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1.
The aim of this study was to entrap delta-sleep inducing peptide (DSIP) in cross-linked poly(vinyl alcohol)-based hydrogels of different structures and to determine kinetics of the peptide release from these hydrogels using an in vitro model. Isotropic and macroporous hydrogels based on poly(vinyl alcohol) acrylic derivative (Acr-PVA) and also macroporous epoxy groups containing hydrogels synthesized by copolymerization of this macromer and glycidyl methacrylate, have been used in this study. Isotropic hydrogels were prepared at positive temperatures while macroporous ones were obtained by formation in cryo-conditions. The peptide was entrapped into macroporous PVA hydrogels by adding the peptide solution onto preformed matrices, while peptide immobilization on PVA-GMA hydrogels, containing free epoxy groups, was carried out by sorption of peptide from its aqueous solution. In the case of DSIP entrapment into isotropic PVA gel the peptide solution was added into the polymer mixture at hydrogel formation. The kinetics of peptide release from hydrogels was studied by incubating matrices in PBS solution (pH 7.4), in physiological solution (0.9% NaCl) and in water. DSIP concentration in supernatants was determined by reverse-phase HPLC. Incubation of macroporous PVA gels in PBS, 0.9% NaCl, and water for 30 min caused release of 74, 70, and 64% DSIP, respectively, and this processes completed within 3 h. From hydrogel containing epoxy groups the release of neither peptide nor its degradation products was observed even after incubation for 48 h. For freshly prepared isotropic hydrogel the release kinetics was as follows: 27 and 78% DSIP were released within first 30 min and 33 h, relatively. For the lyophilized hydrogel samples the peptide release was 63% after incubation for 30 min, while drying of samples at room temperature for 3 days caused significant peptide loss because of its structure damage.  相似文献   

2.
B2 bradykinin receptor-like binding in rat renomedullary interstitial cells   总被引:1,自引:0,他引:1  
A particulate fraction from cultured rat renomedullary interstitial cells (RRIC) was prepared for bradykinin (BK) binding studies. Incubation of three radiolabeled BK analogs, [125I-Tyr1]kallidin, [125I-Tyr5]-BK, and [125I-Tyr8]-BK, with the particulate fraction resulted in degradation of these peptides. Assay conditions which prevented hydrolysis of these radiolabeled kinins were determined. Under these conditions, direct binding studies were performed with [125I-Tyr1]kallidin (TlK) as the radioligand. BK binding affinity, apparent Kassoc. = 1.3 X 10(9) M-1, and specificity, determined with 51 BK analogs, were consistent with those expected of a B2 BK receptor.  相似文献   

3.
Entry of delta sleep-inducing peptide (DSIP) into the circulation from the gastrointestinal (GI) tract was studied in unweaned rat pups. The pups were fed an analog of DSIP (N-Tyr-DSIP) or 125I-N-Tyr-DSIP and blood samples collected. Significant increases in plasma DSIP-like immunoreactivity occurred after the feeding of 100 ωg/animal of N-Tyr-DSIP but not after vehicle (normal saline) or 1 ωg/animal. Column chromatography showed this immunoreactivity to coelute with intact DSIP and des-Trp1- DSIP. A small but statistically significant increase of immunoreactivity occurred in the plasma of pups whose nursing mothers were injected with N-Tyr-DSIP but not in those whose mothers were injected with saline. Radioactivity appeared in both the brain and blood of 1–2 and 10 day old rat pups fed 125I-N-Tyr-DSIP. Although only a small amount of the radioactivity in plasma co-eluted with intact 1251I-N-Tyr-DSIP on column chromatography, almost all of the radioactivity in brain did, suggesting that the radioactivity in the brain represented crossing of the blood-brain-barrier by the peptide and not just contamination by blood. The results cannot be explained by either regurgitation of intestinal contents, or by stimulation of endogenous peptide. They show that a DSIP peptide administered orally can be absorbed through the GI tract into the systemic circulation.  相似文献   

