Herbal Textual Research of Setariae Fructus Germinatus / 中国实验方剂学杂志

Setariae Fructus Germinatus (Guya) is a commonly used traditional Chinese medicine, which has been used for thousands of years. In ancient and modern books and works, the name is often confused because of its complicated relationship with the origin. In order to clarify the name and source of Guya, the authors examined the name, origin and processing history of Guya through consulting ancient Chinese herbal books, modern Chinese medicine monographs, calendar edition of Chinese Pharmacopoeia and the processing standards of various provinces, and found that different regions in China used Guya according to their local habits, resulting in the foreign body of the same name of Guya, lacking a unified standard. It is suggested that changing the name of Guya to Suya is more practical, and is conducive to the quality standard research and clinical accurate application of Guya.

Comparison of Dryness Effect Between Atractylodes lancea and A. chinensis / 中国实验方剂学杂志

Objective:To investigate the dryness effect of Atractylodes lancea and A. chinensis. Method:Sixty normal and healthy SD rats were randomly divided into 6 groups(10 in each group), including normal saline group, soybean oil group, low-dose(46.25 mg·kg-1·d-1) group and high-dose(500 mg·kg-1·d-1) group of A. lancea, low-dose(46.25 mg·kg-1·d-1) group and high-dose(500 mg·kg-1·d-1) group of A. chinensis, the dosing volume was 0.01 mL·g-1, and the drug was administered orally for 21 days. Taking average daily water intake, submandibular gland tissue, urine volume and expression of aquaporin 2(AQP2) in the kidney, and whole blood viscosity as the evaluation indexes, the dryness effect of long-term administration of equal doses of volatile oil from A. lancea and volatile oil from A. chinensis on rats was observed. Result:Compared with the soybean oil group, long-term administration of high doses of volatile oil from A. lancea and volatile oil from A. chinensis could significantly increase average daily water intake, urine volume and whole blood viscosity; decrease the expression of AQP2, and atrophy the acini of submandibular gland, but there was no significant difference between the two groups. Effects of volatile oil from A. lancea and A. chinensis with low dose on dryness of rats were not significant. Conclusion:There is no significant difference between the dryness effect of volatile oil from A. lancea and A. chinensis in the same dose. It is proved that the rationality of A. lancea and A. chinensis are universal in clinical practice, and this study provides experimental basis for rational use of Atractylodis Rhizoma.

Important role of Ser 219 phosphorylation of TRF1 in regulation of cell cycle / 浙江大学学报·医学版

<p><b>OBJECTIVE</b>To investigate the role of Ser 219 phosphorylation of TRF1 (telomere repeat binding factor 1) in regulation of cell cycle.</p><p><b>METHODS</b>The mimicking phosphorylation mutant (TRF1S219D-GFP) and the non-phosphorylatable mutant (TRF1S219A-GFP) were constructed; the mutant genes and corresponding proteins were checked by sequencing and Western blot, respectively. Immunofluorescence staining was performed to detect the localization of mutants in HeLa cells. Cell cycle was analyzed by flow cytometry and ATM level was evaluated by immunoblotting.</p><p><b>RESULTS</b>The mutant genes were verified by direct sequencing and protein expression of GFP-tagged mutants was confirmed by immunoblotting.TRF1S219A-GFP and TRF1S219D-GFP were both localized in telomere of HeLa cells. Moreover, overexpression of TRF1-GFP or TRF1S219A-GFP resulted in an accumulation of HeLa cells in G2/M (P<0.05). The protein level of ATM was increased when overexpression the wide type or mutants.</p><p><b>CONCLUSION</b>The Ser 219 phosphorylation of TRF1 by ATM could result in cell cycle arrest in G2/M, which is related to overexpression of TRF1.</p>

Localization of p53(301-393) mutant and its effect on mitosis / 浙江大学学报·医学版

<p><b>OBJECTIVE</b>To observe the localization of p53(301-393)(residues 301-393) in p53 positive/negative cells and its effect on cell mitosis.</p><p><b>METHODS</b>The protein expression of p53-GFP and p53(301-393)-GFP was checked by immunoblotting after transfection. Immunofluorescence staining was performed to detect the localization of wide type and mutant in Hela cells (p53 positive) and H1299 cells (p53 negative). The cell morphology of H1299 cells transfected of p53(301-393)-GFP and the cells in mitotic phase were observed. Cell cycle was analyzed by flow cytometry and p53 protein level in HeLa cells was evaluated by Western blot after transfection of p53-GFP and p53(301-393)-GFP.</p><p><b>RESULTS</b>The protein expression of p53-GFP and p53(301-393)-GFP was verified, p53-GFP was about 90 kMr and p53(301-393)-GFP about 40 kMr. Immunofluorescence microscopy demonstrated that both proteins were diffusely located in the nuclei of HeLa cells and H1299 cells. But different from the p53-GFP, the p53(301-393)-GFP was distributed in the nucleolus of HeLa cells. After transfection of the two plasmids, mitosis was inhibited in H1299 cells and some cells underwent apoptosis. G2/M progression of HeLa cells could be blocked by transfection of p53(301-393)-GFP, but endogenous p53 protein level was not changed.</p><p><b>CONCLUSION</b>p53(301-393)has a different localization in the p53 positive and p53 negative cells and could inhibit mitosis and cause the cell cycle arrest in G2/M.</p>