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1.
Using hot alkaline solution, the elastic laminae were extracted from aortas and observed with scanning electron microscopy. Vascular structures were found in the elastin layers of the tunica media in descending thoracic aortas of sheep, dogs, and pigs, and these tube-like structures were filled with elastomer which was injected through the heart of the animal in vivo. Sub-intimal microvessels were also found to be filled with the elastomer and it is concluded that vasa vasorum can exist close to the internal elastic lamina in these animals. 相似文献
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Sixin Jiang Brigitte Heller Vincent S. Tagliabracci Lanmin Zhai Jose M. Irimia Anna A. DePaoli-Roach Clark D. Wells Alexander V. Skurat Peter J. Roach 《The Journal of biological chemistry》2010,285(45):34960-34971
Stbd1 is a protein of previously unknown function that is most prevalent in liver and muscle, the major sites for storage of the energy reserve glycogen. The protein is predicted to contain a hydrophobic N terminus and a C-terminal CBM20 glycan binding domain. Here, we show that Stbd1 binds to glycogen in vitro and that endogenous Stbd1 locates to perinuclear compartments in cultured mouse FL83B or Rat1 cells. When overexpressed in COSM9 cells, Stbd1 concentrated at enlarged perinuclear structures, co-localized with glycogen, the late endosomal/lysosomal marker LAMP1 and the autophagy protein GABARAPL1. Mutant Stbd1 lacking the N-terminal hydrophobic segment had a diffuse distribution throughout the cell. Point mutations in the CBM20 domain did not change the perinuclear localization of Stbd1, but glycogen was no longer concentrated in this compartment. Stable overexpression of glycogen synthase in Rat1WT4 cells resulted in accumulation of glycogen as massive perinuclear deposits, where a large fraction of the detectable Stbd1 co-localized. Starvation of Rat1WT4 cells for glucose resulted in dissipation of the massive glycogen stores into numerous and much smaller glycogen deposits that retained Stbd1. In vitro, in cells, and in animal models, Stbd1 consistently tracked with glycogen. We conclude that Stbd1 is involved in glycogen metabolism by binding to glycogen and anchoring it to membranes, thereby affecting its cellular localization and its intracellular trafficking to lysosomes. 相似文献
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A H Carey S Roach R Williamson J P Dumanski M Nordenskjold V P Collins G Rouleau N Blin P Jalbert P J Scambler 《Genomics》1990,7(3):299-306
DiGeorge syndrome is a human developmental field defect with the pathological features of an abnormality of embryogenesis at 4 to 6 weeks of gestation. Cytogenetic analyses of patients have revealed a number of instances of monosomy 22q11-pter in this condition. We have analyzed 52 DNA markers that map to 22q11-pter and have found 27 that are deleted in DiGeorge syndrome patients with known monosomy for part of this region and that are duplicated in patients with the der22 syndrome. The set of clones mapping to the DiGeorge region was further assigned to a proximal or a distal location within the deletion. 相似文献
6.
Metronidazole, tinidazole and dimetridazole were administered in the drinking water for 5 days to mice experimentally infected with Tritrichomonas muris and Tetratrichomonas microta. Mice were successfully infected with T. muris and T. microta recovered from infected gerbils. The trichomonas infection was successfully eliminated in mice given a 1% sucrose solution containing 2.5 mg/ml metronidazole or tinidazole. Mice receiving 1.0 mg/ml metronidazole, 1.0 mg/ml tinidazole and 1.2, 5.0 and 10.0 mg/ml dimetridazole failed to eliminate the trichomonas organism. A reduction in water intake was only noted with mice receiving 10 mg/ml dimetridazole. In mice receiving only 1% sucrose the infection was not eliminated. 相似文献
7.
We have investigated the effects of insulin and motor denervation on the phosphorylation of glycogen synthase in skeletal muscle. Rat epitrochlearis muscles were denervated in vivo 3 days before the contralateral and denervated muscles were incubated in vitro with 32Pi to label sites in glycogen synthase. The 32P-labeled synthase was rapidly immunoprecipitated from extracts under conditions which prevented changes in the phosphorylation state of the enzyme. When 32P-labeled synthase from contralateral muscles was cleaved with CNBr, essentially all of the 32P was recovered in two fragments, denoted CB-1 and CB-2. Incubating these muscles with insulin decreased the 32P content of each fragment by approximately 25%, indicating that the hormone stimulated dephosphorylation of at least two sites. Peptide mapping by reverse phase high performance liquid chromatography was performed to resolve phosphorylation sites more completely. The results suggest that the enzyme was phosphorylated in sites 1a, 1b, 2, 3(a+b+c), and 5. Insulin stimulated dephosphorylation of sites in peptides presumed to contain sites 1b, 2, and 3(a+b+c). Synthase from denervated muscles appeared to contain the same amount of phosphate as enzyme from contralateral muscles, and denervation did not detectably affect the distribution of 32P within the subunit. However, denervation abolished the effect of insulin on decreasing the 32P content of synthase. The results indicate that the insulin resistance induced by denervation involves a loss in the ability of insulin to stimulate dephosphorylation of glycogen synthase. 相似文献
8.
