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1.
Functional properties of heparan sulfate (HS) are generally ascribed to the sulfation pattern of the polysaccharide. However, recently reported functional implications of rare N-unsubstituted glucosamine (GlcNH(2)) residues in native HS prompted our structural characterization of sequences around such residues. HS preparations were cleaved with nitrous acid at either N-sulfated or N-unsubstituted glucosamine units followed by reduction with NaB(3)H(4). The labeled products were characterized following complementary deamination steps. The proportion of GlcNH(2) units varied from 0.7-4% of total glucosamine in different HS preparations. The GlcNH(2) units occurred largely clustered at the polysaccharide-protein linkage region in intestinal HS, also more peripherally in aortic HS. They were preferentially located within N-acetylated domains, or in transition sequences between N-acetylated and N-sulfated domains, only 20-30% of the adjacent upstream and downstream disaccharide units being N-sulfated. The nearest downstream (toward the polysaccharide-protein linkage) hexuronic acid was invariably GlcUA, whereas the upstream neighbor could be either GlcUA or IdoUA. The highly sulfated but N-unsubstituted disaccharide unit, -IdoUA2S-GlcNH(2)6S-, was detected in human renal and porcine intestinal HS, but not in HS from human aorta. These results are interpreted in terms of a biosynthetic mechanism, whereby GlcNH(2) residues are formed through regulated, incomplete action of an N-deacetylase/N-sulfotransferase enzyme. 相似文献
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The rare N-unsubstituted glucosamine (GlcNH(3)(+)) residues in heparan sulfate have important biological and pathophysiological roles. In this study, four GlcNH(3)(+)-containing disaccharides were obtained from partially de-N-sulfated forms of heparin and the N-sulfated K5 polysaccharide by digestion with combined heparinases I, II, and III. These were identified as DeltaHexA-GlcNH(3)(+),DeltaHexA-GlcNH(3)(+)(6S),DeltaHexA(2S)-GlcNH(3)(+), and DeltaHexA(2S)-GlcNH(3)(+)(6S). Digestions with individual enzymes revealed that heparinase I did not cleave at GlcNH(3)(+) residues; however, heparinases II and III showed selective and distinct activities. Heparinase II generated DeltaHexA-GlcNH(3)(+)(6S),DeltaHexA(2S)-GlcNH(3)(+), and DeltaHexA(2S)-GlcNH(3)(+)(6S) disaccharides, whereas heparinase III yielded only the DeltaHexA-GlcNH(3)(+) unit. Thus, the action of heparinase II requires O-sulfation, whereas heparinase III acts only on the corresponding non-sulfated unit. These striking distinctions in substrate specificities of heparinases could be used to isolate oligosaccharides with novel sequences of GlcNH(3)(+) residues. Finally, heparinases were used to identify and quantify GlcNH(3)(+)-containing disaccharides in native bovine kidney and porcine intestinal mucosal heparan sulfates. The relatively high content of O-sulfated GlcNH(3)(+)-disaccharides in kidney HS raises questions about how these sequences are generated. 相似文献
4.
Vanpouille C Deligny A Delehedde M Denys A Melchior A Liénard X Lyon M Mazurier J Fernig DG Allain F 《The Journal of biological chemistry》2007,282(33):24416-24429
Many of the biological functions of heparan sulfate (HS) proteoglycans can be attributed to specialized structures within HS moieties, which are thought to modulate binding and function of various effector proteins. Cyclophilin B (CyPB), which was initially identified as a cyclosporin A-binding protein, triggers migration and integrin-mediated adhesion of peripheral blood T lymphocytes by a mechanism dependent on interaction with cell surface HS. Here we determined the structural features of HS that are responsible for the specific binding of CyPB. In addition to the involvement of 2-O,6-O, and N-sulfate groups, we also demonstrated that binding of CyPB was dependent on the presence of N-unsubstituted glucosamine residues (GlcNH2), which have been reported to be precursors for sulfation by 3-O-sulfotransferases-3 (3-OST-3). Interestingly, 3-OST-3B isoform was found to be the main 3-OST isoenzyme expressed in peripheral blood T lymphocytes and Jurkat T cells. Moreover, down-regulation of the expression of 3-OST-3 by RNA interference potently reduced CyPB binding and consequent activation of p44/42 mitogen-activated protein kinases. Altogether, our results strongly support the hypothesis that 3-O-sulfation of GlcNH2 residues could be a key modification that provides specialized HS structures for CyPB binding to responsive cells. Given that 3-O-sulfation of GlcNH2-containing HS by 3-OST-3 also provides binding sites for glycoprotein gD of herpes simplex virus type I, these findings suggest an intriguing structural linkage between the HS sequences involved in CyPB binding and viral infection. 相似文献
5.
