Five pentacyclic triterpenoids isolated from Campsis grandiflora were tested for insulin-mimetic and insulin-sensitizing activity. The compounds enhanced the activity of insulin on tyrosine phosphorylation of the IR (insulin receptor) beta-subunit in CHO/IR (Chinese-hamster ovary cells expressing human IR). Among the compounds tested, CG7 (ursolic acid) showed the greatest enhancement and CG11 (myrianthic acid) the least. We characterized the effect of CG7 further, and showed that it acted as an effective insulin-mimetic agent at doses above 50 mug/ml and as an insulin-sensitizer at doses as low as 1 mug/ml. Additional experiments showed that CG7 increased the number of IRs that were activated by insulin. This indicates that a major mechanism by which CG7 enhances total IR auto-phosphorylation is by promoting the tyrosine phosphorylation of additional IRs. CG7 not only potentiated insulin-mediated signalling (tyrosine phosphorylation of the IR beta-subunit, phosphorylation of Akt and glycogen synthase kinase-3beta), but also enhanced the effect of insulin on translocation of glucose transporter 4 in a classical insulin-sensitive cell line, 3T3-L1 adipocytes. The results of the present study demonstrate that a specific pentacyclic triterpenoid, CG7, exerts an insulin-sensitizing effect as an IR activator in CHO/IR cells and adipocytes. The enhancement of insulin activity by CG7 may be useful for developing a new class of specific IR activators for treatment of Type 1 and Type 2 diabetes.
Previously, we identified p85, a subunit of PI3K, as one of the molecules that interacts with the N-terminal region of Src homology 2 domain-containing leukocyte protein of 76 kDa (SLP-76). We also demonstrated that tyrosine phosphorylation either at the 113 and/or 128 position is sufficient for the association of SLP-76 with the Src homology 2 domain near the N terminus of p85. The present study further examines the role of the association of these two molecules on the activation of PI3K signaling cascade. Experiments were done to determine the role of SLP-76, either wild-type, tyrosine mutants, or membrane-targeted forms of various SLP-76 constructs, on the membrane localization and phosphorylation of Akt, which is an event downstream of PI3K activation. Reconstitution studies with these various SLP-76 constructs in a Jurkat variant cell line that lacks SLP-76 or linker for activation of T cells (LAT) show that the activation of PI3K pathway following TCR ligation requires both SLP-76 and LAT adaptor proteins. The results suggest that SLP-76 associates with p85 after T cell activation and that LAT recruits this complex to the membrane, leading to Akt activation.
Several in vivo studies have found that transplanting mesenchymal stem cells (MSCs) into degenerative intervertebral discs (IVDs) leads to regeneration of disc cells. Since the exact underlying mechanisms are not understood, we investigated the mechanisms of action of MSCs in regeneration of degenerative IVDs via paracrine actions. Human MSCs and degenerative disc cells from the same donor vertebrae were directly or indirectly cocultured. The multidifferentiation potential, cell proliferation, collagen synthesis, and mRNA expression levels were assessed. The proliferation rates of MSCs and degenerative disc cells were higher in the coculture system than in the monolayer cultures or in the conditioned medium of each cell type. During coculturing with nucleus pulposus (NP) cells, mRNA expression of the extracellular matrix (ECM) components aggrecan, versican (VCAN), SOX9, and type II and type VI collagen was significantly increased in MSCs, whereas mRNA expression for type V collagen was increased in MSCs cocultured with annulus fibrosus (AF) cells. In addition, the accumulation of total ECM collagen was greater in cocultured degenerative disc cells than in monocultured cells. During coculturing, MSCs downregulated the expression levels of various proinflammatory cytokine genes in degenerative NP [interleukin-1α ( IL-1α), IL-1β, IL-6, and tumor necrosis factor-α ( TNF-α)] and AF cells ( IL-1α and IL-6), which are involved in the degradation of ECM molecules. In association with the trophic effect of MSCs on degenerative disc cells, upregulation of growth factor mRNA expression was shown in MSCs cocultured with degenerative NP cells [epidermal growth factor ( EGF), insulin-like growth factor-1 ( IGF-1), osteogenic protein-1 ( OP-1), growth and differentiation factor-7 ( GDF-7), and transforming growth factor-β ( TGF-β)] or degenerative AF cells ( IGF-1, OP-1, and GDF-7). In terms of MSC-based clinical approaches to IVD regeneration, implanting MSCs into a degenerative IVD may both stimulate MSC differentiation into an NP- or AF-like phenotype and stimulate the biological activation of degenerative disc cells for self-repair.
To investigate additional functions of the T cell adaptor, Src homology 2 (SH2) domain-containing leukocyte protein of 76 kD (SLP-76), we performed a yeast two-hybrid assay using the N-terminal region of SLP-76 fused with the kinase domain of Syk. By screening a human leukemia cDNA library, we identified the p85 subunit of phosphoinositide 3-kinase (PI3K) as one of the interacting molecules. Unlike the SH2 domain of Vav or Nck, tyrosine phosphorylation of SLP-76 at position 113 or 128 was sufficient for it to associate with the N-terminal SH2 of p85. Collectively, these data suggest that SLP-76 may play a role in PI3K signaling pathways.
The effects of fibroblast growth factor-2 (FGF-2) on collagen tissue regeneration by human bone marrow stem cells (hBMSCs) were investigated. hBMSCs were isolated from human vertebral body bone marrow during vertebral surgery and a population of hBMSCs with the characteristics of mesenchymal stem cells was observed. The FGF-2 treatment (5 ng/mL) affected on the colony-forming efficiency, proliferation, and in vitro differentiation of hBMSCs. Insoluble/soluble collagen and hydroxyproline synthesis was significantly enhanced in hBMSCs expanded with FGF-2 and the treatment of FGF-2 caused a reduction in the mRNA expression of collagen type I, but an increase of collagen types II and III along with lysyl oxidase family genes. Collagen formation was also examined using an in vivo assay model by transplanting hBMSCs into immunocompromised mice (n=4) and the histologic and immunohistochemical results revealed that significantly more collagen with a well-organized structure was formed by FGF-2-treated hBMSCs at 8 weeks posttransplantation (P<0.05). The DNA microarray assay demonstrated that genes related to extracellular matrix formation were significantly upregulated. To elucidate the underlying mechanism, chemical inhibitors against extracellular-signal-regulated kinase (ERK) and phosphoinositide 3-kinase (PI3K) were treated and following downstream expression was observed. Collectively, FGF-2 facilitated the collagen-producing potency of hBMSCs both in vitro and in vivo, rendering them more suitable for use in collagen regeneration in the clinical field.
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