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Aim To investigate the effects of total saponins from Trillium tschonoskii maxim(TST)on cognitive impairment and mitochondrial autophagy in aging rats induced by D-galactose(D-gal). Methods Male SD rats were randomly divided into normal control group,model group(D-gal,subcutaneous injection),intervention group(TST,low,medium and high dose groups by intragastric administration),with 10 rats in each group,and administered for 6 weeks. Morris water maze was used to evaluate the cognitive function. HE and Nissl staining were used to test the hippocampal and brain cortex morphology. Immunohistochemistry staining was applied to detect the localization expression of Pink1 and Parkin. Western blot was employed to detect the expressions of Pink1,Parkin,LC3-Ⅱ,p62 and Beclin1. Results Compared with the normal control group,the escape latency time was prolonged and the number of crossing platform decreased in D-gal model group(P<0.05). The number of neurons in hippocampus significantly decreased. The positive cells labeled by Pink1 and Parkin staining in hippocampus significantly decreased. The expressions of Pink1,Parkin,LC3-Ⅱ and Beclin1 were markedly reduced,while the expression of p62 was significantly raised(P<0.05). Compared with D-gal model group,the escape latency time of TST dose groups was shortened,the Times of crossing the platform was more,and the time of staying in the platform quadrant increased(P<0.05). The number of neurons in hippocampus significantly increased. The positive cells labeled by Pink1 and Parkin staining in hippocampus significantly increased. The expressions of Pink1,Parkin,LC3-Ⅱ and Beclin1 in hippocampus were apparently up-regulated,while the protein expression of p62 was evidently down-regulated(P<0.05). Conclusions TST has neuroprotective effects on the learning and memory capacities in aging rats induced by D-gal,which may be related to the increasing levels of Pink1,Parkin,LC3-Ⅱ and Beclin1 proteins and the activation of mitochondrial autophagy.
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Aim To reveal the aetion mechanism of Trillium tschonoskii Maxim (TTM) in the treatment of myoeardial ischemia ( MI) by using network pharma¬cology combined with molecular docking.Methods Compounds of TTM were detected and fished out from TCMID, TCM@TAIWAN , BATMAN-TCM database, and the literature data from PubMed , CNK1, and WAN- FANGD database.PharmMapper database was used to find the targets related to compounds, and DISGeNET, GeneCards, DrugBank and OMIM databases were used to find the targets related to Ml.The predictive targets of TTM in the treatment of Ml were obtained.Cytosca- ope 3.1.2 Software and String database were used to build compound-target network and PP1 network.Gene ontology ( GO ) functional enrichment analysis and Kyoto Encyclopedia of Genes and Genomes ( KEGG ) pathway enrichment analysis were performed by utili¬zing the CludterProfiler Software package of RStudio software.The molecular docking was used for verifying the results of network analysis.Results The 10 active compounds of TTM were screened , and 13 core targets of Ml were predicted, such as ALB, EGFR, MAPK1 , CASP3,ESR1 ,etc.A total of 28 Ml-related signaling pathways were fished out.The results of molecular docking showed that the core active ingredients had good binding activity with the key targets.Conclusion TTM may play a role in the treatment of Ml through regulating multiple ingredients, multiple pathways, and multiple targets.
