UMLS:C0393754 - FACTA Search

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Query: UMLS:C0393754 (HSA)
2,996 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The neutron capture reaction 10B(1n,4He)7Li produces two energetic particles, 4He2+ and 7Li3+ that are strongly cell toxic. Due to the short range of these nuclear fragments (5-9 microns) mainly those cells that have bound or internalized a 10B-containing substance are growth-inactivated. The most critical and difficult step in an efficient boron neutron capture therapy (BNCT) is the tumour targeting. It is today possible to synthesize a large number of boron compounds and conjugate them to tumour-seeking macromolecules, such as monoclonal antibodies or different polypeptides. The boron-containing substances presently considered for therapy are sulfhydryl boron hydride (BSH) and boron-phenylalanine, (BPA) for the treatment of gliomas and malignant melanomas respectively. Other boronated compounds considered are ligands for receptor-amplified tumour cells, antibodies for tumour cells with specific antigens and thioureas for treatment of melanotic melanomas. The required boron concentration is given by the relative dose due to neutron capture in 10B and that of the competing capture reactions in nitrogen and hydrogen. Capture in nitrogen produces protons with a range of about 10-11 microns and this gives a radiation dose to all cells in the neutron activated area. Calculations show that the local concentration of 10B near the critical radiation target, DNA, must be higher than 10 ppm (10 micrograms/g). Increased emphasis will be put on the development of combinations of treatments that fulfil the requirements for attacking the microscopic spread of the tumour.
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PMID:Present status of boron neutron capture therapy. 129 Jun 30

Accessible surfaces of the HSA molecule in N-, F- and B-forms were studied in the present work by tritium labelling method which allowed to obtain detailed information on N-F- and N-B-transitions. In was shown that the F-form in comparison top the N-form is characterized by more high accessibility of Ser, Ala, Ile, Tyr, Phe, His, Arg, Pro, Val and Phe residues and in the B-form Tyr, Ser, Arg, Gly, Ile, Phe and Pro residues turn to be highly accessible. Full accessible surfaces of protein molecule at N-F- and N-B-transitions increase respectively from 39,000 to 70,400 A2 and from 39,000 to 47,000 A2. Basing on the prevailing increase of hydrophobic residues accessibility it is supposed that the molecule expansion testifies the separation of the subunits forming the molecule.
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PMID:[Conformational transitions of human serum albumin depending on pH. Study using tritium markers]. 175 65

The specificity of the p15 proteinase of myeloblastosis-associated virus (MAV) was tested with nonviral high molecular weight substrates and with synthetic peptides. Peptides with sequences spanning known cleavage sites in viral polyproteins of Rous sarcoma virus (RSV) and avian leukemia viruses, as well as in BSA and HSA, were synthesized, and the rate of their cleavage by the MAV proteinase was compared. Synthetic peptides require for successful cleavage at least 4 residues at the N-terminal side and 3 residues at the C-terminal side. The proteinase shows a preference for hydrophobic residues with bulky side chains (Met, Tyr, Phe) in P3, although Arg and Gln can also be accepted. Small hydrophobic residues are required in P2 and P2', and large hydrophobic residues (Tyr, Met, Phe/p-nitro-Phe) are preferred in both P1 and P1'. The difference between the specificity of the p15 proteinase and that of the HIV-1 proteinase mostly pertains to position P2' of the substrate, where bulkier side chains are accepted by the HIV-1 proteinase (Richards et al., 1990). A good chromogenic substrate for the MAV and RSV proteinases was developed and used to further characterize the MAV proteinase activity with respect to ionic strength and pH. The activity of the proteinase is strongly dependent on ionic strength and pH. Both the kcat and Km values contribute to a higher cleavage efficiency at higher salt concentrations and show a bell-shaped pH dependence curve with a sharp maximum at pH 5.5 (kcat) and 6.5 (Km).
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PMID:Specificity studies on retroviral proteinase from myeloblastosis-associated virus. 184 25

