ABSTRACT
Bone defect has always been a major clinical challenge because of its great difficulty and long period of treatment. Drynariae Rhizoma is a commonly used medicine in osteology and traumatology of traditional Chinese medicine, and its active ingredients(mainly flavonoids) facilitate osteoblast differentiation of bone marrow mesenchymal stem cells, osteoclast proliferation, vascular-osteogenic coupling, and inhibit osteoclast activity to promote bone mineralization, and repair and reconstruction of bone defect. As a good substitute for bone regeneration drugs, the active constituents of Drynariae Rhizoma can be loaded on scaffold materials of tissue engineering, which greatly improves the bioavailability of the drug. Meanwhile, the sustained-release microspheres also solve some problems such as sudden drug release from the scaffolds, and the composite scaffolds with active ingredient of Drynariae Rhizoma prepared by them have good ossification activity and osteoinduction, with precise bone repair effects, which meet the diverse performance requirements of bone grafts and have a promising clinical application prospect.
ABSTRACT
Objective To evaluate effect of dexmedetomidine on mitochondrion-dependent apoptosis during hypoxia-reoxygenation (H/R) injury to hippocampal neurons of rats.Methods The primarily cultured hippocampal neurons of Sprague-Dawley rats were divided into 4 groups (n =40 each) using a random number table method:control group (C group),vehicle group (V group),H/R group and dexmedetomidine group (D group).Hippocampal neurons were subjected to oxygen-glucose deprivation followed by restoration of oxygen supply to establish the model of H/R injury.Dexmedetomidine 1 μmol/L was added at 6 h of reoxygenation in D group.The viability of neurons was measured by methyl thiazolyl tetrazolium assay at 20 h of reoxygenation.The ultrastructure of mitochondria was observed by transmission electron microscopy.The expression of cytochrome c (Cyt c),caspase-3,Fis1 and Drp1 was detected by Western blot.The neuronal apoptosis was detected by flow cytometry,and apoptosis rate was calculated.Results Compared with C group,no significant change was found in the viability of neurons in group V (P>0.05),and the viability of neurons was significantly decreased,the apoptosis rate was increased,the expression of Cyt c,caspase-3,Fis1 and Drp1 was up-regulated (P<0.05),and the damage to mitochondrial ultrastructure was accentuated in H/R and D groups.Compared with H/R group,the viability of neurons was significantly increased,the apoptosis rate was decreased,the expression of Cyt c,caspase-3,Fis1 and Drp1 was down-regulated (P<0.05),and the damage to mitochondrial ultrastructure was significantly attenuated in D group.Conclusion The nechanism by which dexmedetomidine reduces the H/R injury to hippocampal neurons is related to inhibiting mitochondrion-dependent apoptosis in rats.
ABSTRACT
This is to report the study of degradation of earthworm extracts prepared by wet superfine grinding in simulated gastrointestinal environment. Enzymatic reactions were terminated by adjusting the solution pH or using membrane bioreactor principle. Earthworm protein concentration change was detected by Bradford method, the degraded state of protein was described with SDS-PAGE technology, and the degraded state of small molecule substances was detected by HPLC. The results showed that earthworm protein degraded completely in artificial gastric juice. High molecular weight protein degraded greatly in artificial intestinal fluid, while low molecular weight protein was not significantly degraded. Small molecular substances degradation did not degrade in artificial gastric juice, while they degraded obviously in artificial intestinal fluid, there is even new small molecule substance appeared. Finally it is concluded that the substance that having therapeutic effects in vivo may be some degraded peptide, amino acid and stable small molecules existed in artificial intestinal fluid.