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Aim To explore the effect of Trillium tschonoskii Maxim (TTM) on the expression of miR-NA-155-3p in rats with brain aging induced by D-gal. Methods Fifty SD rats were divided into five groups randomly. The rats were administered with 0. 9% normal saline (NS) subeutaneously every day in control group, 200 mg • kg • d-1 of D-galactose (D-gal) daily inD-galmodelgroup,and50,100and200mg • kg • d-1 of TTM by gavage 2 hours before D-gal injection everyday in TTM treatment groups for 6 weeks. After 5 weeks, Morris water maze was used to test the ability of spatial learning and memory every day. At the 6th week, rats were sacrificed arid hippocampi were tested by Nissl staining and 8-OHdG immunohistochemical (8-OHdC) staining. The expression of miR-155-3p was determined by Real-time PCR, and the levels of Rheb. mTOR, p-inTOR and p70S6K were detected by Western blot. Results The length of escape latency time and path distance in five groups showed a trend of shortening gradually in the orientation navigation experiments. The average escape latency and the distance in D-gal group were longer than those in control group and TTM group (P <0. 01 and 0. 05) , and the number of crossing platform limes less too (P < 0. 05). The arrangement of neurons was irregular and the intercellular space widened in D-gal group compared with those in TTM group by HE staining. There were more Nissl particles in neurons of the hippocampal CA1 area in con-trol group than that in D-gal group, and TTM treatment could increase the number of Nissl bodies-induced by D-gal. Compared with control group, the fluorescence density of 8-OHdG in D-gal group significantly in-creased (P <0. 01) , while that in TTM group was lower than that in D-gal group (P < 0. 05). The expression of miR-155-3p in the hippocampi in D-gal group was significantly higher than that in normal group (P < 0. 05) , while TTM treatment could alleviate D-gal-in-duced increase of miR-155-3p (P < 0. 05) , followed by an increase of the levels of Rheb and p70S6K, and decrease of mTOR. Conclusions The expression of miR-155-3p increased in the hippocampi of aging rats induced by D-gal. TTM could execute the anti-aging process of brain and down-regulate the level of iniR-155-3p through Rheb/mTOR/p70S6K signaling pathway.
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Aim To assess the effects of Trillium Tschonoskii Maxim ( TTM) decoction on learning and memory dysfunction in Alzheimer’ s disease ( AD ) model rats which induced by okadaic acid( OA) and its possible mechanism. Methods The SD rats were di-vided into ten groups,namely,d DMSO control group, OA group, TTM high-dose ( 0. 5 g·kg-1·d-1) group,TTM medium-dose ( 1 g·kg-1·d-1) group, TTM lower-dose (2 g·kg-1·d-1) group,and these groups were divided into one week and two weeks of gavage. Treatment groups were gavaged with TTM de-coction twice a day. After 5 days of Morris water maze training,treatment groups and AD model groups were injected with OA (0.392 mmol·L-1,1. 5 μL) in bi-lateral hippocampal of the rats. The DMSO groups were injected with 10% DMSO. The spatial memory reten- tion wereas detected by water maze at 24 h after injec-tion. After the test, we prepared sample for Western blot and Nissl’s staining. The Western blotting test was used to detect the PP2A activity and the phospho-rylation of Tau protein in the hippocampus. Nissl’'s staining was used to observe the changes of the number of Nissl’s bodies in the hippocampal CA1 and CA3 re-gions. Results The Morris water maze test showed that after injection of OA, the latency of TTM groups wereas shorter than that of OA groups. Western blot showed that the high dose TTM could increase the ac-tivity of PP2A and decrease the level of Tau phospho-rylation at PS-Tau396,,PT-Tau404. The Nissl’s stai-ning results showed that the number of Nissl’s bodies in the hippocampal CA1 and CA3 regions of OA groups wereas significantly attenuated compared with that of the number of Nissl's bodies in the hippocampal CA1 and CA3 regions than DMSO groups. The number of Nissl’s bodies in high groups were morewas larger than that of OA group. Conclusion The results show that TTM can improve the learning and memory dysfunction in AD model rats which induced by OA. The mecha- nism wasis probably that TTM can increase PP2A ac-tivity and then down-regulate the level of Tau phospho-rylation and improve neural development.
