1.Acidic HEPES-KH reperfusion enhances myocardial protection in immature rabbits.
Zhongdong, SUN ; Chenyuan, YANG ; Jianzhou, XING ; Tao, CHEN ; Nianguo, DONG ; Jun, LUO
Journal of Huazhong University of Science and Technology (Medical Sciences) 2002;22(2):107-8
To study the effects of different pH HEPES-KH reperfusate solution on immature myocardial protection, isolated perfused Langendorff model from immature rabbit hearts were developed formed. Control group (C) was perfused only with pH 7.4 HEPES-KH solution for 90 min. Ischemia/reperfusion group (group I/R) was perfused with pH 7.4 HEPES-KH solution before ischemia or after ischemia. Experimental group (group E), after ischemia, was perfused with pH 6.8, pH 7.1 and pH 7.4 HEPES-KH solutions for 5 min, 5 min, and 20 min, respectively. The left ventricular function recovery, MWC, LDH and CK leakage, MDA, ATP content, and SOD activity were determined. Our results showed that the left ventricular function recovery, ATP content and SOD activity in group E were higher than those of group I/R (P < 0.05). MWC, MDA content, LDH and CK leakage in group E were lower than those of group I/R (P < 0.05). These findings suggested that pH paradox might be one of important mechanisms for immature myocardial ischemia-reperfusion injury, and acidic perfusate, at the beginning of reperfusion, might attenuate pH paradox and ameliorate functional recovery in isolated perfused immature rabbit hearts.
Myocardium/metabolism
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Random Allocation
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Superoxide Dismutase/metabolism
2.Effects of light intensity on physiological and biochemical characteristics of Chrysanthemum morifolium at vegetative stage.
Qiaosheng GUO ; Yanru WANG ; Xianxiu ZHANG ; Miao JIN
China Journal of Chinese Materia Medica 2010;35(5):561-564
OBJECTIVETo study the effect of light intensity on physiological and biochemical characteristics of Chrysanthemum morifolium at the vegetative stage.
METHODThe dynamic response of physiological and biochemical indexes of Ch. morifolium were measured under different treatments (100%, 80%, 60%, 40% and 20% of the full sunlight) at the vegetative stage.
RESULTThe physiological and biochemical indexes of Ch. morifolium showed dynamic changes with the progress of growth and the increase of the treatment time. The soluble sugar content decreased when the light intensity reduced, and had a significant positive correlation with the light intensity. Soluble protein content rose firstly and fell later, malondialdehyde content increased, superoxide dismutase and catalase activity decreased initially and increased afterwards.
CONCLUSIONProper shading benefits the nitrogen accumulation of Ch. morifolium at the vegetative stage, and reduces the strength of stress condition. The suitable light environment for growth of Ch. morifolium at the vegetative stage is about 80%-60% of full sunlight and the optimum treatment time is 20-40 days.
Catalase ; metabolism ; Chrysanthemum ; physiology ; Light ; Lipid Peroxidation ; Superoxide Dismutase ; metabolism
4.Responses of physiological ecology and quality evaluation of Rehmannia gltinosa in continuous cropping.
Zhongyi ZHANG ; Gailing LI ; Miaomiao NIU ; Huamin FAN ; Juan LI ; Wenxiong LIN
China Journal of Chinese Materia Medica 2011;36(9):1133-1136
OBJECTIVETo study responses of physiological ecology and quality evaluation of Rehmannia glutinosa in continuous cropping.
METHODThe potted plant R. glutinosa which consists of first cropping, 1 year continuous cropping and 2 year continuous cropping were used as experimental materials. The photosynthetic activity, descending axis vitality, the protective enzymes system and MDA content were measured, the quality was evaluated by FTIR and HPLC.
RESULTContinuous cropping reduced the content of chlorophyll in the non-first cropping R. glutinos, the photosynthetic activity and descending axis vitality were weakened. Because of the increase of the free radical in the R. glutinos due to the continuous cropping, the activity of protective enzymes including POD, SOD and CAT were enhanced and MDA content were increased, more importantly the medical potency declined . And along with the increasing years of the continuous cropping, this effect becomes even stronger.
CONCLUSIONContinuous cropping affects the descending axis ability of absorbing water and nutrition and photosynthesis are inhibited R. glutinosa, at the same time, it also causes the disorders of antioxidation systems in R. glutinos, resulting in continuous cropping obstacle and decline of the medicinal materials quality.
Antioxidants ; metabolism ; Ecology ; Photosynthesis ; physiology ; Rehmannia ; enzymology ; growth & development ; metabolism ; physiology ; Superoxide Dismutase ; metabolism
6.Research on growth state and physiological changes of Epimedium wushanense under different shade conditions.
Hui WANG ; Yunxiang LI ; Qiumei QUAN ; Gang ZHAO ; Yayun TONG ; Yong NIE
China Journal of Chinese Materia Medica 2010;35(20):2669-2673
OBJECTIVETo study the growth state and physiological changes of Epimedium wushanense under different light conditions (100%, 80%, 60%, 40%, 20%), and investigate its adaptation mechanism to shade environment so that it can provide theoretical basis for cultivation and production.
METHODThe growth index, the content of photosynthetic pigments, proline content, MDA content, soluble sugar content, soluble protein content and antioxidant enzymy activity of E. wushanense under different shade conditions were measured.
