of tert-butyl peroxyl (OOC(CH3)3) and tert-butoxyl (OC(CH3)3) radicals, the ratio of their the concentrations being dependent on the concentration of tert-butyl hydroperoxide. Thus, hypobromite, similar to hypochlorite, is a precursor of free radicals produced in the reaction with organic hydroperoxides. This reaction can be of great importance in the intensification of free radical processes, namely, in lipid peroxidation at the stage of chain branching.

[Lucigenin-enhanced chemiluminescence of the animal tissues].

Lucigenin-enhanced chemiluminescence (LcCL) allows one to investigate the reactions of superoxide anion radical (*O2-) generated by mitochondria and is applied to study the superoxide production in enzymatic and membrane systems by isolated mitochondria and cells, and in whole organs. The application of lucigenin-enhanced chemiluminescence to estimate the respiration of human tissues involves the use of small tissue pieces, which can be obtained, for instance, by biopsia; however, no systematic investigations have been performed on these objects. In the present paper, a comparative study of lucigenin-enhanced chemiluminescence of tissues isolated from different organs of the rat was carried out to elucidate its dependence on the extent of tissue defragmentation, storage time, and access for oxygen. It was shown that the addition of lucigenin to a piece of tissue, a suspension of fine tissue fragments, and homogenates greatly enhanced chemiluminescence, and a whole piece of tissue possessed a much lesser (by 1-1.5 order of magnitude) intensity of chemiluminescence than homogenate or gruel. In the absence of stirring of the surrounding solution, the lucigenin-enhanced chemiluminescence of tissue quickly decreased, apparently due to a decrease in the level of oxygen in the tissue, as the result of its consumption. The chemiluminescence consisted of two components: a lucigenin-dependent and lucigenin-independent one (intrinsic chemiluminescence). Thus, the tissue was a source of lucigenin-enhanced chemiluminescence, and this luminescence was observed only at a sufficient access for oxygen. The lucigenin-independent component did not practically depend on oxygen and was determined by the components coming out of the tissue into the surrounding solution. Nitric oxide (NO) inhibited chemiluminescence as its concentration increased and did not affect considerably the rate of oxygen consumption by the tissue. The results obtained allow one to conclude that lucigenin can be used as a rather effective chemiluminescent probe for the production of superoxide radicals by tissue pieces.

[Comparison of the effects of laser and light-emitting diodes on lipid peroxidation in rat wound exudate].

The effect of laser and light-emitting diode radiation on lipid peroxidation in rat wound exudate was studied with the aim to compare the efficiency of coherent laser and incoherent light-emitting diode radiations. A model of aseptic wound in rat suggested by L.I. Slutskii was used. A He-Ne laser (632 nm) and a U-332B light-emitting diode were used in this study. The intensity of lipid peroxidation was estimated by the TBA assay. The antioxidative capacity of rat wound fluid was evaluated by means of chemiluminescent assays in two model systems: a) aqueous system with ABAP and luminol and b) in phospholipid liposome suspension with Fe2+ and cumarin. It was shown that exposure of rat wounds to both laser and light-emitting diode radiation decreased the concentration of TBA products and increased the antioxidative capacity of wound exudates, compared with the control group (without irradiation). The results obtained show that exposure of wounds to both laser and light-emitting diode irradiation causes a decrease in the oxidative stress in the rat wound fluid. No significant quantitative difference between the effects of laser and light-emitting diode irradiation was found.

[A comparison of the effects of laser and light-emitting diodes on superoxide dismutase activity and nitric oxide production in rat wound fluid].

The action of laser and light-emitting diode radiation in the visible region on the content of reactive nitrogen species and activity of superoxide dismutase in rat wound fluid was studied, and efficiency of action of coherent laser and incoherent light emitting diode radiations in the red region of the spectrum on the parameters under study was compared. A model of incised aseptic wounds in rats proposed by L.I. Slutskiy was used. A He-Ne laser (632 nm) and a Y-332B light emitting diode served as radiation sources. It was shown that (1) exposure of wounds to the visible light of both laser and light-emitting diodes causes dose-dependent changes in superoxide dismutase activity and production of nitrites and (2) the radiation coherence does not play any significant role in the changes of superoxide dismutase activity or nitrogen oxide formation by wound fluid phagocytes.

[A comparative study of the effects of laser and light-emitting diode irradiation on the wound healing and functional activity of wound exudate leukocytes].

The effects of coherent He-Ne laser and non-coherent light-emitting diode radiation on rat skin wound healing and functional activity of wound excudate leukocytes were compared. A comparative pathomorphological analysis showed that the He-Ne laser and light-emitting diode irradiation stimulated the transition of the inflammatory phase of the wound healing into the reparative (proliferative) and scarring phases sequentially. It was also detected that the functional activity of leucocytes changed in a dose-dependent manner. The leukocyte activity was found to be similar in the groups with laser and light-emitting diode irradiation. Thus, we can conclude that coherent laser and non-coherent light-emitting diode radiation have very close effects on wound healing and activity of wound exudate leukocytes, and coherence is not required for this activity.