A computer-assisted single cell assay that allows quantification of the locomotive behavior of individual cells and a flow-through system that allows study of response of individual cells to stimulation were utilized to study the chemokinetic response of neutrophils. The range of basal mean rate of locomotion (mROL) and chemokinetic response to 10(-9) mol/L formylmethionyl leucyl phenylalanine (FMLP) was determined for neutrophils of eight normal adults. The basal mROL was 8.2 +/- 1.5 um/min and 6.2 +/- 1.0 um/min; the rate after 10(-9) mol/L fMLP was 12.1 +/- 2.1 and 9.5 +/- 1.8 um/min in 2.0 g% and 0.05 g% HSA, respectively. The mean increase in ROL for neutrophils was 50%. Assay with the flow-through system shows that the chemokinetic response--increase in mROL of a population of neutrophils in response to 10(-9) mol/L--is due to an increase in ROL when cells are actively moving and not due to a decrease in the amount of time the cell spends inactive. Studies of individual cells within the populations show that chemokinetic response to 10(-9) mol/L fMLP is highly variable. The majority of cells (77%) respond with an increase in ROL; the minority (23%) are nonresponders that characteristically move at ROL greater than or equal to 14 um/min prior to stimulation and do not change ROL or exhibit a net decline in ROL in response to 10(-9) mol/L fMLP. The dose response of a population of neutrophils and of individual neutrophils to serial addition of 10(-10) to 10(-6) mol/L fMLP shows that the fMLP dose dependence for maximal chemokinetic response is highly variable among individual cells. Seventeen percent of cells do not respond to any fMLP concentration; 25% of neutrophils exhibit maximal response to 10(-10) mol/L fMLP, while 50% and 25% of cells showed peak chemokinetic response to 10(-9) mol/L and greater than or equal to 10(-8) mol/L fMLP, respectively. These studies document the variability in the locomotive responses of peripheral blood neutrophils. Understanding the causes of variability in the chemokinetic responsiveness of individual neutrophils may improve our understanding of how the cellular inflammatory response in man can be modulated.
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PMID:The chemokinetic response of human neutrophils. 395 28

We compared the spontaneous behaviour (motility, adhesiveness, locomotion) and the chemotactic responses of exudate and blood-borne neutrophils. Directional locomotion of exudate neutrophils in 2% HSA-Gey's towards exudate fluid was not significantly changed, the response to activated autologous plasma diminished, and that to f-Met-Leu-Phe (10(-9) M) increased in comparison with blood-borne cells. The spontaneous behaviour of exudate cells in 2% HSA-Gey's (no gradient) differed markedly from that of blood-borne cells. In tissue culture medium (2% HSA-Gey's) exudate cells showed heightened motility in suspension and greater adhesiveness to glass substrata. These differences were eliminated by culturing the cells in their physiological media (i.e. plasma or exudate fluid). In contrast to blood-borne cells, exudate neutrophils tended to aggregate spontaneously. There was no correlation between neutrophil aggregation and adhesion to glass substrata of exudate cells in exudate fluid.
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PMID:Comparison of locomotion, chemotaxis and adhesiveness of rabbit neutrophils from blood and peritoneal exudates. 648 14

The chemotactic serum peptide preparations CAT 1.6.1. and C5adesArg induced marked directional locomotion over a wide concentration range without significant effects on random locomotion and adhesion of human neutrophils in Gey's solution containing 2% HSA. In contrast, f-Met-Leu-Phe produced marked negative chemokinetic effects and its capacity to induce directional locomotion was more limited with respect to magnitude and concentration range. The negative chemokinetic effect of f-Met-Leu-Phe correlated closely with increased spreading and cell adhesion.
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PMID:Diverging effects of chemotactic serum peptides and synthetic f-Met-Leu-Phe on neutrophil locomotion and adhesion. 720 27

Neutron capture therapy has a promising role in cancer treatment since it can achieve selectivity at the cellular level. The effect of this therapy depends on the subcellular localization of boron atoms in the target cell. Five boron compounds were investigated in this study: the monomeric and dimeric sulfhydryl boranes (BSH and BSSB), a boronated phenylalanine (BPA), and two porphyrin complexes (BOPP and VCDP). The study shows that when exponentially growing rat 9L gliosarcoma cells are exposed to an isoeffective concentration of each of the five compounds for 1 h, BOPP produces a much higher intracellular level of boron than the other four compounds; BSSB produces the second highest level, while exposure to BSH, VCDP, and BPA resulted in lower intracellular boron levels. Subcellular fractionation studies showed that most of the boron localized in the cytoplasm of the cells with all five compounds. A significantly higher boron concentration was found in the lysosomes of the cells, but the nuclei contained only minimal concentrations of boron. Computer simulations of neutron capture reactions with boron using a Monte Carlo simulation code indicated that BOPP would yield the highest potential effectiveness, followed by BSSB, BSH, VCDP, and BPA, in that order.
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PMID:Subcellular distribution of various boron compounds and implications for their efficacy in boron neutron capture therapy by Monte Carlo simulations. 843 11