4.
Hypnogenic effects of 3 DSIP analogs with a higher stability against aminopeptidase activity have been studied in rabbits and rats using intraventricular administration (injections and infusions). An analog (D-Ala-2) DSIP augmented slow wave and paradoxical sleep within the 5th, 8th and 11th hours of the recording period. An analog (D-Val-2) DSIP made the same within the 8th and 10th hours, and hexapeptide (D-Ala-2) DSIP (1-6) increased sleep during the 1st, 3rd, and 5th hours. Both nonapeptides augmented sleep in rabbits as well as in rats, though hexapeptide produced this effect in rabbits only, that might be related to some difference in distribution and colocalization of endogenous DSIP-like peptide in the pituitary of two rodent species. It may be suggested that hypnogenic activity of DSIP analogs is determined by the structure of administrated molecule, being mediated by such hormones as GRF and CLIP.  相似文献   

5.
Abstract: Incubation of highly purified human myelin at 25° and pH 8 in ammonium bicarbonate buffer resulted in the conversion of the myelin-associated glycoprotein (MAG) to a smaller derivative (dMAG) with an apparent molecular weight about 10,000 less. dMAG was stable and was not degraded to lower-molecular-weight breakdown products. Incubation of myelin under these conditions also resulted in the degradation of basic protein, but at a much slower rate. Half of the MAG was converted to dMAG in about 30 min, whereas degradation of half of the basic protein required 18 h of incubation. There was no significant loss of proteolipid, the Wolfgram doublet, or other myelin proteins during incubation for up to 18 h under these conditions. The formation of dMAG and the degradation of basic protein appear to be mediated by similar enzymatic activities; both processes exhibited broad pH optima in the neutral range, were prevented by briefly heating the myelin to 70° before incubation, and were stimulated by ammonium bicarbonate and other salts. Incubation of purified rat myelin also resulted in the formation of dMAG and the degradation of basic protein, but the conversion to dMAG occurred much more slowly than in human myelin preparations. In the rat, the percentage decreases in intact MAG and in basic protein were similar to each other and proceeded at rates comparable to the loss of basic protein in human myelin. These studies confirm and extend earlier demonstrations of neutral protease activity in purified myelin, and show that cleavage of MAG is one of the effects of this activity. The proteolytic activity affecting MAG and basic protein was not significantly reduced by further purification of the myelin on sucrose or CsCl gradients, suggesting that the neutral protease may be a myelin-related enzyme. The very high susceptibility of human MAG to this enzyme indicates that the effect of neutral protease on this glycoprotein should be considered in connection with demyelinating diseases.  相似文献   

6.
The sleep-inducing activity of Delta Sleep-Inducing Peptide (DSIP) and its 13 synthetic analogs has been studied on rabbits with preliminary implanted electrodes. The peptides were injected into the lateral ventricle of cerebrum. Polygraphic computer monitoring of sleep–wake states was carried out at daytime for 7–12 h. DSIP and most analogs had no statistically significant effect on sleep compared to the control administration of saline to the same animals. [NMeAla2]DSIP and [Pro2]DSIP had a pronounced sleep-inducing effect and reliably increased the proportion of slow-wave sleep by 10–15% on average compared to the control. Several other analogs had a week sleep-inducing effect, increasing the proportion of slow-wave sleep during specific recording time only. [-Ala2]DSIP significantly suppressed sleep. In addition, this analog, as well as parent DSIP and four proline-containing nonapeptides, slightly increased the body temperature. The revealed differences may be due to both conformation properties and proteolytic resistance of the studied molecules, and it may reflect their indirect involvement in the control sleep–wake hormonal processes.  相似文献   