RESULTExcept for length/width, the other form index of E. wushanense changed significantly. The E. wushanense grew well between light intensity 80%-40%, besides, the biomass above the earth was relatively high. The chlorophyll a, chlorophyll b, total chlorophyll content and carotenoids cotent were enhanced after shaded, the values of chlorophyll a\chlorophyll b increased between light intensity 100% -60% and reduced between light intensity 60% -20%. The proline and MDA content decreased after shading, the soluble sugar and soluble protein content increased respectively between light intensity 100% -60%, 100% -40% and reduced respectively between light intensity 60% -20%, 40% -20%. The SOD activity, CAT activity decreased after shading, and the POD activity, APX activity reduced between light intensity 60% -40%, raised under 20% treatment.
CONCLUSION80% 40% irradiance treatment was favorable to the growth of E. wushanense.
Catalase ; metabolism ; Epimedium ; chemistry ; physiology ; Light ; Peroxidase ; metabolism ; Superoxide Dismutase ; metabolism
7.REEP1 Preserves Motor Function in SOD1G93A Mice by Improving Mitochondrial Function via Interaction with NDUFA4.
Siyue QIN ; Pan YOU ; Hui YU ; Bo SU
Neuroscience Bulletin 2023;39(6):929-946
A decline in the activities of oxidative phosphorylation (OXPHOS) complexes has been consistently reported in amyotrophic lateral sclerosis (ALS) patients and animal models of ALS, although the underlying molecular mechanisms are still elusive. Here, we report that receptor expression enhancing protein 1 (REEP1) acts as an important regulator of complex IV assembly, which is pivotal to preserving motor neurons in SOD1G93A mice. We found the expression of REEP1 was greatly reduced in transgenic SOD1G93A mice with ALS. Moreover, forced expression of REEP1 in the spinal cord extended the lifespan, decelerated symptom progression, and improved the motor performance of SOD1G93A mice. The neuromuscular synaptic loss, gliosis, and even motor neuron loss in SOD1G93A mice were alleviated by increased REEP1 through augmentation of mitochondrial function. Mechanistically, REEP1 associates with NDUFA4, and plays an important role in preserving the integrity of mitochondrial complex IV. Our findings offer insights into the pathogenic mechanism of REEP1 deficiency in neurodegenerative diseases and suggest a new therapeutic target for ALS.
Mice
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Animals
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Amyotrophic Lateral Sclerosis/metabolism*
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Superoxide Dismutase-1/metabolism*
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Superoxide Dismutase/metabolism*
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Mice, Transgenic
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Spinal Cord/pathology*
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Mitochondria/physiology*
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Disease Models, Animal
9.Physiologic characteristics of Panax notoginseng seeds during after-ripening process.
Chengli DUAN ; Zhangtian LI ; Jinling DING ; Fenghui XIAO
China Journal of Chinese Materia Medica 2010;35(20):2652-2656
OBJECTIVEThe studies were carried out on the physiologic characteristics of Panax notoginseng seeds during the after--ripening process in order to understand the seed's biochemical and physiological changes and lay the foundation for the germplasm conversation and breeding research of P. notoginseng seeds.
METHODDynamic changes of storage material contents, respiratory rate and protective enzymatic activity were determined by normal biochemical and physiological measuring methods.
RESULTThe respiratory rate increased continuously during the stratification process, the contents of starch, soluble protein, crude fat decreased and the content of water-soluble saccharide increased with the embryo development, activities of CAT, POD and SOD increased with the raise of MDA content.
CONCLUSIONP. notoginseng seed's biochemical and physiological changes interacted with its embryo morphological changes to complete its after-ripening development.
Catalase ; metabolism ; Oxygen Consumption ; Panax notoginseng ; chemistry ; physiology ; Seeds ; growth & development ; Superoxide Dismutase ; metabolism
10.Protective effects of active compounds from on heart and brain of mice at simulated high altitude.
Beilei ZOU ; Yiting TIAN ; Zhiqun SHI ; Ruxue ZHANG ; Huiping MA
Journal of Zhejiang University. Medical sciences 2021;50(5):568-574
To investigate the active compounds from on the heart and brain of mice at simulated high altitude.Fifty healthy male adult BALB/c mice were randomly divided into normal control group, hypoxic model group, acetazolamide group, petroleum ether extract of (PESI) group and octacosan group with 10 mice in each group. Acetazolamide group, PESI group and octacosan group were treated with acetazolamide PESI (200 mg/kg) or octacosan by single tail vein injection, respectively. Except normal control group, the mice were exposed to a simulated high altitude of for in an animal decompression chamber. After the mice were sacrificed by cervical dislocation, the heart and brain were histologically observed by HE staining; superoxide dismutase (SOD) activity, total anti-oxidant capacity (T-AOC) and the content of malondialdehyde (MDA) in plasma, heart and brain tissues were detected by WST-1 method, ABTS method and TBA method, respectively; lactic acid and lactate dehydrogenase (LDH) activity in plasma, heart and brain tissues were detected by colorimetric method and microwell plate method, respectively; ATP content and ATPase activity in heart and brain tissues were detected by colorimetric method. PESI and octacosane significantly attenuated the pathological damages of heart and brain tissue at simulated high altitude; increased SOD activity, T-AOC and LDH activity, and decreased the contents of MDA and lactic acid in plasma, heart and brain tissues; increased the content of ATP in heart and brain tissues; increased the activities of Na-K ATPase, Mg ATPase, Ca ATPase and Ca-Mg ATPase in myocardial tissue; and increased the activities of Mg ATPase, Ca-Mg ATPase in brain tissue. PESI and octacosan exert anti-hypoxic activity by improving the antioxidant capacity, reducing the free radical levels, promoting the anaerobic fermentation, and alleviating the energy deficiency and metabolic disorders caused by hypoxia in mice.
Altitude
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Animals
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Brain/metabolism*
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Heart
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Male
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Malondialdehyde
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Mice
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Mice, Inbred BALB C
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Superoxide Dismutase/metabolism*