Pronounced differences in the interactions of monomeric (lactone and carboxylate) and the J-type self-aggregated form of camptothecin (CPT), an inhibitor of DNA topoisomerase (topo) I, with human (HSA) and bovine (BSA) serum albumins were observed by using circular dichroism (CD) spectroscopy. HSA binding changes the geometry of the covalent structure of CPT due to hydrophobic contacts of the chromophore within the protein interior. The carbonyl group of the ring D of CPT (Fig. 1A) interacts with the positively charged amino acid residues of HSA. Interaction with HSA induces disaggregation of the J-type self-aggregates of CPT. On the other hand, neither heat-denatured HSA nor native BSA participated in binding of the lactone or carboxylate or self-aggregate forms of CPT. Analysis of HSA and BSA homology within the IIA and IIIA principle ligand-binding structural domains suggests that the binding site for the CPT chromophore is located in subdomain IIA. Hydrophobic contacts with Leu-203, Phe-211, and Ala-215 and electrostatic interactions with Lys-199 and/or Arg-222 of HSA may play a key role in formation of the drug-HSA complex.
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PMID:Interactions of lactone, carboxylate and self-aggregated forms of camptothecin with human and bovine serum albumins. 910 7

Aminoacyl-tRNA synthetases preserve the fidelity of decoding genetic information by accurately joining amino acids to their cognate transfer RNAs. Here, tRNA discrimination at the level of binding by Escherichia coli histidyl-tRNA synthetase is addressed by filter binding, analytical ultracentrifugation, and iodine footprinting experiments. Competitive filter binding assays show that the presence of an adenylate analogue 5'-O-[N-(L-histidyl)sulfamoyl]adenosine, HSA, decreased the apparent dissociation constant (K(D)) for cognate tRNA(His) by more than 3-fold (from 3.87 to 1.17 microM), and doubled the apparent K(D) for noncognate tRNA(Phe) (from 7.3 to 14.5 microM). By contrast, no binding discrimination against mutant U73 tRNA(His) was observed, even in the presence of HSA. Additional filter binding studies showed tighter binding of both cognate and noncognate tRNAs by G405D mutant HisRS [Yan, W., Augustine, J., and Francklyn, C. (1996) Biochemistry 35, 6559], which possesses a single amino acid change in the C-terminal anticodon binding domain. Discrimination against noncognate tRNA was also observed in sedimentation velocity experiments, which showed that a stable complex was formed with the cognate tRNA(His) but not with noncognate tRNA(Phe). Footprinting experiments on wild-type versus G405D HisRS revealed characteristic alterations in the pattern of protection and enhancement of iodine cleavage at phosphates 5' to tRNA nucleotides in the anticodon and hinge regions. Together, these results suggest that the anticodon and core regions play major roles in the initial binding discrimination between cognate and noncognate tRNAs, whereas acceptor stem nucleotides, particularly at position 73, influence the reaction at steps after binding of tRNA.
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PMID:tRNA discrimination at the binding step by a class II aminoacyl-tRNA synthetase. 1052 Dec 80

The cellular uptake and washout of the two principal boron neutron capture therapy (BNCT) agents, borocaptate sodium (BSH) and borono-phenylalanine (BPA), were monitored on-line, noninvasively, using nuclear magnetic resonance (NMR) spectroscopy. The uptake and washout of inorganic borate (B(i)) was also followed for comparison. M2R mouse melanoma cells grown on polystyrene microspheres were perfused inside the NMR sample tube. (11)B NMR was used to detect the presence of B(i), BSH and BPA, and (19)F NMR was applied to detect fluorinated BPA ((19)F-BPA). The results revealed chemical modifications of BSH due to spontaneous formation of the borocaptate dimer, BSSB, in the culture medium. BPA readily formed a complex with glucose contained in the culture medium but was also converted in the cells to a yet unidentified compound in a reaction that probably involves the hydrolysis of BPA and the release of B(i). The cellular accumulation ratio for BPA was significantly higher than 1 and was also significantly higher than that for BSH. On the other hand, the cellular retention time observed for BSH was much longer than for BPA, indicating a strong trapping of BSH in cells.
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PMID:Uptake and washout of borocaptate sodium and borono-phenylalanine in cultured melanoma cells: a multi-nuclear NMR study. 1085 71

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