Analysis of the mechanism of Ricinus communis L. tolerance to Cd metal based on proteomics and metabolomics.

The pollution of soil with heavy metals is an increasingly serious worldwide problem, and cadmium (Cd) has attracted attention because of its high toxicity to almost all plants. Since castor tolerates the accumulation of heavy metals, it has the potential for heavy metal soil remediation. We studied the mechanism of the tolerance of castor to Cd stress treatments at three doses: 300 mg/L, 700 mg/L, and 1,000 mg/L. This research provides new ideas for revealing the defense and detoxification mechanisms of Cd-stressed castor. By combining the results of physiology, differential proteomics and comparative metabolomics, we conducted a comprehensive analysis of the networks that regulate the response of castor to Cd stress. The physiological results mainly emphasize the super-sensitive responses of castor plant roots to Cd stress and the effects of Cd stress on plants' antioxidant system, ATP synthesis and ion homeostasis. We confirmed these results at the protein and metabolite levels. In addition, proteomics and metabolomics indicated that under Cd stress, the expressions of proteins involved in defense and detoxification, energy metabolism and other metabolites such as organic acids and flavonoids were significantly up-regulated. At the same time, proteomics and metabolomics also show that castor plants mainly block the root system's absorption of Cd2+ by enhancing the strength of the cell wall, and inducing programmed cell death in response to the three different doses of Cd stress. In addition, the plasma membrane ATPase encoding gene (RcHA4), which was significantly upregulated in our differential proteomics and RT-qPCR studies, was transgenically overexpressed in wild type Arabidopsis thaliana for functional verification. The results indicated that this gene plays an important role in improving plant Cd tolerance.

Overuse-induced patella-patellar tendon junction injuries:histological characteristics and growth factor expression levels / 中国组织工程研究

BACKGROUND: Although overuse-induced patella-patellar tendon junction injury is a common disease, its pathogenesis and healing mechanism remain unclear.OBJECTIVE: To establish an overuse-induced injury animal model by a repetitive traction at the patellar tendon insertion,and to explore its pathogenesis and healing mechanism based on histomorphology and growth factor expression levels.METHODS: Twenty-eight New Zealand rabbits were randomly divided into four groups: the rabbit left and right posterior limbs without any intervention as controls (n=4); cyclic loading training targeting the left posterior limb was done in model,healing and training groups (n=8 per group) for 4 weeks. Afterwards, the rabbits in the model group were killed immediately, rabbits in the healing group relaxed for another 4 weeks and then were killed, while rabbits in the training group were subjected to 4-week low-intensity training. The histological changes and growth factor expression levels during patella-patellar tendon junction injury and healing after load training were observed.RESULTS AND CONCLUSION: Compared with the control group, in the model group, the cells and collagenous fibers arranged in disorder, and the tidemark disappeared. The healing and training groups healed incompletely, but showed better histological changes than the model group. The thickness of fibrocartilage and basic fibroblast growth factor level in the control group were significantly lower than those in the other three groups (P < 0.05). The cell density and vascular endothelial growth factor level in the model group were significantly higher than those in the control and healing groups (P < 0.05). These results show that the animal model of overuse-induced patella-patellar tendon junction injury cannot return to normal after 4 weeks of rest, but the low-intensity training is conductive to healing quality.

Effect of different resting time on patella-patellar tendon healing after acute injury / 中国组织工程研究

