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61.
Cerebral lipid metabolism in experimental hyperphenylalaninaemia: incorporation of 14C-labelled glucose into total lipids 总被引:3,自引:0,他引:3
—1. Effects of the administration of phenylalanine to rats on incorporation in vivo or in vitro of [U-14C]glucose into cerebral lipids were studied during the first 5–10 days of postnatal development. In addition, the effects of added phenylalanine and its deaminated metabolites on incorporation of [U-14C]glucose by homogenates into lipids of developing rat brain were investigated. Hyperphenylalaninaemia reduced incorporation both in vivo and in vitro of [U-14C]glucose into cerebral lipids. 2. Phenylalanine or tyrosine added in vitro at concentrations equivalent to those in the brain of the hyperphenylalaninaemic rat (0-1 μmole/ml incubation medium) did not inhibit incorporation of [U-14C)glucose into lipids, although at much higher concentrations of phenylalanine (36 μumoles/ml incubation medium) slight inhibition (10 per cent) of incorporation of [U-14C]glucose into lipids was observed. 3. In contrast, the deaminated metabolites in general exerted greater inhibitory effects at lower concentrations. Phenyllactic acid, in comparison to phenylpyruvic and phenyl-acetic acid, was the most potent inhibitor of the incorporation in vitro of [U-14C]glucose into cerebral lipids. These results indicated that these metabolites of phenylalanine were the more potent inhibitors of cerebral lipid metabolism in immature animals. 相似文献
62.
THE INFLUENCE OF HIGH PHENYLALANINE AND TYROSINE ON THE CONCENTRATIONS OF ESSENTIAL AMINO ACIDS IN BRAIN 总被引:10,自引:2,他引:8
—High circulating levels of phenylalanine caused depletions of threonine, valine, methionine, isoleucine, leucine, histidine, tryptophan, and tyrosine in immature and adult rat brains. The branched-chain amino acids were most affected. Their reductions ranged between 38–64 per cent of control values when phenylalanine was administered either parenterally or in the diet. The pattern of cerebral amino acid depletions found in phenylalanine-injected infant rats was similar to that of the adults. Phenylalanine loading caused depletions in serum amino acid levels in adult rats, but in infant rats the serum levels were either unchanged or somewhat elevated. Tyrosine, when administered to adult rats either parenterally or via the diet, caused cerebral depletions in essential amino acids, but the depletions were not as striking as with phenylalanine. In both the infant and adult rat, brain-blood ratios of most of the essential amino acids were significantly reduced by phenylalanine loading. 相似文献
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B Y Wei J M Buerstedde M Bell C Chase A Nilson A Browne L Pease D J McKean 《Journal of immunology (Baltimore, Md. : 1950)》1991,146(7):2358-2366
To evaluate the potential functional role of the alpha- and beta-chain N-linked oligosaccharides we used site-directed mutagenesis to construct class II Ak alpha and Ak beta genes that encode polypeptides with altered N-linked oligosaccharide acceptor sites in the N-terminal domain of both polypeptides. The alpha 1 domain acceptor site at positions 82 to 84 was eliminated by substituting Gln for Asn at position 82. The beta 1 domain acceptor site at positions 19 to 21 was deleted by substituting Gln for Asn at position 19 or Ala for Thr at position 21. The mutant genes (Ak alpha* or Ak beta*) were transfected either individually (mutants T.19, T.21, and T.82) or together (mutant T.82-21) into class II cell surface negative B lymphoma cell lines. Quantitative immunofluorescence with a panel of Ak beta- or Ak alpha- reactive mAb demonstrated that although the oligosaccharide-deleted Ak alpha Ak beta molecules were serologically wild type, the Ad alpha serologic epitope defined by mAb K24-199 was eliminated in both the T.19 and T.21 Ak beta* Ad alpha molecules. Cloned cell lines expressing the T.19 or T.21 Ak beta* Ak alpha molecules exhibited limited functional Ag presentation defects. Cells expressing the T.82 Ak alpha* Ak beta molecules exhibited defects in Ag presentation function to nine of the ten T hybridomas tested. Surprisingly, cells expressing the mutant T.82-21 class II molecule stimulated a response that was equal to the wild-type response from three of the nine T hybrids and a response that was significantly greater than that of wild-type cells from five of nine T hybridomas. These functional and serological analyses also indicate that some of the observed Ag presentation defects may be due to altered secondary structure caused by either deletion of the oligosaccharide or the amino acid substitution used to delete the N-linked oligosaccharide acceptor site. 相似文献
