hBM-MSCs and hAT-MSCs were isolated from bone marrow aspirate and

hBM-MSCs and hAT-MSCs were isolated from bone marrow aspirate and lipoaspirate, respectively. Rat lungs were decellularized with CHAPS detergent, followed by seeding the matrix with hBM-MSCs and hAT-MSCs. Under appropriate culture conditions, both human MSC populations attached to and proliferated within the lung tissue scaffold. In addition, cells were capable of type 2 pneumocyte differentiation, as assessed by marker expression of surfactant protein C (pro-SPC) at the protein and the RNA level, and by Daporinad cost the presence of lamellar bodies by transmission electron microscopy. Additionally, hAT-MSCs

contributed to Clara-like cells that lined the airways in the lung scaffolds, whereas the hBM-MSCs did not. We also tested the differentiation

potential of MSCs on different extracellular matrix components in vitro, and found that protein substrate influences MSC epithelial differentiation. Together our data show the capacity for human MSCs to differentiate toward lung epithelial phenotypes, and the possibility of using these cells for lung cell therapies and tissue engineering.”
“By using a genome-wide N-ethyl-N-nitrosourea (ENU)-induced dominant mutagenesis screen in mice, a founder with low bone mineral density (BMD) was identified. Mapping and sequencing revealed a T to C transition in a splice donor of the collagen alpha1 type I (Col1a1) gene, resulting in the skipping of exon 9 and a predicted 18-amino acid deletion within the N-terminal region of the triple helical domain of Col1a1. Col1a1(Jrt)/+ mice were smaller in size, had lower BMD associated with decreased bone volume/tissue volume (BV/TV) and PKC412 in vitro reduced trabecular number, and furthermore exhibited mechanically weak, brittle, fracture-prone bones, a hallmark of osteogenesis imperfecta (OI). Several

markers of osteoblast differentiation were upregulated in mutant bone, and histomorphometry selleck showed that the proportion of trabecular bone surfaces covered by activated osteoblasts (Ob.S/BS and N.Ob/BS) was elevated, but bone surfaces undergoing resorption (Oc.S/BS and N.Oc/BS) were not. The number of bone marrow stromal osteoprogenitors (CFU-ALP) was unaffected, but mineralization was decreased in cultures from young Col1a1(Jrt)/+ versus +/+ mice. Total collagen and type I collagen content of matrices deposited by Col1a1(Jrt)/+ dermal fibroblasts in culture was approximate to 40% and 30%, respectively, that of +/+ cells, suggesting that mutant collagen chains exerted a dominant negative effect on type I collagen biosynthesis. Mutant collagen fibrils were also markedly smaller in diameter than +/+ fibrils in bone, tendon, and extracellular matrices deposited by dermal fibroblasts in vitro. Col1a1(Jrt)/+ mice also exhibited traits associated with Ehlers-Danlos syndrome (EDS): Their skin had reduced tensile properties, tail tendon appeared more frayed, and a third of the young adult mice had noticeable curvature of the spine.

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