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Aim To assess the effects of Trillium Tschonoskii Maxim ( TTM ) decoction on Tau protein phosphorylation and synaptic development in AD model rats induced by high activity GSK-3β. Methods The SD rats were divided into five groups of ten animals, named sham-operated group ( blank group) , AD model group, TTM group (0. 5, 0. 25, 0. 125 g·kg-1 · d-1 ) . Treatment group received gavage once a day for seven days with TTM decoction, while other groups by gavage once a day for seven days with drinking water. On 2nd day by gavage, Morris water maze test was used to assess the spatial learning and memory ability of the rats. After five days' training, rats in the treat-ment groups and AD model group were injected wort-mannin ( WT, PI3K specific inhibitor ) and GF-109203X (GFX, PKC specific inhibitor) (100 μmol ·L-1 of each, total volume of 10 μL) into the right lateral ventricle. Western blot was used to detect the levels of phosphorylation Tau protein at multiple sites and the expression level of PI3K, Akt, PKC, GSK-3β(S9, T216) and synapse-associated proteins. Immu-nohistochemical method was used to detect the hyper-phosphorylation of Tau protein in hippocampus of rats. Golgi staining was applied to detect the number and morphological changes of synaptic development and dendritic spines. Nissl' s staining was employed to ob-serve the development of neonatal neurons in hippo-campus and cortex. Results Western blot showed that the phosphorylation level of Tau in hippocampus increased in model group, and the activity of GSK-3βwas up-regulated. Among them, however, in middle dose TTM group, the phosphorylation level of Tau in hippocampus decreased and the activity of GSK-3βde-creased. The expression levels of p-PKC and p-Akt in low and middle dose treatment group were higher than those in model group, thus increasing the activity of PKC and Akt to inhibit the activity of GSK-3β kinase. Immunohistochemistry also indicated that TTM could decrease the biological effects of Tau phosphorylation in hippocampus of AD rats. Western blot showed that TTM could increase the expression levels of synapsin-1 , syn-aptophysin and GluR-1 in hippocampus of AD rats. Nissl staining showed that the number of Nissl bodies in hippocampal neurons of AD model group were signif-icantly fewer than those of sham operation group, which could be increased by TTM middle and high dose group, and the complexity and dendritic spine density of hippocampal neurons in AD rats could be en-hanced as well. Conclusion TTM can effectively im-prove the cognitive function of AD rats induced by the increase of GSK-3β activity, and its possible mecha-nism may be via down-regulating the activity of GSK-3β and inhibiting the phosphorylation of tau protein and promoting the development of neurons.
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Objective To evaluate the quality coherence of Trillium tschonoskii Maxim.from different producing areas by HPLC fingerprint and PCA; To provide a method for quality control. Methods Samples were separated by Hibar C18 (4.6 mm × 250 mm, 5 μm) with acetonitrile-water as gradient mobile phase at the flow rate of 1.0 mL/min. The wavelength was 203 nm and the temperature was 30 ℃. Chromatographic Fingerprint Similarity Evaluation System and PCA were used to analyze the data. Results The results of method validation of HPLC fingerprint met technical standards.15 common peaks was verified and the similarities of 14 batches of Trillium tschonoskii Maxim. from different producing areas were among 0.389–0.979. 3 principal components with the characteristic root cumulative contribution rate reaching 87.674% were screened out by PCA results. The composite score of S2 was the highest (4.926), and the quality was the best. Conclusion The application of HPLC combined with PCA can objectively and effectively evaluate the quality difference of Trillium tschonoskii Maxim.from different producing areas.
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Objective To evaluate the quality coherence of Trillium tschonoskii Maxim.from different producing areas by HPLC fingerprint and PCA; To provide a method for quality control. Methods Samples were separated by Hibar C18 (4.6 mm × 250 mm, 5 μm) with acetonitrile-water as gradient mobile phase at the flow rate of 1.0 mL/min. The wavelength was 203 nm and the temperature was 30 ℃. Chromatographic Fingerprint Similarity Evaluation System and PCA were used to analyze the data. Results The results of method validation of HPLC fingerprint met technical standards.15 common peaks was verified and the similarities of 14 batches of Trillium tschonoskii Maxim. from different producing areas were among 0.389–0.979. 3 principal components with the characteristic root cumulative contribution rate reaching 87.674% were screened out by PCA results. The composite score of S2 was the highest (4.926), and the quality was the best. Conclusion The application of HPLC combined with PCA can objectively and effectively evaluate the quality difference of Trillium tschonoskii Maxim.from different producing areas.
