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ObjectiveTo explore the effect of oleanolic acid (OA) on water metabolism in mice with water-dampness retention caused by spleen deficiency and the mechanism. MethodThe 60 SPF Kunming (KM) mice were randomized into blank group (n=10) and modeling group (n=50). Through long-term living in damp place and irregular diet, water-dampness retention caused by spleen deficiency was induced in modeling mice. Then the model mice were randomly classified into model group, natural recovery group, and low-dose, medium-dose, and high-dose OA groups. The mice in the blank group, model group, and natural recovery group were given (ig) 10 mL·kg-1·d-1 normal saline, and mice in the low-dose, medium-dose, and high-dose OA groups received 50, 100, 200 mg·kg-1·d-1 OA, respectively. The intervention lasted 7 days. Before and after modeling and administration, the general conditions of the mice were observed and body weight of mice was measured. The water content in feces and tissues was detected with the oven-drying method, and water load index and organ coefficient were measured with the weighing method. Enzyme-linked immunosorbent assay (ELISA) was employed to detect the urinary D-xylose excretion, serum gastrin (GAS), total protein (TP), albumin (ALB), total cholesterol (TC), high-density lipoprotein cholesterol (HDL-C), low-density lipoprotein cholesterol (LDL-C), interleukin-6 (IL-6), antidiuretic hormone (AVP), aquaporin 1 (AQP1) in renal medulla, and liver Na+-K+-ATPase. At the same time, OA was docked with ALB, IL-6, AQP1, and Na+-K+-ATPase. ResultCompared with the blank group, the model group showed withered hair, emaciation, laziness, bradykinesia, slow weight growth, infrequent spontaneous activities, high water content in feces and tissues, low weight loss after water loading, high coefficient of each organ (P<0.05, P<0.01). Moreover, the model group had less urinary D-xylose excretion, lower serum levels of GAS, TP, ALB, and HDL-C, higher levels of TC, LDL-C, AVP, and IL-6, lower expression of Na+-K+-ATPase in the liver, and higher expression of AQP1 in renal medulla than the blank group (P<0.05, P<0.01). The three OA groups demonstrated better general conditions, faster weight gain, more frequent spontaneous activities, lower water content in feces and tissues, larger weight loss after water loading, and lower coefficient of each organ than the model group (P<0.05, P<0.01). Moreover, compared with the model group, the three OA groups had high D-xylose excretion, high serum levels of GAS, TP, ALB, and HDL-C, low serum levels of TC, LDL-C, AVP, and IL-6, high expression of Na+-K+-ATPase in liver, and low expression of AQP1 in renal medulla (P<0.05, P<0.01). The recovery in each OA group was better than that in natural recovery group. Molecular docking results also confirmed that OA had high binding affinity with ALB, IL-6, AQP1, and Na+-K+-ATPase. ConclusionOA can alleviate the abnormal water metabolism in mice with water-dampness retention caused by spleen deficiency, which lays a basis for its potential clinical application.
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OBJECTIVE:To study the resistance effect of LaCl3 on different varieties of mint under saline-alkali stress with dif-ferent concentrations,and provide theoretical and experimental basis for its planting. METHODS:NaCl saline stress and NaHCO3 alkali stress with low,medium,high concentrations(25,50,100 mmol/L)were conducted for 4 kinds of mint [Mentha haploca-lyx Briq.,Mentha spicata Linn.,Monarda didyma L.,Mentha rotundifolia (Linn.)huds]. Growth indexes (survival rate,plant height,fresh weight and dry weight)were determined,and mint species with good resistance were screened. The effect mechanism of La3+ on growth indexes in saline-alkali stress with different concentrations,osmotic regulation indexes [soluble sugar(SS),solu-ble protein (SP), proline (Pro)], antioxidant activity indexes [superoxide dismutase (SOD), peroxidase (POD), catalase (CAT)],the yield of volatile oil,and resistance were determined. RESULTS:After saline-alkali stress,M. didyma and M. rotundi-folia had low survival rate,which were not suitable for growth under given climatic conditions. For M. haplocalyx and M. spicata, saline-alkali stress with low concentration can significantly increase the growth indexes under no artificial intervention. La3+ can sig-nificantly increase the yield and CAT activity under no stress. Compared with non-spraying La3+group,the SOD,CAT,POD activi-ties of mint added La3+ under saline stress with low,medium,high concentrations,plant height and fresh weight under alkali stress with high concentration,SOD activity and SS content under alkali stress with medium,high concentrations,and POD activity un-der alkali stress with medium concentration were significantly increased. CONCLUSIONS:Spraying La3+ can significantly improve the growth of M. haplocalyx and M. spicata under alkalized soil with medium,high concentrations. Mentha haplocalyx Briq. is se-lected as the mint specy with the best saline-alkali resistance.