Goupille Ronald E.; Smith April E.; Toida Toshihiko; Linhardt Robert J. 《Glycobiology》1997,7(2):231-239
Porcine intestinal mucosal heparan sulfate was exhaustivelydepolymerized on a large scale using beparin lyase II (heparinaseII) or heparin lyase III (heparitinase, EC 4.2.2.8
[EC]
). The oligosaccharidemixtures formed with each enzyme were fractionated by low pressuregel permeation chromatography. Size-uniform mixtures of disaccharides,tetrasaccharides, and hexasaccharides were obtained. Each size-fractionatedmixture was then purified on the basis of charge by repetitivesemipreparative strong-anion-exchange high-performance liquidchromatography. This approach has led to the isolation of 13homogenous oligosaccharides. The purity of each oligosaccharidewas demonstrated by the presence of a single peak on analyticalstrong-anion-exchange high-performance liquid chromatographyand reversed polarity capillary electrophoresis. The structuresof these oligosaccharides were established using 500 MHz one-and two-dimensional nuclear magnetic resonance spectroscopy.Three of the thirteen structures that were solved were novelwhile the remaining 10 have been previously described. All ofthe structures obtained using heparin lyase III contained a 相似文献
6.
Heparan sulfate D-glucosaminyl 3-O-sulfotransferase-3A sulfates N-unsubstituted glucosamine residues
Liu J Shriver Z Blaiklock P Yoshida K Sasisekharan R Rosenberg RD 《The Journal of biological chemistry》1999,274(53):38155-38162
3-O-Sulfation of glucosamine by heparan sulfate D-glucosaminyl 3-O-sulfotransferase (3-OST-1) is the key modification in anticoagulant heparan sulfate synthesis. However, the heparan sulfates modified by 3-OST-2 and 3-OST-3A, isoforms of 3-OST-1, do not have anticoagulant activity, although these isoforms transfer sulfate to the 3-OH position of glucosamine residues. In this study, we characterize the substrate specificity of purified 3-OST-3A at the tetrasaccharide level. The 3-OST-3A enzyme was purified from Sf9 cells infected with recombinant baculovirus containing 3-OST-3A cDNA. Two 3-OST-3A-modified tetrasaccharides were purified from the 3-O-(35)S-sulfated heparan sulfate that was digested by heparin lyases. These tetrasaccharides were analyzed using nitrous acid and enzymatic degradation combined with matrix-assisted laser desorption/ionization-mass spectrometry. Two novel tetrasaccharides were discovered with proposed structures of DeltaUA2S-GlcNS-IdoUA2S-[(35)S]GlcNH(2)3S and DeltaUA2S-GlcNS-IdoUA2S-[3-(35)S]GlcNH(2)3S6S . The results demonstrate that 3-OST-3A sulfates N-unsubstituted glucosamine residues, and the 3-OST-3A modification sites are probably located in defined oligosaccharide sequences. Our study suggests that oligosaccharides with N-unsubstituted glucosamine are precursors for sulfation by 3-OST-3A. The intriguing linkage between N-unsubstituted glucosamine and the 3-O-sulfation by 3-OST-3A may provide a clue to the potential biological functions of 3-OST-3A-modified heparan sulfate. 相似文献
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Ding K Jonsson M Mani K Sandgren S Belting M Fransson LA 《The Journal of biological chemistry》2001,276(6):3885-3894
We have analyzed the content of N-unsubstituted glucosamine in heparan sulfate from glypican-1 synthesized by endothelial cells during inhibition of (a) intracellular progression by brefeldin A, (b) heparan sulfate degradation by suramin, and/or (c) endogenous nitrite formation. Glypican-1 from brefeldin A-treated cells carried heparan sulfate chains that were extensively degraded by nitrous acid at pH 3.9, indicating the presence of glucosamines with free amino groups. Chains with such residues were rare in glypican-1 isolated from unperturbed cells and from cells treated with suramin and, surprisingly, when nitrite-deprived. However, when nitrite-deprived cells were simultaneously treated with suramin, such glucosamine residues were more prevalent. To locate these residues, chains were first cleaved at linkages to sulfated l-iduronic acid by heparin lyase and released fragments were separated from core protein carrying heparan sulfate stubs. These stubs were then cleaved off at sites linking N-substituted glucosamines to d-glucuronic acid. These fragments were extensively degraded by nitrous acid at pH 3.9. When purified proteoglycan isolated from brefeldin A-treated cells was incubated with intact cells, endoheparanase-catalyzed degradation generated a core protein with heparan sulfate stubs that were similarly sensitive to nitrous acid. We conclude that there is a concentration of N-unsubstituted glucosamines to the reducing side of the endoheparanase cleavage site in the transition region between unmodified and modified chain segments near the linkage region to the protein. Both sites as well as the heparin lyase-sensitive sites seem to be in close proximity to one another. 相似文献
9.