7.
Unidirectional flux of 125I-labeled DSIP at the blood-tissue interface of the blood-cerebrospinal fluid (CSF) barrier was studied in the perfused in situ choroid plexuses of the lateral ventricles of the sheep. Arterio-venous loss of 125I-radioactivity suggested a low-to-moderate permeability of the choroid epithelium to the intact peptide from the blood side. A saturable mechanism with Michaelis-Menten type kinetics with high affinity and very low capacity (approximate values: Kt = 5.0 +/- 0.4 nM; Vmax = 272 +/- 10 fmol.min-1) was demonstrated at the blood-tissue interface of the choroid plexus. The clearance of DSIP from the ventricles during ventriculo-cisternal perfusion in the rabbit indicated no significant flux of the intact peptide out of the CSF. The results suggest that DSIP crosses the blood-CSF barrier, while the system lacks the specific mechanisms for removal from the CSF found with most, if not all, amino acids and several peptides.  相似文献   

8.
The delta sleep-inducing peptide (DSIP) has been shown to induce effects other than only delta sleep. One of these effects was the paradoxical thermoregulatory and locomotor response of rats to amphetamine after DSIP administration. In the present investigation we found similar effects of DSIP on the locomotor activity in mice. However, two different doses of DSIP (30 and 120 nmol/kg) and 3 doses of amphetamine (4, 10, and 15 mg/kg) produced a complex pattern of effects in mice tested at 22 degrees C. In general, DSIP-treated mice showed lower locomotor activity after amphetamine than controls, but under two conditions, both using 15 mg/kg amphetamine, DSIP produced higher scores; this occurred in the first two hours after amphetamine for the 30 nmol/kg DSIP group and in the third hour for mice given 120 nmol/kg DSIP. The results indicate that the effects of DSIP on locomotor behavior were dependent on the dosage of the peptide and the time of measurement as well as the level of amphetamine stimulation.  相似文献   

9.
Intercentral relations between hypothalamus, limbic system and reticular formation were studied in rabbits and rats under systemic and central action of DSIP, ACTH, corticosteroids and stress (aggressive-defensive behaviour). The results obtained demonstrate changes in the adrenal cortex resulting from stress-inducing adrenocortical hormone content. The increase was achieved by the rise in ACTH level resulting in corticosteroid level elevation (endogenous elevation-aggressive behaviour) and by corticosteroid injections (exogenous elevation). Correlation analysis of structural interrelations after ACTH and corticosteroid injections demonstrated an increased correlation between hypothalamo-reticular-limbic structures. DSIP was shown to have an opposite effect. Correlation analysis revealed the potentials for the formation of new functional interrelations between hypothalamo-reticular-limbic structure in the motivation of aggression (stress) and the levels of corticosterone and DSIP. DSIP action depends on the initial corticosteroid blood level and is more marked in stress-inducing concentrations.  相似文献   

10.
11.
We studied binding and degradation of labeled platelet thrombospondin (TSP) by normal and variant bovine aorta endothelial (BAE) cells. [125I]-labeled TSP bound to cells at 37 degrees C in a specific, saturable, and time-dependent fashion. Incubation of cell monolayers with fluoresceinated TSP resulted in punctate cellular staining, but no staining of the extracellular matrix. Heparin, fucoidan, chondroitin sulfate, platelet factor 4, beta-thromboglobulin, unlabeled TSP, and serum derived from whole blood all competed for binding of [125I]TSP. [125I]TSP was degraded to TCA-soluble radioactivity, which appeared in the medium after a 60-90-min lag. Degradation was inhibited to the same extent as binding by increasing concentrations of heparin, fucoidan, platelet factor 4, or whole blood serum. Normal BAE cells bound and degraded less [125I]TSP than variant BAE cells. The dissociation constants (Kds) for binding and the constants for degradation (Kms) for degradation by the two cell strains, however, were similar (30-50 nM). The inhibitory effects of heparin and platelet factor 4 were lost when the two inhibitors were present in a 1:1 (wt/wt) ratio. Treatment of suspended cells with trypsin or heparitinase caused less binding of TSP. These results indicate that there is a specific receptor for TSP on endothelial cells which mediates binding and degradation. This receptor may be a heparan sulfate proteoglycan.  相似文献   

