Fuai Cui scite author profile

PTPN12 is an important tumor suppressor that plays critical roles in various physiological processes. However, the molecular basis underlying the substrate specificity of PTPN12 remains uncertain. Here, enzymological and crystallographic studies have enabled us to identify two distinct structural features that are crucial determinants of PTPN12 substrate specificity: the pY+1 site binding pocket and specific basic charged residues along its surface loops. Key structurally plastic regions and specific residues in PTPN12 enabled recognition of different HER2 phosphorylation sites and regulated specific PTPN12 functions. In addition, the structure of PTPN12 revealed a CDK2 phosphorylation site in a specific PTPN12 loop. Taken together, our results not only provide the working mechanisms of PTPN12 for desphosphorylation of its substrates but will also help in designing specific inhibitors of PTPN12.

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VEGF and BMP-6 enhance bone formation mediated by cloned mouse osteoprogenitor cells

Cui¹,

Wang²,

Liu³

et al. 2010

Growth Factors

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New strategies such as combined utilization of growth factors may provide a better treatment for difficult fractures. We have demonstrated enhanced angiogenesis and osteogenesis through the actions of vascular endothelial growth factor (VEGF) and bone morphogenetic protein-6 (BMP-6) on the osteogenic differentiation of a cloned mouse osteoprogenitor cell in vitro and ectopic bone formation in vivo. Human VEGF and BMP-6 genes expressed together produced a significant increase in alkaline phosphatase activity, expression of the RunX2 and osteocalcin genes and mineralization. Microcomputed tomographic analysis of subcutaneous implants consisting of cells transfected with VEGF and BMP-6 cDNA and delivered on a 3D poly (lactic-co-glycolic acid) scaffold confirmed the additive effects between VEGF and BMP-6. Ectopic bone formation in the VEGF plus BMP-6 group was greatest compared to that in either VEGF or BMP-6 alone. This is the first study that demonstrates osteogenesis in vitro and in vivo through the additive effects of VEGF and BMP-6.

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<p>Antioxidative nanofullerol inhibits macrophage activation and development of osteoarthritis in rats</p>

Pei¹,

Cui²,

Du³

et al. 2019

IJN

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Background: There is emerging evidence which suggests that cellular ROS including nitric oxide (NO) are important mediators for inflammation and osteoarthritis (OA). Water-soluble polyhydroxylated fullerene C60 (fullerol) nanoparticle has been demonstrated to have an outstanding ability to scavenge ROS. Purpose: The objective of this study is to assess the effects of fullerol on inflammation and OA by in vitro and in vivo studies. Methods: For in vitro experiments, primary mouse peritoneal macrophages and a macrophage cell line RAW264.7 were stimulated to inflammatory phenotypes by lipopolysaccharide (LPS) in the presence of fullerol. For the animal study, OA model was created by intra-articular injection of monoiodoacetate into the knee joints of rats and fullerol was intravenously injected immediately after OA induction. Results: NO production and pro-inflammatory gene expression induced by LPS was significantly diminished by fullerol in both macrophage cell types. Meanwhile, fullerol could remarkably reduce phosphorylation of p38 mitogen-activated protein kinase, and protein level of transcription factors nuclear factor-kappaB and forkhead box transcription factor 1 within the nucleus. The animal study delineated that systematic administration of fullerol prevented OA, inhibiting inflammation of synovial membranes and the damage toward the cartilage chondrocytes in the OA joints. Conclusion: Antioxidative fullerol may have a potential therapeutic application for OA.

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Mitochondria-involved apoptosis induced by MPPa mediated photodynamic therapy

Tian

et al. 2008

Laser Phys. Lett.

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Abstract:Numerous new photosensitizers are now in various stages of trials demonstrating the broad applicability of Photodynamic therapy (PDT). However, only a handful of photosensitizers have received regulatory approval. Lack of effective photosensitizers has become a major limit for extensive application of PDT. Our previous study showed MPPa to be a good photosensitizer candidature, MPPa-PDT can lead PC-3M cell line to death mainly via apoptotic way both in vitro and in vivo, and part of the mechanism was investigated. Mitochondria may play a key role in the process, in order to further elucidate the mechanism, we investigated the level of ROS, GSH, NO, Ca 2+ , mitochondrial membrane potential, as well as cytochrome C. All in all, ROS production, depletion of GSH, and the activation of ROS downstream, such as mitochondria depolarization, cytochrome C release, were detected in our study. The results provide a mechanism by which oxidative stress provokes apoptosis of PC-3M cells.

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Combined VEGF and LMP-1 delivery enhances osteoprogenitor cell differentiation and ectopic bone formation

Wang

Cui²,

Madhu

et al. 2011

Growth Factors

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A novel strategy to enhance bone repair is to combine angiogenic factors and osteogenic factors. We combined vascular endothelial growth factor (VEGF) and LIM mineralization protein-1 (LMP-1) by using an internal ribosome entry site to link the genes within a single plasmid. We then evaluated the effects on osteoblastic differentiation in vitro and ectopic bone formation in vivo with a subcutaneously placed PLAGA scaffold loaded with a cloned mouse osteoprogenitor cell line, D1, transfected with plasmids containing VEGF and LMP-1 genes. The cells expressing both genes elevated mRNA expression of RunX2 and β-catenin and alkaline phosphatase activity compared to cells from other groups. In vivo, X-ray and micro-CT analysis of the retrieved implants revealed more ectopic bone formation at 2 and 3 weeks but not at 4 weeks compared to other groups. The results indicate that the combination of the therapeutic growth factors potentiates cell differentiation and may promote osteogenesis.

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Fuai Cui

Crystal Structure and Substrate Specificity of PTPN12

VEGF and BMP-6 enhance bone formation mediated by cloned mouse osteoprogenitor cells

<p>Antioxidative nanofullerol inhibits macrophage activation and development of osteoarthritis in rats</p>

Mitochondria-involved apoptosis induced by MPPa mediated photodynamic therapy

Combined VEGF and LMP-1 delivery enhances osteoprogenitor cell differentiation and ectopic bone formation

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