Preparation and characterization of N-enriched, size-defined heparan sulfate precursor oligosaccharides 总被引:2,自引:0,他引:2
We report the preparation of size-defined [15N]N-acetylheparosan oligosaccharides from Escherichia coli-derived 15N-enriched N-acetylheparosan. Optimized growth conditions of E. coli in minimal media containing 15NH4Cl yielded [15N]N-acetylheparosan on a preparative scale. Depolymerization of [15N]N-acetylheparosan by heparitinase I yielded resolvable, even-numbered oligosaccharides ranging from disaccharide to icosaccharide. Anion-exchange chromatography-assisted fractionation afforded size-defined [15N]N-acetylheparosan oligosaccharides identifiable by ESI-TOFMS. These isotopically labeled oligosaccharides will prove to be valuable research tools for the chemoenzymatic synthesis of heparin and heparan sulfate oligosaccharides and for the study of their structural biology. 相似文献
10.
R Reynertson P Campbell J D Ford I Jacobsson L Rodén J N Thompson 《The Journal of biological chemistry》1983,258(12):7449-7459
Oligosaccharides were isolated from heparin and heparan sulfate by a procedure consisting of three major steps: (a) acid hydrolysis; (b) gel chromatography; and (c) cation exchange chromatography on an amino acid analyzer. To date, six new oligosaccharides have been isolated by this procedure and have been sequenced by a combination of NaB3H4-labeling and deaminative cleavage with nitrous acid. The structures of these oligosaccharides were as follows: 1. GlcN-GlcUA-GlcN 2. GlcN-IdUA-GlcN 3. GlcN-GlcUA-GlcN-GlcUA-GlcN 4. GlcN-IdUA-GlcN-GlcUA-GlcN 5. GlcN-GlcUA-GlcN-IdUA-GlcN 6. GlcN-IdUA-GlcN-IdUA-GlcN The linkage positions and anomeric configurations were assumed to be the same as in the polysaccharides from which the oligosaccharides originated. The usefulness of some of these oligosaccharides as enzyme substrates was tested after appropriate modifications and radioactive labeling. Oligosaccharides 2 and 3 were N-[35S]sulfated and were found to serve as substrates for heparan N-sulfate sulfatase (heparin sulfamidase), with a homogenate of cultured skin fibroblasts as enzyme source. Similarly, reduction of oligosaccharide 2 with NaB3H4 yielded a substrate for acetyl-CoA:alpha-D-glucosaminide N-acetyltransferase. Finally, the previously known disaccharide, 4-O-alpha-D-glucosaminyl-L-iduronic acid, which was isolated in the course of this work, was N-acetylated with [3H] acetic anhydride and was shown to be a substrate for N-acetyl-alpha-D-glucosaminidase. 相似文献
11.