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N R Slifman P Venge C G Peterson D J McKean G J Gleich 《Journal of immunology (Baltimore, Md. : 1950)》1989,143(7):2317-2322
The human eosinophil granule contains a series of cationic proteins. Two of these, eosinophil-derived neurotoxin (EDN) and eosinophil protein X (EPX), are reported to have similar m.w. and both possess neurotoxic and helminthotoxic activities. Therefore, the properties of these molecules were analyzed to determine whether they differ. EDN was purified from eosinophils of patients with the hypereosinophilic syndrome and EPX from the buffy coat cells of normal individuals. By SDS-PAGE, both proteins showed a major band at 18.7 kDa and a minor band at 21.4 kDa. By two-dimensional non-equilibrium gel electrophoresis the proteins migrated identically. With radiolabeled proteins in reverse phase HPLC, both proteins eluted at the same concentration of acetonitrile and showed identical tryptic maps. Both proteins possessed comparable ribonuclease activity and both were comparably neurotoxic in the rabbit. By immunodiffusion the two proteins showed a reaction of identity; by RIA, with both polyclonal and monoclonal antibodies, the proteins had very similar inhibitory activities. These results indicate that EDN and EPX have virtually identical properties and are probably the same protein. 相似文献
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Constructing a eukaryotic cilium/flagellum is a demanding task requiring the transport of proteins from their cytoplasmic synthesis site into a spatially and environmentally distinct cellular compartment. The clear potential hazard is that import of aberrant proteins could seriously disable cilia/flagella assembly or turnover processes. Here, we reveal that tubulin protein destined for incorporation into axonemal microtubules interacts with a tubulin cofactor C (TBCC) domain-containing protein that is specifically located at the mature basal body transitional fibres. RNA interference-mediated ablation of this protein results in axonemal microtubule defects but no effect on other microtubule populations within the cell. Bioinformatics analysis indicates that this protein belongs to a clade of flagellum-specific TBCC-like proteins that includes the human protein, XRP2, mutations which lead to certain forms of the hereditary eye disease retinitis pigmentosa. Taken with other observations regarding the role of transitional fibres in cilium/flagellum assembly, we suggest that a localized protein processing capacity embedded at transitional fibres ensures the 'quality' of tubulin imported into the cilium/flagellum, and further, that loss of a ciliary/flagellar quality control capability may underpin a number of human genetic disorders. 相似文献
70.
Graham DB Bell MP McCausland MM Huntoon CJ van Deursen J Faubion WA Crotty S McKean DJ 《Journal of immunology (Baltimore, Md. : 1950)》2006,176(1):291-300
Signaling lymphocyte activation molecule (SLAM) family receptors are critically involved in modulating innate and adaptive immune responses. Several SLAM family receptors have been shown to interact with the adaptor molecule SAP; however, subsequent intracellular signaling is poorly defined. Notably, mutations in SLAM-associated protein (SAP) lead to X-linked lymphoproliferative disease, a rare but fatal immunodeficiency. Although the SLAM family member Ly9 (CD229) is known to interact with SAP, the functions of this receptor have remained elusive. Therefore, we have generated Ly9-/- mice and compared their phenotype with that of SLAM-/- and SAP-/- mice. We report that Ly9-/- T cells exhibit a mild Th2 defect associated with reduced IL-4 production after stimulation with anti-TCR and anti-CD28 in vitro. This defect is similar in magnitude to the previously reported Th2 defect in SLAM-/- mice but is more subtle than that observed in SAP-/- mice. In contrast to SLAM-/- and SAP-/- mice, T cells from Ly9-/- mice proliferate poorly and produce little IL-2 after suboptimal stimulation with anti-CD3 in vitro. We have also found that Ly9-/- macrophages exhibit no defects in cytokine production or bacterial killing as was observed in SLAM-/- macrophages. Additionally, Ly9-/- mice differ from SAP-/- mice in that they foster normal development of NKT cells and mount appropriate T and B cell responses to lymphocytic choriomeningitis virus. We have identified significant phenotypic differences between Ly-9-/- mice as compared with both SLAM-/- and SAP-/- mice. Although Ly9, SLAM, and SAP play a common role in promoting Th2 polarization, Ly-9 is uniquely involved in enhancing T cell activation. 相似文献