The matrix remnants of the muralia of parenchymal cells consisted of a lace-like network (Fig. 1D1-1D3). ABT-263 manufacturer The amount of collagens in biomatrix scaffolds was evaluated by amino acid analysis
by methods used previously.30 Because hydroxyproline (Hyp) is unique to collagens and collagenous proteins, the collagen composition relative to total protein was expressed as residues of Hyp per 1,000 amino acids. The results demonstrated that collagen content increased from almost undetectable levels, i.e., less than 0.2 residues of Hyp/1,000 in liver, to ≈13 residues of Hyp/1,000 in biomatrix scaffolds. This indicates that delipidation and the high salt washes, described above, did not remove collagens, leaving almost all of the collagens in the biomatrix scaffolds. Detection of significant levels of hydroxylysine (Hyl), another collagen-associated amino acid, and
higher levels of glycine (Gly) in biomatrix scaffold supports our conclusion that collagen is markedly enriched in biomatrix scaffolds (Fig. 3A; Supporting Fig. S2, Supporting Table 1). Through immunohistochemical and ultrastructural studies, we were able to identify in the scaffolds all known collagen types found in liver in situ including fibrillar collagens (collagen types I, III, and V, 10-30 nm in diameter for fibrils and 500-3,000 nm for assembled fibers) and beaded filaments (possibly type click here VI). Those fibers and filaments are present in the subcapsular connective tissue layer lying beneath the mesothelial layer. Although typical structures of basement membranes were not found along the sinusoids from portal triads to central veins, we found collagen type IV and some bound, small fibrils form net-like, porous 3D lattices, serving as scaffolding Decitabine solubility dmso for the parenchymal cells (Fig. 2). Collagen type I bundles can be viewed as the principal structure of the scaffolds to
which other collagen types, glycoproteins, and proteoglycans are attached. In the Space of Disse, we found small bundles of collagen type I and fibers of collagen types III and VI as well as some type V, which is more abundant near portal triads and central veins. Representative immunohistochemistry data are presented in Fig. 3B, and a summary of matrix components and their locations in normal liver tissue versus those in the biomatrix scaffolds are listed in Fig. 4D. Early studies in the development of the protocols for biomatrix scaffold preparation indicated that the bulk of the cytoskeletal components are lost in the washes (data not shown). Still, we assessed the scaffolds by immunohistochemistry for residues of cytoskeletal components and found no evidence for tubulin, desmin, or actin, trace amounts of cytokeratins 18 and 19, and low levels of vimentin scattered throughout the scaffolds.
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