UNIPROT:P30536 - FACTA Search

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Query: UNIPROT:P30536 (PBS)
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We have investigated the aggregation behaviour of lipid IVA (a bioactive precursor of lipid A and the lipid anchor of lipopolysaccharide) in aqueous solutions in the physiological pH range using dynamic light scattering, nuclear magnetic resonance, fluorescence, surface pressure, electron microscopy and force field simulation studies. The sonication of lipid IVA in PBS, Tris and Hepes produces vesicles which are stable in the concentration range of 10(-3) - 10(-7) M, possibly even at lower concentrations. The vesicle size is not sensitive to the nature of the buffer, only to the pH and to some extent to the ionic strength. The long time stability of the small unilamellar vesicles as well as the structureless 1H-NMR spectra might be attributed to a rigid surface structure. This structure is also supported by the simulation studies. We have tentatively proposed a coexistence of micelles and/or other aggregates with the bilayered vesicles at higher lipid concentrations in order to explain some of the experimental observations.
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PMID:Aggregation behavior of lipid IVA in aqueous solutions at physiological pH. 1: Simple buffer solutions. 174 9

31P NMR spectra of normal rodent and avian fibroblasts were compared to those of the same cells transformed either by the Rous sarcoma virus (RSV) or by the Kirsten sarcoma virus (Ki-MSV). Under physiological conditions, the spectra of living or perchloric acid extracted chicken embryo fibroblasts, rat cell line FR3T3 and mouse cell line C127 did not differ from those of their counterparts transformed by RSV or Ki-MSV. However, in the case of FR3T3 cells, on shifting from 37 degrees C to 20 degrees C, and particularly if PBS replaced serum growth medium, a different, though transitory, response of the transformed cells was detected. They then showed, within few minutes, a more rapid ATP depletion with accumulation of fructose 1,6-diphosphate (FDP), as compared to normal control cells.
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PMID:31P NMR spectra of rodent and avian fibroblasts transformed by Rous or Kirsten sarcoma viruses. 301 36

The mechanisms involved in the bioavailability of chlorambucil or 4-[p-(bis[2-hydroxyethyl]amino)phenyl]-butyric acid are poorly understood. The effects of different matrices on the disintegration of chlorambucil were investigated by HPLC, 1H NMR, 31P NMR, and mass spectrometry. Cellular incorporation and protein binding of the drug in vitro was assessed with [3H]-chlorambucil. Decomposition of chlorambucil and its major metabolite, phenylacetic acid mustard, to mono- and dihydroxy derivatives, was significantly faster in water than in PBS, (phosphate-buffered saline, pH 7.4). The hydrolysis of chlorambucil was as fast in plasma ultrafiltrate as in PBS; plasma proteins, preferentially albumin, prevented this disintegration. In phosphate-buffered media, two additional stabile hydrolysis products were found which were characterised as the mono- and bis-phosphates of 4-[p-(bis[2-hydroxyethyl]amino)phenyl]butyric acid, results of the reaction of nucleophilic buffer species with the aziridinium ion intermediates. Chlorambucil bound covalently to plasma proteins and was incorporated into red cells. These interactions are likely to have a significant role in vivo, reducing the bioavailability of the drug. High H+ concentration associated with high chloride concentration in human gastric juice had a stabilizing effect on chlorambucil. Incorporation of [3H]-chlorambucil into red cells was inhibited in a concentration-dependent fashion by whole human plasma as well as by albumin. We conclude that the chemico-biological interactions demonstrated in the present investigation provide explanations for the remarkable pharmacokinetic differences observed intra- and inter-individually in the clinical use of chlorambucil. The present information is important, when clinical or in vitro evaluation of efficacy and bioavailability of chlorambucil is considered.
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PMID:Kinetics of chlorambucil in vitro: effects of fluid matrix, human gastric juice, plasma proteins and red cells. 913 9