12.
Delta sleep-inducing peptide (DSIP) has been found to induce sleep as well as extra-sleep effects. Although the presence of endogenous DSIP-like material has been demonstrated, the metabolic fate of injected DSIP has not been clarified so far. A major obstacle in monitoring degradation of DSIP has been the lack of an easy method to separate DSIP from tryptophan (Trp). Cleavage of the N-terminal Trp apparently represents the first and most important step in the metabolism of the peptide. Adsorption to aluminum oxide has been found to separate the two compounds and optimal conditions for the separation are described. Quantitative determination of the degradation of DSIP in plasma or serum is now rapidly achieved. The method should help to advance metabolic studies of DSIP. Other applications such as extraction of DSIP from solutions are also possible.  相似文献   

13.
Delta sleep-inducing peptide (DSIP) has been isolated and characterized by its capacity to enhance delta sleep in rabbits. Up to now, sleep was the main target of DSIP research, but different extra-sleep effects of the peptide have been reported as well. Several mechanisms of action have been proposed, though no convincing evidence for any of them has been obtained so far. We recently detected that DSIP reduced the nocturnal increase of N-acetyltransferase (NAT) activity in rat pineal in a dose-dependent manner. The activity of this enzyme is known to be induced by adrenergic agonists and several studies have suggested that stimulation of alpha 1-adrenergic receptors potentiates the "basic" effect of beta-receptors. DSIP in the range between 20 and 300 nM significantly enhanced NAT activity induced by 10(-6) M norepinephrine in vitro, and a similar effect was observed with 2nMP-DSIP, a phosphorylated analog. Incubation with prazosin eliminated the enhancement, whereas propranolol reduced norepinephrine stimulation that was still increased by P-DSIP and probably DSIP. It was concluded that the sleep-peptide and its analog modulate the alpha 1-adrenergic receptor of rat pineal in its response to adrenergic agonists. The same mechanism may also be responsible for other biological activities of DSIP such as sleep-induction and stress-tolerance.  相似文献   

14.
The relationship between autophagy and the intracellular distribution of endocytosed asialoorosomucoid was studied in cultured rat hepatocytes. Overt autophagy was induced by shifting the cells to a minimal salt medium. Incubation in minimal salt medium led to the formation of buoyant lysosomes at the expense of denser lysosomes manifested as a dual distribution of these organelles in Nycodenz gradients. Asialoorosomucoid was labeled with 125I-tyramine cellobiose. The labeled degradation products formed from this ligand are trapped at the site of degradation and may therefore serve as markers for the subgroup of lysosomes involved in the degradation. In control cells the degradation of the ligand was initiated in a light prelysosomal compartment and continued in denser lysosomes. In cells with high autophagic activity, the degradation of labeled asialoorosomucoid took place exclusively in a buoyant group of lysosomes. These results suggest that degradation of endocytosed ligand takes place in the same secondary lysosomes as substrate sequestered by autophagic mechanisms. These light lysosomes represent a subgroup of active lysosomes which are gradually recruited from dense bodies. Data are also presented that indicate that insulin may prevent the change in buoyant density brought about by incubation in deficient medium.  相似文献   