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Aim To investigate the effect of Trillium tschonoskii Maxim ( TTM ) ethanol extract on hypoxia ischemia brain damage ( HIBD ) in neonatal rats and potential mechanisms. Methods Fifty healthy SD rats of 7 day-old were randomly divided into three groups:the sham operation group ( n=10 ) , the model group ( n=20 ) and TTM treatment group ( n=20 ) , which received 3-day intraperitoneal injection of normal saline or ethanol extract of TTM respectively. TTC staining and Nissl staining were performed to detect the cerebral ischemia area and neuronal death. Western blot was used to detect the expression of Bcl-2 and Bax. Re-sults The brain tissue of model group was slightly swollen, and white necrotic zone induced by ischemia occured on the right side of the brain, while the brain morphology of TTM treatment group was good. After TTC staining, ischemia zone was clearly seen on the right side of the brain in model group, while after TTM treatment, the size of ischemic zone was decreased. Compared with the model group , Nissl staining showed the neuronal cells increased in TTM treatment group. Western blot showed the expression of Bcl-2 protein in TTM group increased than that in HIBD model group ( P <0. 01 ) , while the expression of Bax protein de-creased ( P <0. 01 ) . Conclusion TTM therapy is beneficial for HIBD,which may be related to reducing neuronal apoptosis.
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Objective: To investigate the chemical constituents in the roots and rhizomes of Trillium tschonoskii. Methods: The roots and rhizomes of T. tschonoskii were extracted with 70% ethanol and separated by chromatography on polyamide, silica gel, RP-C18, and Sephadex LH-20 columns. Chemical structures were identified by MS, 1D and 2D NMR experiments. Results: Twelve compounds were isolated and identified from the ethyl acetate extract from the roots and rhizomes of T. tschonoskii and n-butanol fractions were identified as β-ecdysone (1), pinnatasterone (2), polypodine B (3), methyl ferulorate (4), regaloside A (5), 4-hydroxy-benzoic acid (6), vanillic aldehyde (7), β-D-glucopyranosyl-(1→4)-O- [α-L-rhamnopyranosyl-(1→2)]-O-β-D-glucopyranoside (8), paris saponin V (9), paris saponin III (10), trillenoside A (11), and trillenoside C (12). Conclusion: Compounds 1, 2, 6, 7, 9, and 10 are isolated from the plants in this genus for the first time, and compounds 3-5, 11, and 12 are isolated from this plant for the first time.
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Objective: To investigate the chemical constituents in the roots and rhizomes of Trillium tschonoskii. Methods: The roots and rhizomes of T. tschonoskii were extracted with 70% ethanol and separated by polyamide, silica gel, RP-C18, and Sephadex LH-20 column chromatography. Chemical structures were identified by MS, 1D and 2D NMR spectroscopy. Results: Eight compounds were isolated and their structure were identified as pennogenin-3-O-α-L-rhamnopyranosyl-(1→2)-β-D-glucopyranoside (1), pennogenin-3-O-α-L-rhamno-pyranosyl-(1→4)-[α-L- rhamnopyranosyl-(1→2)]-β-D-glucopyranoside (2), pennogenin-3-O- α-L-rhamnopyranosyl-(1→4)-α-L-rhamnopyranosyl-(1→4) -[α-L-rhamnopyranosyl-(1→2)]-β-D-glucopyranoside (3), pennogenin (4), prosapogenin (5), 7, 11-dimethyl-3-methylene-1, 6-dodecadien-10, 11-dihdroxyl-10-O-β-D-glucopyranosyl-(1→4)-O-β-D-glucopyranoside (6), 7, 11-dimethyl-3-methylene-1, 6-dodecadien-10, 11-dihdroxyl-10-O-β-D- glucopyranoside (7), and astragalin (8). Conclusion: All these compounds are isolated from T. tschonoskii for the first time.