Sarvenaz Zand scite author profile

We aimed to determine whether three-dimensional (3D) cartilage could be engineered from umbilical cord blood (CB) cells and compare it with both engineered fetal cartilage and native tissue. Ovine mesenchymal progenitor cells were isolated from CB samples (n = 4) harvested at 80-120 days of gestation by low-density fractionation, expanded, and seeded onto polyglycolic acid scaffolds. Constructs (n = 28) were maintained in a rotating bioreactor with serum-free medium supplemented with transforming growth factor-β1 for 4-12 weeks. Similar constructs seeded with fetal chondrocytes (n = 13) were cultured in parallel for 8 weeks. All specimens were analyzed and compared with native fetal cartilage samples (n = 10). Statistical analysis was by analysis of variance and Student's t-test (p < .01). At 12 weeks, CB constructs exhibited chondrogenic differentiation by both standard and matrix-specific staining. In the CB constructs, there was a significant time-dependent increase in extracellular matrix levels of glycosaminoglycans (GAGs) and type-II collagen (C-II) but not of elastin (EL). Fetal chondrocyte and CB constructs had similar GAG and C-II contents, but CB constructs had less EL. Compared with both hyaline and elastic native fetal cartilage, C-II and EL levels were, respectively, similar and lower in the CB constructs, which had correspondingly lower and similar GAG levels than native hyaline and elastic fetal cartilage. We conclude that CB mesenchymal progenitor cells can be successfully used for the engineering of 3D cartilaginous tissue in vitro, displaying select histological and functional properties of both native and engineered fetal cartilage. Cartilage engineered from CB may prove useful for the treatment of select congenital anomalies. Stem Cells 2005;23:958-964

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Conceptually New Sulfone Analogues of the Hormone 1α,25-Dihydroxyvitamin D₃: Synthesis and Preliminary Biological Evaluation

Posner

Wang

Han

et al. 1999

J. Med. Chem.

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A conceptually new series of vitamin D(3)-like nonfluorinated and fluorinated 16-ene side chain tert-butyl sulfones 3-7 has been synthesized. Even though these novel C,D-ring side chain analogues of the hormone 1alpha,25-dihydroxyvitamin D(3) (1,1,25D(3)) lack a terminal OH group, thought previously to be essential for high biological activity, they are highly antiproliferative and, in several cases, transcriptionally active in vitro but desirably noncalcemic in vivo. The side chain sulfone group may be binding to the nVDR as a hydrogen-bond acceptor, in contrast to the hydrogen-bond donor function of the 25-OH group of natural 1,25D(3).

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Engineering of Implantable Cartilaginous Structures from Bone Marrow–Derived Mesenchymal Stem Cells

et al. 2007

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Fabrication of implantable cartilaginous structures that could be secured in the joint defect could provide an alternative therapeutic approach to prosthetic joint replacement. Herein we explored the possibility of using biodegradable hydrogels in combination with a polyglycolic acid (PGA) scaffold to provide an environment propitious to mesenchymal stem cells (MSCs) chondrogenic differentiation. We examined the influence of type I collagen gel and alginate combined with PGA meshes on the extracellular matrix composition of tissue-engineered transplants. MSCs were isolated from young rabbits, expanded in monolayers, suspended in each hydrogel, and loaded on PGA scaffolds. All constructs (n=48) were cultured in serum-free medium containing transforming growth factor beta-1, under dynamic conditions in specially designed bioreactors for 3-6 weeks. All cell-polymer constructs had a white, shiny aspect, and retained their initial size and shape over the culture period. Their thickness increased substantially over time, and no shrinkage was observed. All specimens developed a hyalin-like extracellular matrix containing glycosaminoglycans (GAGs) and type II collagen, but significant differences were observed among the three different groups. In PGA/MSCs and collagen-PGA/MSCs constructs, the cell growth phase and the chondrogenic differentiation phase of MSCs occurred during the first 3 weeks. In alginate-PGA/MSCs constructs, cells remained round in the hydrogel and cartilage extracellular matrix deposition was delayed. However, at 6 weeks, alginate-PGA/MSCs constructs exhibited higher contents of GAGs and lower contents of type I collagen. These results suggest that the implied time for the transplantation of in vitro engineered constructs depends, among other factors, on the nature of the scaffold envisioned. In this study, we demonstrated that the use of a composite hydrogel-PGA scaffold supported the in vitro growth of implantable cartilaginous structures cultured in a bioreactor system.

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Sarvenaz Zand

Cartilage Engineering from Ovine Umbilical Cord Blood Mesenchymal Progenitor Cells

Conceptually New Sulfone Analogues of the Hormone 1α,25-Dihydroxyvitamin D₃: Synthesis and Preliminary Biological Evaluation

Engineering of Implantable Cartilaginous Structures from Bone Marrow–Derived Mesenchymal Stem Cells

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Sarvenaz Zand

Cartilage Engineering from Ovine Umbilical Cord Blood Mesenchymal Progenitor Cells

Conceptually New Sulfone Analogues of the Hormone 1α,25-Dihydroxyvitamin D3: Synthesis and Preliminary Biological Evaluation

Engineering of Implantable Cartilaginous Structures from Bone Marrow–Derived Mesenchymal Stem Cells

Contact Info

Product

Resources

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Conceptually New Sulfone Analogues of the Hormone 1α,25-Dihydroxyvitamin D₃: Synthesis and Preliminary Biological Evaluation