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OBJECTIVE:To study the effects of exogenous abscisic acid(ABA)on salt-alkali tolerance of Scrophularia ning-poensis seedlings,and to provide theoretic evidence for cultivating S. ningpoensis in salt-alkali soil. METHODS:50 S. ningpoensis seedlings were divided into control group,salt-alkali group(75 mmol/L),salt-alkali(75 mmol/L)+ABA low-concentration,medi-um-concentration and high-concentration groups(10,50,100 μmol/L),with 10 plants in each group. 20 days after transplanting, the plants were sprayed with drugs every 4 days. Growth indexes of the plants(length of stem,fresh weight,dry weight,survival rate),physiological indexes [the contents of chlorophyll,soluble sugar (SS),soluble protein (SP) and free proline (Pro)],the contents of MDA and H2O2,the activities of antioxidase [the activities of SOD,POD,CAT,GR] and the contents of Na+ and K+in stem and root were determined in each group 2 weeks later. RESULTS:Compared with control group,stem height and survival rate of S. ningpoensis seedlings,SP,the contents of Na+ and K+ in the stem,the contents of Na+,CAT and GR in the roots were all decreased significantly in salt-alkali group;while chlorophyll,Pro,MDA and H2O2 contents,the content of K+ in the roots and the activities of SOD and POD were all increased significantly(P<0.05 or P<0.01). Compared with salt-alkali group,stem height of S. ningpoensis seedlings,fresh weight and chlorophyll content were increased significantly in salt-alkali+ABA medium-concentra-tion group,while MDA and the content of Na+ in the stem were decreased significantly;dry weight,the contents of SS and SP, the activities of SOD and CAT were increased significantly in salt-alkali+ABA low-concentration and medium-concentration groups, while the SS content was increased in salt-alkali+ABA high-concentration group;stem height and dry weight were decreased signifi-cantly in salt-alkali+ABA high-concentration group;Pro content of salt-alkali+ABA low-concentration and high-concentration groups were decreased significantly;H2O2,Na+ content in the roots were decreased significantly in salt-alkali+ABA low-concentra-tion,medium-concentration and high-concentration groups;while GR activity,K+ content in the stem and roots were increased sig-nificantly;POD activity were decreased significantly in salt-alkali+ABA medium-concentration and high-concentration groups. CON-CLUSIONS:The addition of a certain concentration of exogenous ABA can effectively increase salt-alkali tolerance of S. ningpoen-sis seedlings and strengthen the ability of the plant adapting to salt-alkali environment.
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OBJECTIVE:To study the resistance physiological responses of seedling of Scrophularia ningpoensis to the stress caused by saline and alkali at different concentrations. METHODS:The seedling of S. ningpoensis was placed in the illumination in-cubator,in which the temperature was maintained at(20±2)℃,light-dark cycle at 13 h/11 h and illumination intensity at 2 000 lx. The alkali (NaHCO3) of 50,100,150,200 and 250 mmol/L and the saline (NaCl) of 50,100,150,200 and 250 mmol/L were poured once every 4 days for 16 consecutive days. The growth indexes(plant height,fresh weight,dry weight),chlorophyll (Chl) content,antioxidative indexes [superoxide dismutase (SOD),catalase (CAT),peroxidase (POD),hydrogen peroxide (H2O2),malonaldehyde (MDA),membrane penetration (RMP)],and osmotic regulation physiological indexes [soluble sugar (SS),soluble protein(SP)and proline(Pro)] of the seedling were determined. There set a blank control group(distilled water). RESULTS:For saline concentration higher than 50 mmol/L and alkali concentration higher than 150 mmol/L,the seedling height, fresh weight and Chl content were lower;for saline concentration higher than 100 mmol/L and alkali concentration higher than 150 mmol/L,the dry weight of the seedling was lower. For saline concentration of 50 mmol/L and alkali concentration of 150 mmol/L, the activities of SOD and POD were the strongest;for saline concentration of 150 mmol/L and alkali concentration of 50 mmol/L, the activity of CAT was the strongest. The contents of H2O2 and MDA increased and the content of SP decreased with the increase in saline-alkali concentration. The level of RMP increased therewith,that is to say,membrane stability decreased. For saline concen-tration higher than 100 mmol/L and alkali concentration higher than 150 mmol/L,the accumulation of SS terminated;for saline and alkali concentrations higher than 100 mmol/L,the accumulation of Pro terminated,however,the content of Pro was markedly high-er in the above-said alkali concentration than in that saline concentration. CONCLUSIONS:Saline-alkali stress causes the tissues of S. ningpoensis to produce active oxygen and its cytoplasmic membrane system to be damaged. Chl,enzymatic antioxidants such as SOD,CAT and POD,and osmoprotectants such as Pro and SS can buffer saline-alkali stress to some degree. The maximum concen-trations of NaCl and NaHCO3 that seedling of S. ningpoensis can tolerate are 50 mmol/L and 150 mmol/L respectively.
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0.05),there were significant differences on NBNA scores in HIE neonates with moderate and severe degree between the two groups(P