Polyrotaxanes were synthesized as novel biodegradable polymers with supramolecular assembly and their properties evaluated in vitro. The synthesis of biodegradable polyrotaxanes consists of three steps: preparation of an inclusion complex consisting of alpha-cyclodextrins (alpha-CDs) and amino-terminated poly(ethylene glycol) (PEG); introduction of L-phenylalanine (L-Phc) at each complex terminal via peptide linkages: and hydroxypropylation of alpha-CDs in the polyrotaxanes. Succinimide ester of benzyloxycarbonyl-L-Phe was condensed with the terminal amino groups of the inclusion complex. 1H-NMR and GPC results showed that alpha-CDs were threaded onto a PEG chain and L-Phe moieties were introduced at each terminal of the PEG chain. Further, the amount of threaded alpha-CDs was found to be governed by the molecular weight of PEG. The hydroxypropylation of alpha-CDs improved the solubility of the polyrotaxanes in PBS (pH 7.4). The hydroxypropylated (HP-) polyrotaxanes were characterized by terminal peptide cleavage using papain. In vitro degradation of HP-polyrotaxanes revealed that HP-alpha-CDs threaded onto a PEG chain were released only when terminal peptide linkages were cleaved. Moreover, threaded HP-alpha-CDs onto a PEG chain was found to be completely released. Kinetics of terminal peptide cleavage were also evaluated by catalytic efficiency (kcat/K(m)). The kcat/K(m) values were found to be independent of the molecular weight of HP-polyrotaxanes but to be affected by terminal hydrophobic moieties. It is proposed that our designed polyrotaxanes are feasible as novel drug carriers.
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PMID:Synthesis and characterization of biodegradable polyrotaxane as a novel supramolecular-structured drug carrier. 915 Nov 92

Potassium bisperoxo(1,10-phenantroline)oxovanadate (V) [bpV(phen)] is a potent protein tyrocine phosphatase inhibitor which mediates a variety of biological effects. The aim of these studies was to examine the role(s) of mitogen activated protein kinase (MAPK) pathways in PC12 cell proliferation and toxicity by bpV(phen). BpV(phen) exerts a bimodal effect in PC12 cells: proliferation at low and cell death at higher micromolar concentrations. Activation of MAPK by bpV(phen) depends on time and concentration. The phosphorylation pattern of extracellular regulated kinases (ERK 1/2), c-jun N-terminal activated kinases (JNK) and p38 in PC12 cells is strikingly different. Activation of JNK is sustained in PC12 cells. In contrast, ERK 1/2 activation is transient and treatment with PD98059 indicates that ERK activation by bpV(phen) is partly independent from the ras-MEK pathway. Stability studies of bpV(phen) in DMEM and PBS showed linear relationship with T1/2 about 6 h and 10 days in DMEM and PBS, respectively. Comparison between the time courses of MAPK activation and kinetics of bpV(phen) decomposition as assessed by 51V-NMR analysis show that the initial and maximal phosphorylation signals are produced in the presence of the complex bpV(phen) and not caused by the decomposition products of bpV(phen).
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PMID:Activation of MAPK by potassium bisperoxo(1,10-phenanthroline)oxovanadate (V). 1037 20

The diblock polymer poly(l-leucine-block-l-glutamate), bLE, was synthesized by acid hydrolysis of the ester poly(l-leucine-block-l-methyl glutamate). During the hydrolysis reaction the leucine block precipitates from the reaction mixture, forming nanosized particulate structures. These particles can be purified and further suspended in water or in 0.15 M phosphate saline buffer (PBS) to give stable, colloidal dispersions. TEM analysis shows the predominant particle form to be that of platelets with a diameter of 200 nm. Smaller cylindrical or spherical particles form a relatively minor fraction of the sample. After fractionation, analysis shows the platelets to be compositionally rich in leucine, while the spheres are glutamate-rich. (1)H NMR, CD, and X-ray diffraction indicate that the core of the platelets is composed of crystalline, helical leucine segments. The poly(l-glutamate) polyelectrolyte brush extending out from the two faces of the disk stabilizes individual particles from flocculation. At pH 7.4, the nanoparticles (platelets and cylinders) spontaneously adsorb proteins, such as insulin, directly from solution. Partial desorption of the protein in its native configuration can be induced by simple dilution. The reversibility of the insulin-nanoparticle complex is the basis for a potential new delivery system. Copyright 1999 Academic Press.
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PMID:Macromolecular Colloids of Diblock Poly(amino acids) That Bind Insulin. 1046 44