BACKGROUND:Patella-patellar tendon junction (PPTJ) injuries are a common disease in athletes and vulnerable to re-injury. Post-injury training is a double-edged sword. OBJECTIVE:To examine the effect of post-injury resting days on the quality of healing in PPTJ in view of histomorphology, expression levels of growth factor and collagen, and muscle tension. METHODS:Forty New Zealand white rabbits were randomly divided into control, and five post-injury training groups representing different time to restart training after acute injury:the rabbits restarted training at 24 (PIT24), 48 (PIT48), 72 (PIT72), 96 (PIT96) and 120 (PIT120) hours, respectively. All post-injury training groups received acupuncture at the PPTJ and then underwent 4-week low-intensity training. Afterwards, all rabbits were killed to take specimens for hematoxylin-eosin, safranin O and immuohistochemical staining. The muscle tension and hardness were detected using Myoton-3. The thickness of fibrous cartilage zones, cell density, as well as the expression levels of vascular endothelial growth factor and collagen were measured on Metamorph software. RESULTS AND CONCLUSION:Compared with the control group, in the PIT groups, the collagens arranged in disorder, and decreased cell density, increased mucopolysaccharide andrising tidephenomenon appeared. The fibrocartilage in the PIT24 and PIT120 groups was significantly thicker than that in the control group (P<0.05). The ratio of collagen type Ⅰ/Ⅲ was significantly decreased in the PIT24 and PIT48 groups compared with the control group (P<0.05), and the highest in the PIT72 group. The expression level of vascular endothelial growth factor in the PIT48, PIT72 and PIT96 groups was significantly higher than that in the control group (P<0.05). The muscle tension was negatively correlated with the collagen ratio (r=-0.538;P<0.01) and chondrocyte density (r=-0.570;P<0.01), while muscle hardness was positively correlated with the expression level of vascular endothelial growth factor (r=0.613;P<0.01). Our results suggest that different resting time makes significant differences in the PPTJ healing and the 72-hour resting is the best choice. Moreover, muscular properties are related to the cel density, collagen synthesis and growth factor expression, which can be used as a non-invasive indicator to guide post-injury training and prevent recurrence.

[STUDIES ON THE CONSTITUENTS OF ARTEMISIA ANNUA L].

Six crystalline components were isolated from the lipophilic fraction of Artemisia annua L. They have been identified as four sesquiterpenes, one flavonol and one coumarin. Qinghaosu I and III are new sesquiterpenes. Five main constituents, camphene, iso-artemisia ketone, 1-camphor, ß-carophyllene, and ß-pinene were identified from the volatile oil of this herb.

STUDIES ON THE CONSTITUENTS OF ARTEMISIA ANNUA L / 药学学报

Six crystalline components were isolated from the lipophilic fraction of Artemisia annua L. They have been identified as four sesquiterpenes, one flavonol and one coumarin. Qinghaosu I and III are new sesquiterpenes. Five main constituents, camphene, iso-artemisia ketone, 1-camphor, β-carophyllene, and β-pinene were identified from the volatile oil of this herb.

SYNTHESIS OF TRIPHENYLETHYLENE WITH ALIPHATIC CYCLIC MOIETY AND ITS ANTAGONISM ON ESTROGEN RECEPTOR / 药学学报

AIM　In order to improve the biological activity and reduce the side effects and toxicity, a series of novel estrogen receptor antagonists were designed. METHODS　The key triphenylethylene intermediates were obtained by the McMurry reaction. The target compounds were prepared by etherification. The binding affinities of the target compounds for the estrogen receptor in rat uterine cytosol were measured by a competitive binding assay and their estrogen agonistic/antagonistic properties were investigated in the 3-day uterine weight assay in the immature rats. RESULTS　Thirty-five new compounds have been synthesized and their geometric configuration were determined by X-ray crystallography and 1HNMR spectral data. CONCLUSION　All of the test compounds showed affinity for the estrogen receptor (IC50<10-6 mol.L-1), especially compound 35 with IC50 1.07×10-8 mol.L-1. Some compounds are antagonists, inhibiting uterus growth; others are agonists, promoting uterus growth. Compounds 14 and 27 are superior antagonists to tamoxifen.

Studies on strategies to launch “Traditional Chinese Medicine Genome Project” / 中草药

The fundamental principle of the “Traditional Chinese Medicine (TCM) Genome Project” is to carry out genomic studies from the molecular level to discover effective functional genes in medicinal plants which may be cloned and expressed in factories or to transfer into plants for field cultivation Another approach is to carry out research studies to obtain enzymic genes capable of synthesizing bioactive compounds to be replicated in laboratory metabolic engineering processes The subject matter of “TCM Genome Project” and its significance for the modernization of TCM were expounded