15.
The effects on the uptake (cell-associated 125I) and degradation (125I-labelled products released into the medium) of 125I-insulin and bioactivity (protein, glycogen and lipid synthesis) of insulin caused by altering the cellular thiol/disulphide status in primary cultures of rat hepatocytes were studied. Incubation of hepatocyte cultures with various exogenous thiol compounds (reduced glutathione, 2-mercaptoethanol, cysteamine, dithiothreitol) resulted in increased insulin binding, but markedly decreased degradation and bioactivity. These effects could be reversed by washing or by the addition of oxidized glutathione, which alone had no effect. When cultures were exposed to certain thiol-modifying reagents (N-ethylmaleimide, p-chloromercuribenzoate, p-chloromercuribenzenesulphonate, iodoacetamide, iodoacetate), some decreases in bioactivity were evident, but the pronounced decrease in insulin degradation observed with the thiol-containing compounds was not observed with this class of compounds. None of the thiol-containing or -modifying agents tested had any significant effect on cellular ATP concentrations, indicating that the effects observed were due to perturbation of the thiol/disulphide status. Depletion of intracellular glutathione by DL-buthionine SR-sulphoximine (a specific inhibitor of glutathionine biosynthesis) decreased the syntheses of glycogen and lipid by about one-half, while having essentially no effect on protein synthesis, ATP concentrations or on the binding and degradation of insulin. The data presented here indicate that although intracellular thiol (glutathione) concentrations may be important for the maintenance of full expression of certain biological activities (glycogen and lipid synthesis), the thiol/disulphide groups on the cell surface and those immediately inside the cell membrane may be more critical in the mediation of insulin action, including the degradation and bioactivity of insulin in primary cultures of rat hepatocytes.  相似文献   

16.
The studies presented herein were aimed at characterizing the pathway involved in the internalization and degradation of human choriogonadotropin by cultured Leydig tumor cells. A quick biochemical method that differentiates between the surface-bound and internalized hormone was developed. Using this method and two hormone derivatives labeled exclusively (with 125I) in the alpha or beta subunits, it was possible to follow the fate of each hormone subunit during hormone binding, internalization, and degradation. The results show that the hormone is internalized in the intact form and that it reaches its place of degradation (presumably the lysosomes) in the intact form. The pathway for degradation of the internalized hormone is complex, and it appears to involve processing of one or both subunits of the intact hormone, followed by subunit dissociation and further degradation of the individual subunits. The alpha subunit is quickly degraded by the cells. The only detectable degradation products are extracellular amino acids. The beta subunit is degraded slower, and several intracellular degradation products are detectable before amino acids appear in the medium.  相似文献   

17.
In the studies reported here, we investigated whether the degradation of the acetylcholine receptor (AChR) in cultured muscle cells involves similar mechanisms as and is controlled in a manner similar to, the catabolism of the bulk of cell protein. We compared these processes after labeling cell protein with radioactive leucine or phenylalanine for 24 hours, or labeling the acetylcholine receptor with (125I)-bungarotoxin. The apparent average half-life of cell protein was 38 ± 2 hours and that of the receptor-toxin complex was 25 ± 1 hours. Incubation in media lacking serum and embryo extract accelerated the degradation of both average protein and the receptor-toxin complex. Insulin reduced the rate of catabolism of both average protein and the receptor-toxin complex toward levels seen in the presence of serum. However, although these two degradative processes seem to be controlled similarly, they probably involve different mechanisms. The protease inhibitors leupeptin and chymostatin, which slowed overall proteolysis in nongrowing muscles and hepatocytes, reduced the degradation of the ACh receptor by 2–11-fold, but had no, or only slight, effects on the catabolism of average protein, even when overall proteolysis was accelerated by omitting serum and embryo extract. Chloroquine, an inhibitor of lysosomal function, also reduced the degradation of AChR, by about 10-fold, but decreased overall protein breakdown by only 20–30%. Incubation of myotubes at lower temperatures reduced both degradative processes, but affected the breakdown of the receptor to a greater extent. Thus the rate-limiting steps in these processes have different activation energies. Incubation with 2-deoxyglucose, an inhibitor of glycolysis, decreased the breakdown of average protein but not that of the receptor-toxin complex. However, the two degradative processes were sensitive to azide, an inhibitor of oxidative phosphorylation. Although the lysosome is the primary site for AChR degradation and perhaps for degradation of other surface proteins, the breakdown of most proteins in myotubes seems to involve a distinct proteolytic system requiring metabolic energy.  相似文献   