Monoclonal antibodies against glutamic acid decarboxylase (anti-GAD) were modified with poly(ethylene glycol) (PEG), and the resulting conjugates were characterized. Monoclonal anti-GAD antibodies were purified from ATCC HB184 hybridoma cells by either cell culture supernatant or ascites fluid from BALB/c mice. Polyclonal rabbit IgG antibodies were also used as a model protein. Polyclonal rabbit IgG or purified anti-GAD was modified by PEG (MW = 5000 or 20000 Da) through either the lysine residues or through the carbohydrate moiety. Lysine modification was performed in PBS (pH 7.4) or 0.1 M borate (pH 9.2) by adding a molar excess (5-80) of a succinimidyl activated propionic acid terminated mPEG (SPA-PEG) while stirring at room temperature. Carbohydrate modifications were performed in PBS (pH 6.2) by first oxidizing the antibody with sodium periodate followed by incubation with hydrazide-terminated PEG followed by reduction with sodium cyanoborohydride. The degree of modification was assessed by 1H NMR or TNBS (trinitrobenzenesulfonic acid). Circular dichroism (CD) spectra were obtained for lysine-modified rabbit IgG at various degrees of modification ranging from 5 to 60 PEG per antibody. Binding was assessed using an ELISA method with GAD or rabbit anti-mouse-IgG (H+L) coated plates. The TNBS and 1H NMR analysis of the modified antibody showed reasonably similar results from 5 to 60 PEG per antibody. The 1H NMR method showed greater sensitivity at low modifications (below 20:1) and was fairly linear up to about 60 PEG per antibody. The CD spectra of the polyclonal rabbit IgG showed only small differences at variously modified antibody. The binding affinity of anti-GAD is lower for all PEG modifications with respect to unmodified anti-GAD. Modifications at pH 7.4 show lower binding to GAD than modifications at pH 9.2. Binding to GAD or anti-mouse-IgG is decreased as the degree of modification is increased. Lysine modifications showed lower binding to GAD or anti-mouse-IgG than carbohydrate modifications. Binding to GAD or anti-mouse-IgG is lower for PEG20000-modified anti-GAD with respect to PEG5000-modified anti-GAD.
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PMID:Physicochemical characterization of poly(ethylene glycol)-modified anti-GAD antibodies. 1171 75

Recently, we have reported that 2-bromopropane might have an immunotoxic potential in rats when exposed for 28 days. In the present studies, the possibility of 2i-deoxyguanosine adduct formation by 2-bromopropane was investigated in vitro to elucidate molecular mechanism of 2-bromopropane-induced immunosuppression. N7-Guanine adduct of 2'-bromopropane (i.e., N7-isopropyl guanine) was chemically synthesized and structurally characterized by analysis of UV, 1H-NMR, '3C-NMR, COSY and fast atom bombardment mass spectrometry to use as a reference material. Incubation of 2'-deoxyguanosine with an excess amount of 2-bromopropane in PBS buffer solution, pH 7.4, at 37 degrees C for 16 h, followed by a thermal hydrolysis, produced a detectable amount of N7-isopropyl guanine by an HPLC and UV analysis. The present results suggest that 2-bromopropane might form a DNA adduct in N7 position of 2'-deoxyguanosine at a physiological condition.
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PMID:Synthesis, characterization and in vtro identification of N7-guanine adduct of 2-bromopropane. 1188 89

Polyamidoamine (PAMAM) dendrimers were prepared by linking methyl methacrylate and ethylenediamine successively on an amine core. Surface modification of PAMAM dendrimer was done by fatty acid grafting converting them to a unimolecular micellar system (Dendrimer grafts). IR, 1H NMR, 13C NMR studies confirmed the structure. The drug 5-fluorouracil (5-FU) was entrapped in dendrimer grafts. The effects of various solvents (ethanol, dichloromethane, tetrahydrofuran), pH and ionic strength on solubilization of 5-FU were determined. Phospholipid was further coated on the dendrimer grafts. The product was lyophilized and obtained as yellowish-white powder. Average particle size was ca. 375 nm as determined by Malvern's Mastersizer 4. Drug loading was ca. 53% by weight. Stability studies were conducted for 1 month at room temperature and 40 degrees C, where the systems were relatively stable. Release rate was sustained across cellulose tubing in PBS. In vivo studies were performed in albino rats and pharmacokinetic parameters and bioavailability were determined from the plasma profile of 5-FU. The phospholipid coated dendrimer graft formulation was found to be more effective orally than free drug. The lymphatic uptake was also increased indicating absorption of the developed formulation through the lymphatic route.
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PMID:Dendrimer grafts for delivery of 5-fluorouracil. 1199 47

A molecular dithiane-based approach to synthesis of novel photolabile phospholipids is developed. These lipids are used in formulations with egg-POPC and cholesterol to prepare light-sensitive liposomes. Irradiation of such liposomes in PBS buffer (medium pressure mercury lamp, Pyrex filter, lambda > 300 nm) significantly increases the bilayer permeability and accelerates the release of entrapped small organic molecules by an order of magnitude. A simple assay, based on (1)H or (19)F PFG NMR measurements of diffusion coefficients, is developed to monitor light-induced unloading of the probe molecules.
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PMID:Liposomes from novel photolabile phospholipids: light-induced unloading of small molecules as monitored by PFG NMR. 1201 13

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