Catalytic site of rabbit glycogen synthase isozymes. Identification of an active site lysine close to the amino terminus of the subunit 总被引:5,自引:0,他引:5
Rabbit skeletal muscle glycogen synthase was inhibited by pyridoxal 5'-phosphate and irreversibly inactivated after sodium borohydride reduction of the enzyme-pyridoxal-P complex. The irreversible inactivation by pyridoxal-P was opposed by the presence of the substrate UDP-glucose. With [3H]pyridoxal-P, covalent incorporation of 3H label into the enzyme could be monitored. UDP-glucose protected against 3H incorporation, whereas glucose-6-P was ineffective. Peptide mapping of tryptic digests indicated that two distinct peptides were specifically modified by pyridoxal-P. One of these peptides contained the NH2-terminal sequence of the glycogen synthase subunit. Chymotrypsin cleavage of this peptide resulted in a single-labeled fragment with the sequence: Glu-Val-Ala-Asn-(Pyridoxal-P-Lys)-Val-Gly-Gly-Ile-Tyr. This sequence is identical to that previously reported (Tagaya, M., Nakano, K., and Fukui, T. (1985) J. Biol. Chem. 260. 6670-6676) for a peptide specifically modified by a substrate analogue and inferred to form part of the active site of the enzyme. Sequence analysis revealed that the modified lysine was located at residue 38 from the NH2 terminus of the rabbit muscle glycogen synthase subunit. An analogous tryptic peptide obtained from the rabbit liver isozyme displayed a high degree of sequence homology in the vicinity of the modified lysine. We propose that the extreme NH2 terminus of the glycogen synthase subunit forms part of the catalytic site, in close proximity to one of the phosphorylated regions of the enzyme (site 2, serine 7). In addition, the work extends the known NH2-terminal amino acid sequences of both the liver and muscle glycogen synthase isozymes. 相似文献
9.
Y Wang M Camici F T Lee Z Ahmad A A DePaoli-Roach P J Roach 《Biochimica et biophysica acta》1986,888(2):225-236
Rat liver glycogen synthase was purified to homogeneity by an improved procedure that yielded enzyme almost exclusively as a polypeptide of Mr 85,000. The phosphorylation of this enzyme by eight protein kinases was analyzed by cleavage of the enzyme subunit followed by mapping of the phosphopeptides using polyacrylamide gel electrophoresis in the presence of SDS, reverse-phase high-performance liquid chromatography and thin-layer electrophoresis. Cyclic AMP-dependent protein kinase, phosphorylase kinase, protein kinase C and the calmodulin-dependent protein kinase all phosphorylated the same small peptide (approx. 20 amino acids) located in a 14 kDa CNBr-fragment (CB-1). Calmodulin-dependent protein kinase and protein kinase C also modified second sites in CB-1. A larger CNBr-fragment (CB-2) of approx. 28 kDa was the dominant site of action for casein kinases I and II, FA/GSK-3 and the heparin-activated protein kinase. The sites modified were all localized in a 14 kDa species generated by trypsin digestion. Further proteolysis with V8 proteinase indicated that FA/GSK-3 and the heparin-activated enzyme recognized the same smaller peptide within CB-2, which may also be phosphorylated by casein kinase 1. Casein kinase 1 also modified a distinct peptide, as did casein kinase II. The results lead us to suggest homology to the muscle enzyme with regard to CB-1 phosphorylation and the region recognized by FA/GSK-3, which in rabbit muscle is characterized by a high density of proline and serine residues. A striking difference with the muscle isozyme is the apparent lack of phosphorylations corresponding to the muscle sites 1a and 1b. These results provide further evidence for the presence of liver- and muscle-specific glycogen synthase isozymes in the rat. That the isozymes differ subtly as to phosphorylation sites may provide a clue to the functional differences between the isozymes. 相似文献
10.
K C Anderson J A Roach J F Daley S F Schlossman L M Nadler 《Journal of immunology (Baltimore, Md. : 1950)》1986,136(10):3612-3618
B cell-enriched preparations were prepared from human peripheral blood and lymphoid tissues by the depletion of T cells and monocytes. Only B cells by virtue of their staining with anti-B1 conjugated to fluorescein were additionally examined. Dual fluorescence staining and flow cytometric analysis demonstrated that the majority of "resting" human peripheral blood and splenic B cells co-express the B cell-restricted B1 and B2 antigens and lack B5, a B cell-restricted activation antigen, and interleukin 2 receptor (IL 2R). In contrast, nearly 2/3 and 1/3 of B1+ cells isolated from lymph node expressed IL 2R and B5 antigens, respectively. When B1+ B cells from peripheral blood and spleen were "activated" by anti-Ig, they lost the B2 antigen and acquired the B5 and/or IL 2R antigens. 2/3 of B1+ cells strongly expressed IL 2R, and up to 1/2 of B1+ cells co-expressed B5. Delineation of increased numbers of B1+ cells that co-express B5 and/or IL 2R within lymphoid tissues obtained from patients with diseases characterized by "activated" B cells provides in vivo confirmation that these phenotypic changes correlate with B cell activation. We believe that the identification and isolation of these and similar subsets of cells defined by differing cell surface phenotypes should further our understanding both of normal B cell activation and the pathophysiology of B cell disease states. 相似文献