Bacillus cereus autolytic endoglucosaminidase active on cell wall peptidoglycan with N-unsubstituted glucosamine residues 总被引:1,自引:0,他引:1 下载免费PDF全文
An autolytic glycosidase from a lysozyme-resistant strain of Bacillus cereus capable of cleaving the glycosidic linkages of N-unsubstituted glucosamine in the cell wall peptidoglycan was studied. This glycosidase activity, together with N-acetylmuramyl-L-alanine amidase activity, was found in an autolytic enzyme preparation obtained from the 20,000 x g precipitate fraction by means of autolysis followed by ammonium sulfate fractionation. The major saccharide fragments resulting from digestion of the untreated, non-N-acetylated, cell wall peptidoglycan of B. cereus with the autolytic enzyme preparation were identified as N-acetylmuramyl-glucosamine and its dimer. The peptidoglycan N-acetylated with acetic anhydride could also be digested with the same enzyme preparation, giving N-acetylmuramyl-N-acetylglucosamine and its dimer as the major saccharide fragments. 相似文献
12.
《Biocatalysis and Biotransformation》2013,31(3):296-308
Heparan sulfate (HS) is a highly sulfated polysaccharide that plays essential physiological and pathophysiological functions. The biosynthesis of HS involves a series of specialised sulfotransferases, an epimerase and glycosyl transferases. The availability of these enzymes offers a promising method to prepare HS polysaccharides and structurally defined oligosaccharides. Given the fact that chemical synthesis of large HS oligosaccharides is extremely difficult, preparation of HS using a chemoenzymatic approach has gained momentum. This review article summarises recent progress on the development of a chemoenzymatic approach to prepare HS and HS oligosaccharides. 相似文献
13.
Latent transforming growth factor-beta-1 binding protein-2 (LTBP-2) is a protein of poorly understood function associated with fibrillin-1-containing microfibrils during elastinogenesis. In this study we investigated the molecular interactions of LTBP-2 with heparin and heparan sulfate proteoglycans (HSPGs) since unidentified cell surface HSPGs are critical for normal fiber assembly. In solid phase assays, heparin conjugated to albumin (HAC) bound strongly to recombinant full-length human LTBP-2. This interaction was completely blocked by addition of excess heparin, but not chondroitin sulfate, confirming specificity. Analysis of binding to LTBP-2 fragments showed that HAC bound strongly to N-terminal fragment LTBP-2 NT(H) and more weakly to central fragment LTBP-2 C(H). No binding was detected to C-terminal fragment LTBP-2 CT(H). Kds for heparin binding were calculated for full-length LTBP-2, LTBP-2 NT(H) and LTBP-2 C(H) as 0.9 nM, 0.7 nM and 80 nM respectively. HAC interaction with fragment LTBP-2 NT(H) was not sensitive to EDTA or EGTA indicating that binding had no requirement for Ca2+ ions whereas HAC binding to fragment LTBP-2 C(H) was markedly reduced by these chelating agents indicating a degree of Ca2+ dependence. Inhibition studies with synthetic peptides identified three major heparin binding sequences in fragment LTBP-2 NT(H), including sequence LTEKIKKIKIV in the first large cysteine-free domain of LTBP-2, adjacent to the previously identified fibulin-5 binding site. LTBP-2 was found to interact strongly in a heparin-inhibitable manner with cell surface HSPG syndecan-4, but showed no interaction with recombinant syndecan-2. LTBP-2 also showed strong interaction with the heparan sulfate chains of basement membrane HSPG, perlecan. The potential importance of HSPG–LTBP-2 interactions in elastic fiber assembly and microfibril attachment to basement membranes is discussed. 相似文献
14.
