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Pivot Concepts:
Gene/Protein
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Target Concepts:
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Query: UMLS:C0276640 (
TEM
)
20,729
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The elastic properties of elastin have essentially been discussed in terms of dominant entropic components, with questions still remaining about whether the basic mechanism is compatible with the classical theory of rubber elasticity. A better understanding of the structure-function relationships in terms of the protein's elastic properties remains an important goal in elastin science. Recently, we succeeded in the exon-by-exon synthesis of all polypeptide sequences encoded by the so-called hydrophobic exons and almost all of the cross-linking exons of human
tropoelastin
. Among these, the peptide encoded by exon 5 (PGGLAGAGLGA) has been extensively studied by classical spectroscopic methods, such as CD and NMR spectroscopy, and by molecular dynamics simulations. The results obtained clearly evidenced a large flexibility of the polypeptide chain, which oscillates between rather extended conformations, such as PPII, and folded ones, such as beta turns. At the supramolecular level, we obtained evidence by
TEM
that shows that the peptide encoded by exon 5 is able to self-assemble in fibrillar structures, a result indicating that the "information" for self-assembly is also contained within a small domain of
tropoelastin
.
...
PMID:Dissection of human tropoelastin: solution structure, dynamics and self-assembly of the exon 5 peptide. 1522 25
Tissue engineering of vascular elastin matrices disrupted by mechanical injury, disease, or congenitally absent, is among other factors, limited by the lack of suitable cell scaffolds to up-regulate and guide innately poor elastin synthesis by adult vascular smooth muscle cells (SMCs). Evidence suggests that scaffolds based on hyaluronan (HA), a glycosaminoglycan, may be useful to elicit elastogenic cell responses, although these effects appear to be dictated by HA fragment size and/or dose. This study investigates the efficacy of a simple, frequently adopted exogenous HA supplementation model to test this hypothesis. Rat aortic SMCs were cultured with HA (2 x 10(6) Da (HMW) > or = MW < or = 2.2 x 10(4) Da) supplemented at doses between 0.2 and 200 microg/ml. Cell layers were biochemically assayed for DNA, elastin and collagen content. Fragmented, but not high molecular weight (HMW) HA, stimulated cell proliferation in inverse correlation fragment size while the opposite effect was observed for synthesis of soluble and matrix elastin; almost no dose effects were observed within any group. SDS-Page/Western Blot and a desmosine assay semi-quantitatively confirmed the observed biochemical trends for
tropoelastin
and matrix elastin, respectively. Quantitative differences in elastin deposition were mirrored in
TEM
micrographs. Elastin was mostly deposited in the form of amorphous clumps but fibers were increasingly present in cell layers cultured with HMW HA. HA and its fragments did not disrupt normal fibrillin-mediated mechanisms of elastin matrix deposition. While the current outcomes confirm that the effects of HA on elastin synthesis are fragment size-specific, this study shows that an exogenous supplementation model does not necessarily simulate cellular matrix synthesis responses to HA-based biomaterial scaffolds.
...
PMID:Fragment size- and dose-specific effects of hyaluronan on matrix synthesis by vascular smooth muscle cells. 1645 81
Our prior studies demonstrated that exogenous supplements of pure hyaluronan (HA) tetramers (HA4) dramatically upregulate elastin matrix synthesis by adult vascular smooth muscle cells (SMCs). Some studies suggest that exogenous HA likely only transiently contacts and signals cells, and may elicit different cell responses when presented on a substrate (e.g., scaffold surface). To clarify such differences, we used a carbodiimide-based chemistry to tether HA4 onto glass, and compared elastin matrix synthesis by SMCs cultured on these substrates, with those cultured with equivalent amounts of exogenous HA4. Tethered HA4-layers were first characterized for homogeneity, topography, and hydrolytic stability using SEM, XPS, AFM, and FACE. In general, mode of HA4 presentation did not influence its impact on SMC proliferation, or cell synthesis of
tropoelastin
and matrix elastin, relative to non-HA controls; however, surface-tethered HA4 stimulated SMCs to generate significantly greater amounts of elastin-stabilizing desmosine crosslinks, which partially accounts for the greater resistance to enzymatic breakdown of elastin derived from these cultures. Elastin derived from both sets of cultures contained peptide masses that correspond to the predominant peptides present in rat aortic elastin. SEM and
TEM
showed that HA4-stimulated fibrillin-mediated elastin matrix deposition, and organization into fibrils. Surface-immobilized HA4 was particularly conducive to organization of elastin into aggregating fibrils, and their networking to form closely woven sheets of elastin fibers, as seen in cardiovascular tissues. The results suggest that incorporation of elastogenic HA4 mers onto cell culture substrates or scaffolds is a better approach than exogenous supplementation for in vitro or in vivo regeneration of architecturally and compositionally faithful-, and more stable mimics of native vascular elastin matrices.
...
PMID:Impact of delivery mode of hyaluronan oligomers on elastogenic responses of adult vascular smooth muscle cells. 1757 66
