It is of interest to document the inhibition of A2780 cell proliferation using Mollugo nudicaulis Lam.(M.nudicaulis) extract by MTT assay and by monitoring the CXCR4 and HER2 expression through RT-PCR analysis. Results shown that the n-hexane extract of M.nudicaulis have anticancer activity IC50 values of 32.46±0.92 µg/mL on A2780 cell lines. It is further found that the CXCR4 and HER2 mRNA and protein expression were significantly reduced in M.nudicaulis treated A2780 cell lines. Thus, the n-hexane extract of M.nudicaulis is a natural source of bioactive compounds as potential anticancer agents. 相似文献
The aim of this study is to determine the effects of the combination of recombinant human BMP-2 (rh-BMP-2) and dentin sialoprotein (rh-DSP) on growth and differentiation in human cementoblasts and determine the underlying signal transduction mechanism. Compared to treatment of cementoblasts with either rh-BMP-2 or rh-DSP alone, the combination of rh-BMP-2 and rh-DSP synergistically increased cell growth, ALP activity, nodule formation and expression of differentiation markers. The differentiation-promoting effect was also observed in periodontal ligament cells and an osteoblastic cell line. Likewise, combination of rh-DSP and rh-BMP-2 increased BMP-2 mRNA expression and Smad1/5/8 phosphorylation, which was blocked by the BMP antagonist noggin. The expression levels of α2β1 integrin and RhoA, as well as the phosphorylation status of FAK and Akt, were increased by the combination of rh-BMP-2 and rh-DSP in a time-dependent manner. In addition, rh-BMP-2 and rh-DSP enhanced expression of Wnt ligands, β-catenin activation and GSK-3β phosphorylation, all of which were inhibited by the Wnt receptor antagonist DKK1. Furthermore, treatment with rh-DSP plus rh-BMP-2 resulted in phosphorylation of extracellular signal-regulated kinase (ERK), c-Jun N-terminal kinase (JNK) and p38 and also induced the nuclear translocation of the NF-κB p65 subunit, which was blocked by noggin. This study demonstrates for the first time that rh-DSP and rh-BMP-2 act synergistically, enhancing each other’s ability to stimulate cementoblastic cell growth and differentiation in vitro via autocrine BMP, integrin, Wnt/β-catenin, MAP kinase and NF-κB pathways. These results support the therapeutic potential of a combination strategy for aiding periodontal regeneration. 相似文献
The integration of biotechnology into chemical manufacturing has been recognized as a key technology to build a sustainable society. However, the practical applications of biocatalytic chemical conversions are often restricted due to their complexities involving the unpredictability of product yield and the troublesome controls in fermentation processes. One of the possible strategies to overcome these limitations is to eliminate the use of living microorganisms and to use only enzymes involved in the metabolic pathway. Use of recombinant mesophiles producing thermophilic enzymes at high temperature results in denaturation of indigenous proteins and elimination of undesired side reactions; consequently, highly selective and stable biocatalytic modules can be readily prepared. By rationally combining those modules together, artificial synthetic pathways specialized for chemical manufacturing could be designed and constructed.
Results
A chimeric Embden-Meyerhof (EM) pathway with balanced consumption and regeneration of ATP and ADP was constructed by using nine recombinant E. coli strains overproducing either one of the seven glycolytic enzymes of Thermus thermophilus, the cofactor-independent phosphoglycerate mutase of Pyrococcus horikoshii, or the non-phosphorylating glyceraldehyde-3-phosphate dehydrogenase of Thermococcus kodakarensis. By coupling this pathway with the Thermus malate/lactate dehydrogenase, a stoichiometric amount of lactate was produced from glucose with an overall ATP turnover number of 31.
Conclusions
In this study, a novel and simple technology for flexible design of a bespoke metabolic pathway was developed. The concept has been testified via a non-ATP-forming chimeric EM pathway. We designated this technology as “synthetic metabolic engineering”. Our technology is, in principle, applicable to all thermophilic enzymes as long as they can be functionally expressed in the host, and thus would be potentially applicable to the biocatalytic manufacture of any chemicals or materials on demand.
A mannose selection system was adapted for Agrobacterium-mediated transformation of plum (Prunus domestica L.) hypocotyl explants and the recovery of transgenic plants. Adventitious regeneration from non-transformed hypocotyl sections was inhibited when 3 mg/l mannose, combined with 10 mg/l sucrose, was added to the medium. Mature seed hypocotyl slices from the cultivar ‘Claudia Verde’ were infected with A. tumefaciens AGL1, carrying the pNOVgus vector, and placed onto different selective media with mannose. A low mannose selection (1.5 g/l, regeneration below the inhibitory concentration) applied for 16 weeks led to the regeneration of escapes. However, when mannose at 1.5 g/l or at 3 g/l (the regeneration-inhibiting concentration) was applied for 6 weeks from the beginning of the experiments and, after that, was increased to 5 g/l, several independent transgenic lines were obtained. The transformation events were monitored by detection of the GUS enzymatic activity at different stages of the process. Nevertheless, stable integration of transgenes into the genome of the plum plants was confirmed by PCR and Southern blot analysis. The transformed shoots were rooted on a medium supplemented with 10 g/l sucrose and 4 g/l mannose. The transformation procedure described here, using the pmi/mannose system for selection of transgenic plum plants, represents an alternative for the production of transgenic plum plants under conditions that are safe regarding human health and the environment, and would permit the insertion of more transgene/s in a pre-existing transgenic line. 相似文献