Ricard-Blum S Beraud M Raynal N Farndale RW Ruggiero F 《The Journal of biological chemistry》2006,281(35):25195-25204
Collagen-proteoglycan interactions participate in the regulation of matrix assembly and in cell-matrix interactions. We reported previously that a fragment (Ile824-Pro950) of the collagen alpha1(V) chain, HepV, binds to heparin via a cluster of three major basic residues, Arg912, Arg918, and Arg921, and two additional residues, Lys905 and Arg909 (Delacoux, F., Fichard, A., Cogne, S., Garrone, R., and Ruggiero, F. (2000) J. Biol. Chem. 275, 29377-29382). Here, we further characterized the binding of HepV and collagen V to heparin and heparan sulfate by surface plasmon resonance assays. HepV bound to heparin and heparan sulfate with a similar affinity (KD approximately 18 and 36 nM, respectively) in a cation-dependent manner, and 2-O-sulfation of heparin was shown to be crucial for the binding. An octasaccharide of heparin and a decasaccharide of heparan sulfate were required for HepV binding. Studies with HepV mutants showed that the same basic residues were involved in the binding to heparin, to heparan sulfate, and to the cell surface. The contribution of Lys905 and Arg909 was found to be significant. The triple-helical peptide GPC(GPP)5G904-R918(GPP)5GPC-NH2 and native collagen V molecules formed much more stable complexes with heparin than HepV, and collagen V bound to heparin/heparan sulfate with a higher affinity (in the nanomolar range) than HepV. Heat and chemical denaturation strongly decreased the binding, indicating that the triple helix plays a major role in stabilizing the interaction with heparin. Collagen V and HepV may play different roles in cell-matrix interactions and in matrix assembly or remodeling mediated by their specific interactions with heparan sulfate. 相似文献
15.
Y Kariya K Yoshida K Morikawa A Tawada H Miyazono H Kikuchi K Tokuyasu 《Comparative biochemistry and physiology. B, Comparative biochemistry》1992,103(2):473-479
1. Six kinds of unsaturated disaccharides were prepared by enzymatic digestion of heparin and heparan sulfate with heparitinases I0 and IV, and subsequent column chromatography. They were identified by HPLC showing good separation from each other. 2. The content of each unsaturated disaccharide fraction was determined colorimetrically, and found to range from 130.7 to 722.3 mumol. 3. Molecular extinction coefficient of each unsaturated disaccharide was calculated from absorbance at a wavelength of around 230 nm where a peak appeared on the ultraviolet spectrum of each disaccharide solution at pH 2. The values varied from 6000 to 6600. 相似文献
16.
K Tiedemann B B?tge P K Müller D P Reinhardt 《The Journal of biological chemistry》2001,276(38):36035-36042
Fibrillin-1 is a major constituent of the 10-12 nm extracellular microfibrils. Here we identify, characterize, and localize heparin/heparan sulfate-binding sites in fibrillin-1 and report on the role of such glycosaminoglycans in the assembly of fibrillin-1. By using different binding assays, we localize two calcium-independent heparin-binding sites to the N-terminal (Arg(45)-Thr(450)) and C-terminal (Asp(1528)-Arg(2731)) domains of fibrillin-1. A calcium-dependent-binding site was localized to the central (Asp(1028)-Thr(1486)) region of fibrillin-1. Heparin binding to these sites can be inhibited by a highly sulfated and iduronated form of heparan sulfate but not by chondroitin 4-sulfate, chondroitin 6-sulfate, and dermatan sulfate, demonstrating that the heparin binding regions represent binding domains for heparan sulfate. When heparin or heparan sulfate was added to cultures of skin fibroblasts, the assembly of fibrillin-1 into a microfibrillar network was significantly reduced. Western blot analysis demonstrated that this effect was not due to a reduced amount of fibrillin-1 secreted into the culture medium. Inhibition of the attachment of glycosaminoglycans to core proteins of proteoglycans by beta-d-xylosides resulted in a significant reduction of the fibrillin-1 network. These studies suggest that binding of fibrillin-1 to proteoglycan-associated heparan sulfate chains is an important step in the assembly of microfibrils. 相似文献
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Guerrini M Agulles T Bisio A Hricovini M Lay L Naggi A Poletti L Sturiale L Torri G Casu B 《Biochemical and biophysical research communications》2002,292(1):222-230
The glycosaminoglycans heparin and heparan sulfate (HS) bind to fibroblast growth factor FGF1 and promote its dimerization, a proposed prerequisite for binding to a cellular receptor and triggering mitogenic signals. The problem of minimal structural requirements for heparin/HS sequences to bind FGF1 was approached by surface plasmon resonance (SPR), NMR spectroscopy, and MALDI mass spectrometry studies using the three synthetic tetrasaccharides GlcNSO(3)6OR-IdoA2SO(3)-GlcNSO(3)6OR'-IdoA2SO(3)OPr (AA, R = R' = SO(3); BA, R = H, R' = SO(3); BB, R = R' = H; Pr, propyl). AA and BA significantly interact with the protein, whereas BB is practically inactive. The NMR spectra show that, whereas the interaction of AA primarily involves the GlcNSO(3)6SO(3)IdoA2SO(3) disaccharide moiety at its nonreducing end, residues at both the nonreducing (NR) and reducing side (R) appear to be involved in the weaker complex of BA. Furthermore, MALDI experiments show that, in addition to 1:1 protein:tetrasaccharide complexes, AA and BA are able to form 2:1 complexes, indicating that heparin/HS-induced dimerization of FGF1 requires only one 6-OSO(3) group per tetrasaccharide. 相似文献
19.