[The role of blood plasma porphyrins in the effects of He-Ne-laser on human leukocytes].

The He-Ne-laser induced effects in human blood leukocytes in the presence of autologic plasma were investigated. Experiments were performed in two ways: (1) He-Ne-laser irradiation of cells in the presence of autologic plasma or (2) laser irradiation and subsequent addition of autologic plasma to the cell suspension. The concentration dependencies of plasma additions were evaluated. To obtain different concentrations of porphyrins in plasma samples, we either diluted the samples with PBS or selected patients with different porphyrin plasma content. The effects of He-Ne-laser irradiation were characterized by the maximum effect dose (Dmax) of irradiation and the degree of maximum cell activation (Amax, priming index). In the first series of experiments, we irradiated leukocytes in the presence of autologic plasma taken from patients with pneumonia and bronchial asthma. It was found that Dmax decreased with increasing porphyrin concentration in plasma. It was observed that, at low porphyrin concentrations, Amax increased severalfold with increasing photosensitizer concentration. At a porphyrin concentration of 0.46 pmol a decrease in Amax was detected as the porhyrin concentration increased. The same effects were revealed at high doses of laser irradiation. Very similar effects were found in experiments with the addition of irradiated plasma to cells. However, the Amax value was considerably less compared to that after irradiation in the presence of plasma (160% vs. 230 - 270% upon combined irradiation of cells and plasma). The Dmax value was higher in the series of experiments in which plasma was irradiated separately. The results suggest that laser-induced leukocyte activation can be mediated by blood plasma porphyrins and the products of lipid peroxidation formed as a result of porphyrin-photosensitized lipid oxidation.

[The role of lipid peroxidation products in the effect of He-Ne laser on human blood leukocytes].

The role of lipid peroxidation products formed in membranes of human blood leukocytes after irradiation with He-Ne laser was studied. It was found that low-intensity laser irradiation (0.3-1.6 J/cm2) leads to both cell activation and an increase in the content of lipid peroxidation products. The intensity of lipid peroxidation was analyzed by estimating the amount of TBA reactive products and lipid diene conjugates. Irradiation in the presence of an exogenous photosensitizer (protoporphyrin IX) enhanced the phenomena observed. The use of antioxidants (tocopherol and ionol) completely eliminated the laser-induced effects (changes in leukocyte activity and accumulation of lipid peroxidation products). These results can be explained by the fact that laser irradiation leads to the activation of lipid peroxidation in leukocyte membranes, which in turn enhances the response of cells to the stimulus (priming).

[The interaction of hypochlorite with fatty acid hydroperoxides results in the generation of free radicals].

The interaction of hypochlorite with linoleic acid hydroperoxides was studied by the coumarin C-525-enhanced chemiluminescence and ESR spin trapping techniques. Linoleic acid hydroperoxide was obtained in the reaction of lipoxygenase and linoleic acid. Alpha-(4-pyridyl-1-oxyl)-N-tert Butylnitron was used as a spin trap. It was shown that the addition of hypochlorite to the incubation media containing linoleic acid and lipoxygenase resulted in an intensive chemiluminescence flash. The intensity of this flash correlated with the hydroperoxide concentration. The analysis of ESR spectra of spin adducts produced in the reaction of hypochlorite with linoleic acid hydroperoxide showed the presence of O-centered, most likely peroxyl, radical with the splitting constants alphabetaH = 0.260 mT aN = 1.662 mT and C-centered penthyl radical with the splitting constants alphabetaH = 0.260 mT; aN = 1.662 mT. These data suggest that hypochlorite produced by phagocytes in vivo can induce the generation of free O- and C-centered radicals, promoters of free radical processes.

[Molecular and cellular mechanisms of the low intensity laser radiation effect]. / Molekuliarno-kletochnye mekhanizmy deistviia nizkointensivnogo lazernogo izlucheniia.

