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Objective:To isolate and purify a polysaccharide CALB-2 fraction from Aurantii Fructus,and analyze its basic chemical structure, morphological characteristics and bioactivity. Method:A refined CALB-2 was obtained from Aurantii Fructus by hot water extraction,then separated and purified by ion exchange resin,ion exchange agarose gel and propylene dextran gel to obtain homogeneous polysaccharide CALB-2. The molecular mass of CALB-2 was determined by high performance liquid chromatography (HPLC). Monosaccharide composition analysis of CALB-2 was conducted by methylation analysis and Smith degradation. Structural analysis and morphological characterization were conducted by infrared scanning (IR) and scanning electron microscopy (SEM) analysis. Antioxidant activity of CALB-2 was studied by using H2O2-induced cardiomyocyte oxidative damage model. Result:CALB-2 was a homogeneous polysaccharide and the molecular weight of CALB-2 was estimated to be 3.57×107 Da,which was proved to be a kind of highly branched acidic polysaccharides in IR analysis, methylation analysis and Smith degradation, mainly present in form of 1→3,4 bonds. Through SEM observations,we indicated that the molecular morphology of CALB-2 was amorphous solid. The in vitro activity test showed that CALB-2 had obvious protective effects on injury of H9c2 myocardial cells induced by H2O2. Conclusion:CALB-2 is a kind of homogeneous polysaccharide extracted from Aurantii Fructus, with an anti-cardiomyocyte oxidative damage effect, laying a theoretical foundation for further study of Aurantii Fructus polysaccharides.
RESUMO
Aim To investigate the protective effect of Citrus aurantium L. polysaccharides-B(CALB) on ra-diation induced by 60Co γ-ray in mice. Methods The BALB/c mice were randomly divided into blank control group, radiation model group, CALB administration group (high, medium and low dose), and positive control group(black fungus polysaccharide,HP). The mice were administered orally for 30 days. After the last administration for three hours,the survival rates on the 2nd day and the 14th day of the blank control group and the irradiated mice after the single radioac-tive irradiation (7 Gy) with 60Co γ-ray were meas-ured. In addition, DNA content and micronucleus of bone marrow cells, SOD, GSH-Px activities, MDA content in serum, liver and brain tissues in mice, TChE activity in brain tissues and spleen and thymus index of mice were detected after one-time whole body irradiation with 60Co γ-ray (3 Gy). Results Each dose group of CALB could significantly improve the survival rate of irradiated mice,increase the DNA con-tent of mouse bone marrow cells and reduce the number of micronuclei in bone marrow cells. In addition, CALB could also increase the thymus and spleen index and the levels of SOD and GSH-Px in serum,brain and liver tissues of mice,and reduce the content of MDA. Conclusion CALB has protective effect on radiation injury,which can be used for further development and utilization of Fructus aurantii.
RESUMO
Calbindin D-28K (CALB) is one of the calcium-binding proteins which is assumed to be buffering, transport of Ca2+, and regulation of various enzyme systems. In the spinal cord, a subpopulation of calbindin-immunoreactive neurons located in the ventral portion of lamina VII, medial to the motoneuron column, has recently been proposed to be Renshaw cells (RCs), that mediate recurrent inhibition of spinal alpha-motoneurons, based on the anatomical location. In this study, we have performed to investigate the correlation between RCs containing high levels of CALB and motoneurons in the ventral horn of lumbar spinal cord of the ataxic pogo mice, that characterized by a failures of interlimb coordination, and prolonged excessive tone of hindlimb extensor muscles. We have shown that CALB immunoreactive RCs was significantly decreased in the ventral horn of lumbar spinal cord of the ataxic pogo mice (p.0.05), when compared with the control mice. Whereas, CALB immunoreactivity expression levels were no difference in the dorsal horn. Furthermore, CALB protein was significantly decreased in the lumbar spinal cord of the ataxic pogo mice (p.0.01). However, there were no difference in the cervical and thoracic spinal cord of the between control and pogo mice. These results suggest that motoneurons of ventral horn of the lumbar spinal cord might be more excited state, results in the decreased CALB immunoreactive RCs have not mediated a motoneuron excitability, in the atxic mice, pogo.