Conformation and dynamics of heparin and heparan sulfate 总被引:10,自引:0,他引:10
The glycosaminoglycans heparin and heparan sulfate contain similar structural units in varying proportions providing considerable diversity in sequence and biological function. Both compounds are alternating copolymers of glucosamine with both iduronate- and glucuronate-containing sequences bearing N-sulfate, N-acetyl, and O-sulfate substitution. Protein recognition of these structurally-diverse compounds depends upon substitution pattern, overall molecular shape, and on internal mobility. In this review particular attention is paid to the dynamic aspects of heparin/heparan sulfate conformation. The iduronate residue possesses an unusually flexible pyranose ring conformation. This extra source of internal mobility creates special problems in rationalization of experimental data for these compounds. We present herein the solution-state NMR parameters, fiber diffraction data, crystallographic data, and molecular modeling methods employed in the investigation of heparin and heparan sulfate. Heparin is a useful model compound for the sulfated, protein-binding regions of heparan sulfate. The literature contains a number of solution and solid-state studies of heparin oligo- and polysaccharides for both isolated heparin species and those bound to protein receptors. These studies indicate a diversity of iduronate ring conformations, but a limited range of glycosidic linkage geometries in the repeating disaccharides. In this sense, heparin exhibits a well-defined overall shape within which iduronate ring forms can freely interconvert. Recent work suggests that computational modeling could potentially identify heparin binding sites on protein surfaces. 相似文献
20.
Use of sulfated linked cyclitols as heparan sulfate mimetics to probe the heparin/heparan sulfate binding specificity of proteins 总被引:3,自引:0,他引:3
Freeman C Liu L Banwell MG Brown KJ Bezos A Ferro V Parish CR 《The Journal of biological chemistry》2005,280(10):8842-8849
Heparin and heparan sulfate (HS) are structurally diverse glycosaminoglycans (GAG) that are known to interact, via unique structural motifs, with a wide range of functionally distinct proteins and modulate their biological activity. To define the GAG motifs that interact with proteins, we assessed the ability of 15 totally synthetic HS mimetics to interact with 10 functionally diverse proteins that bind heparin/HS. The HS mimetics consisted of cyclitol-based pseudo-sugars coupled by linkers of variable chain length, flexibility, orientation, and hydrophobicity, with variations in sulfation also being introduced into some molecules. Three of the proteins tested, namely hepatocyte growth factor, eotaxin, and elastase, failed to interact with any of the sulfated linked cyclitols. In contrast, each of the remaining seven proteins tested exhibited a unique reactivity pattern with the panel of HS mimetics, with tetrameric cyclitols linked by different length alkyl chains being particularly informative. Thus, compounds with short alkyl spacers (2-3 carbon atoms) effectively blocked the interaction of fibroblast growth factor-1 (FGF-1) and lipoprotein lipase with heparin/HS, whereas longer chain spacers (7-10 carbon atoms) were required for optimal inhibition of FGF-2 and vascular endothelial growth factor binding. This effect was most pronounced with the chemokine, interleukin-8, where alkyl-linked tetrameric cyclitols were essentially inactive unless a spacer of >7 carbon atoms was used. The heparin-inhibitable enzymes heparanase and cathepsin G also displayed characteristic inhibition patterns, cathepsin G interacting promiscuously with most of the sulfated cyclitols but heparanase activity being inhibited most effectively by HS mimetics that structurally resemble a sulfated pentasaccharide. These data indicate that a simple panel of HS mimetics can be used to probe the HS binding specificity of proteins, with the position of anionic groups in the HS mimetics being critical. 相似文献