18.
Sixteen peptides differing in structure from the delta sleep inducing peptide (DSIP) by one to two substitutions of amino acid residues have been synthesized to study the possibility of their application in oncology. The antioxidant properties of the peptides in vitro and their detoxifying activity in vivo have been examined on a model of toxicosis caused by cisplatin, a cytostatic drug widely used in the therapy of tumor diseases. It has been shown that almost all DSIP analogues examined exhibit a direct antioxidant activity, with the activity of the ID-6 analogue being higher than that of DSIP and comparable with that of vitamin C and β-carotene. This analogue shows the most pronounced detoxifying activity toward the action of cisplatin, which manifests itself as a decrease in the death of animals from acute toxicity to 17% compared to 50–67% in the control and the restoration of some biochemical parameters of blood, in particular, a decrease in the activity of the enzymes, aspartate and alanine aminotransferases, and the concentration of the end products of nitrogen exchange: creatinine and urea. Thus, the peptides of the DSIP family may appear promising agents for decreasing the toxic effects of cytostatics used in oncology.  相似文献   

19.
Cellular uptake of [125I] labelled DSIP at the luminal interface of the blood-brain barrier (BBB) was studied in the ipsilateral perfused in situ guinea pig forebrain. Regional unidirectional transfer constants (Kin) calculated from the multiple-time brain uptake analysis were 0.93, 1.33 and 1.66 microliter.min-1 g-1 for the parietal cortex, caudate nucleus and hippocampus, respectively. In the presence of 7 microM unlabelled DSIP the brain uptake of [125I]-DSIP (0.3 nM) was inhibited, the values of Kin being reduced to 0.23-0.38 microliter.min-1 g-1, values that were comparable with the Kin for mannitol. The rapidly equilibrating space of brain, measured from the intercept of the line describing brain uptake versus time on the brain uptake ordinate, Vi, was greater for [125I]-DSIP than for mannitol; in the presence of unlabelled DSIP this was reduced to that of mannitol, and it was suggested that the larger volume for [125I]-DSIP represented binding at specific sites on the brain capillary membrane. L-tryptophan, the N-terminal residue of DSIP, in concentrations of 7 microM and 1 mM, inhibited Kin without affecting Vi. A moderate inhibition of Kin was obtained by vasopressin ([Arg8]-VP), but only at a concentration as high as 0.2 mM. The results suggest the presence of a high affinity saturable mechanism for transport of DSIP across the blood-brain barrier, with subsequent uptake at brain sites that are highly sensitive to L-tryptophan, and may be modulated by [Arg8]-VP.  相似文献   

20.
In activity the comparative analysis of metabolic effects delta--sleep inducing peptide (DSIP) in tissues and erythrocytes of intact rats and under cold stress is conducted. The regulation effect of DSIP in attitude of free radical processes will be realised through modulation the prooxidant--antioxidant balance: both for intact animal, and at stress. Exogenous DSIP increases the antioxidant system activity in tissues of brain, liver and blood in standard conditions and under cold stress. The anti-stress effect of DSIP is directed as on increase of power endogenic enzymatic antioxidant system activity, specially glutathione peroxidase activity, and not enzymatic of antioxidant protection. The DSIP renders different influence on activity of prooxidant enzymes: for intact animal boosts the myeloperoxidase activity in blood neutrophils, not rendering essential influencing on the xanthine oxidase activity in tissues of brain, liver and activates the myeloperoxidase activity, depresses the xanthine oxidase activity for rats at stress. The membranotropic effect of DSIP in the norm and under stress is connected to increase of stability of protein--lipid interplays. The membranostabilizing effect of DSIP in conditions of stress is characterized decrease of polarity of lipid phase and negative surface charge of erythrocyte membranes, modified in course of lipid peroxidation.  相似文献   

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