The main aspects of the free radical conception of the molecular and cellular mechanisms of the stimulating action of low-intensity radiation in the red region of the spectrum were considered. These are: (1) Primary acceptors of incident radiation are endogenous porphyrins, which may act as photosensitizers giving initiator-radicals for secondary free radical reactions. (2) Target cells for light irradiation during quantum therapy may be blood leukocytes, fibroblasts, keratinocytes, endotheliocytes, etc. (3) The initiation of the secondary free radical reactions due to lipid peroxidation of cell membranes (in particular, of leukocytes) brings about an increase in ion permeability including that for calcium. The increase in intracellular calcium concentration leads to phagocytes priming, i.e., to increased production of reactive oxygen species (ROS) under subsequent stimulation of the cell. (4) Photosensitized generation of ROS in the cytoplasm of some cells induces a free-radical activation of synthesis of proteins, the most significant in the light of the present concept being the de novo synthesis of inducible NO-synthase, superoxide dismutase, and various cytokines. The experimental evidence for the basic statements of the conception of free radical mechanisms for the stimulating action of low-intensity laser and noncoherent radiations is presented. A relation between the primary mechanisms of the stimulating action of light and the secondary effects that determine the sanative effect of quantum therapy in the process of wound healing (bactericidity, cell proliferation, and improved microcirculation) was established. Moreover, it was shown that nitrosyl complexes of heme proteins, such as hemoglobin and cytochrome c, are the primary chromophores of laser radiation. Upon irradiation, they can easily dissociate to produce free nitric oxide. In turn, released nitric oxide may be responsible for blood vessel relaxation and activation of mitochondrial respiration. This phenomenon is just observed during phototherapy by means of low-intensity laser radiation.

[Successes in medical biophysics (on the 40th anniversary of the Medico-biological faculty of the Russian State Medical University)]. / Uspekhi meditsinskoi biofiziki (k 40-letiiu Mediko-biologicheskogo gakul'teta Rossiiskogo gosudarstvennogo meditsinskogo universiteta).

On the occasion of the 40-year anniversary of the Medicobiological Faculty of the Russian State Medical University, the research activity of the biophysics department was summed up. The main result is the creation of medical biophysics as part of the medicobiological science. Scientific investigations of the biophysics department are reviewed. They are presented as follows: chemiluminescence of biological systems; effect of visible light on human and animal molecules and cells; application of luminescence methods in laboratory and clinical investigations; free radicals and their role in cell biology and pathology; medical aspects of molecular biophysics; and biological membranes and cell pathology.

[Effect of low intensity laser light in the red range on macrophage superoxide dismutase activity]. / Vliianie nizkointensivnogo lazernogo izlucheniia krasnogo diapazona na aktivnost' superoksiddismutazy makrofagov.

The effect of lipopolysaccharides (LPS) and low-power laser radiation on nitric oxide (NO) production and the activity of superoxide dismutase (SOD) in rat peritoneal exudate macrophages was investigated. It was found that LPS increased NO production and SOD activity in macrophages in a concentration-dependent manner. The maximal activity of SOD was more than 100 times greater than in the control and was achieved at an LPS concentration of less than 10 ng/ml. The maximal production of NO was more than 250% of the control and was achieved at an LPS concentration of 100 ng/ml. The presence of cycloheximide, a transcriptional synthesis inhibitor, in conditioned media almost completely abolished SOD activation and NO production. This implies that the LPS-induced increase in SOD activity and NO production were determined by the activation of de novo protein synthesis (SOD and inducible NO synthase). The irradiation of macrophages by red light resulted in a dose-dependent increase in NO production and SOD activity. The incubation of irradiated cells in the presence of 10 microM cycloheximide abolished the increase. The presence of antioxidants (mexidol and ascorbate) also significantly inhibited the laser-induced activity of macrophages. Thus, laser irradiation of cells in the red range activates the synthesis of SOD and inducible NO-synthase de novo due to photosensitized initiation of free radical reactions.

[Interaction of tert-butyl hydroperoxide with hypochlorite induces peroxyl radicals. A chemiluminescence study]. / Vzaimodeistvie tret-butilgidroperoksida s gipokhloritom privodit k obrazovaniiu perekisnykh radikalov. Issledovanie metodom khemiliuminestsentsii.

The interaction of hypochlorite (HOCl/OCl-) with tert-butyl hydroperoxide ((CH3)3COOH) was investigated by chemiluminescence. It was shown that the addition of HOCl/OCl- to (CH3)3COOH induces a fast chemiluminescent flash. The intensity of this flash increases with the increase in both HOCl/OCl- and (CH3)3COOH concentration. The chemiluminescence is quenched in a concentration-dependent manner in the presence of free radical spin traps N-tert-butyl nitrone and alpha-(4-pyridyl-1-oxyl)-N-tert-butyl nitrone. This fact proves that free radicals take part in the interaction of HOCl/OCl- and (CH3)3COOH. Hypochlorite yielded a very similar chemiluminescence spectrum in its reaction with (CH3)3COOH as Ce4+. It differed considerably from the spectrum in the system H2O2 and HOCl/OCl-. It is well known that the interaction of Ce4+ and (CH3)3COOH produces peroxyl radicals. These results confirm the hyothesis that the interaction of HOCl/OCl- and (CH3)3COOH is mediated by peroxyl radicals. Thus, organic hydroperoxides always present in unsaturated lipids can induce lipid peroxidation processes in the reaction with HOCl/OCl-.