1.Construction and application of pharmacophore model of human carboxylesterase 2 inhibitors.
Jing-Fang ZHANG ; Yan-Cheng LI ; Gui-Yang XIA ; Yun-Qing SONG ; Ling-Yan WANG ; Peng-Cheng LIN ; Guang-Bo GE ; Sheng LIN
China Journal of Chinese Materia Medica 2021;46(3):638-644
According to human carboxylesterase 2(hCE2) inhibitors reported in the literature, the pharmacophore model of hCE2 inhibitors was developed using HipHop module in Discovery Studio 2016. The optimized pharmacophore model, which was validated by test set, contained two hydrophobic, one hydrogen bond acceptor, and one aromatic ring features. Using the pharmacophore model established, 5 potential hCE2 inhibitors(CS-1,CS-2,CS-3,CS-6 and CS-8) were screened from 20 compounds isolated from the roots of Paeonia lactiflora, which were further confirmed in vitro, with the IC_(50) values of 5.04, 5.21, 5.95, 6.64 and 7.94 μmol·L~(-1), respectively. The results demonstrated that the pharmacophore model exerted excellent forecasting ability with high precision, which could be applied to screen novel hCE2 inhibitors from Chinese medicinal materials.
Carboxylesterase/metabolism*
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Humans
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Hydrogen Bonding
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Hydrophobic and Hydrophilic Interactions
2.Research Progress on Abused Drugs Metabolic in vivo.
Bi Fen DING ; Lei SHAO ; Run Sheng ZHANG ; Chen LIANG ; Yu Rong ZHANG
Journal of Forensic Medicine 2016;32(4):290-295
Under the catalysis of a variety of metabolic enzymes in vivo, such as UDP-glucuronyl transferases, cytochrome P450, carboxylesterase, sulfotransferase, butyrylcholinesterase, catechol-O-methyl transferase and 6-morphine dehydrogenase, the drugs perform glucuronidation, hydrolysis, oxidation, sulfonation and other reactions, then translate into active or inactive metabolites, which are excreted through urination, bile or the other pathways at last. Different drugs own their different metabolic pathways. This paper introduces the studies about the metabolism of drugs in human and animal in recent years, such as morphine-like drugs, amphetamine, ketamine, cannabis and cocaine, and reviews the research progress about the sites of metabolism, metabolic enzymes, metabolites and physiological activity of those drugs metabolic in vivo.
Alcohol Oxidoreductases/metabolism*
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Animals
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Carboxylesterase/metabolism*
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Catechol O-Methyltransferase/metabolism*
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Cholinesterases/metabolism*
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Cytochrome P-450 Enzyme System/metabolism*
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Glucuronosyltransferase/metabolism*
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Humans
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Illicit Drugs/metabolism*
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Oxidation-Reduction
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Sulfotransferases/metabolism*
3.Stereoselectivity of skin carboxylesterase metabolism.
Quan-gang ZHU ; Jin-hong HU ; Hua-wu ZENG
Acta Pharmaceutica Sinica 2005;40(4):322-326
AIMTo study the stereoselectivity of skin carboxylesterase metabolism and its molecular biological foundation for improving drug percutaneous absorption.
METHODSKetoprofen ethyl ester was used as a model drug, and skin homogenate was applied for studying the stereoselectivity of carboxylesterase metabolism. Human liver L02 cell was used as control of carboxylesterase expression, and RT-PCR was used for studying the expression of carboxylesterase.
RESULTSThe main metabolite of ketoprofen ethyl ester in human skin homogenate was R-ketoprofen. Human carboxylesterase-2 was highly expressed in skin and its cells. However, the expression of human carboxylesterase-1 was very weak or not detectable.
CONCLUSIONHuman carboxylesterase-2 is the main hydrolytic enzyme of prodrugs in percutaneous absorption, and shows metabolic stereoselectivity to prodrugs with chiral esters.
Adult ; Carboxylesterase ; genetics ; metabolism ; Cell Line ; Cells, Cultured ; Humans ; Ketoprofen ; metabolism ; Liver ; cytology ; enzymology ; Prodrugs ; metabolism ; RNA, Messenger ; genetics ; metabolism ; Skin ; enzymology ; Stereoisomerism
4.Activity of esterases and effect of genetic polymorphism in workers exposed to organophosphorus pesticides.
Xing-ya KUANG ; Zhi-jun ZHOU ; Xin-xin MA ; Feng YAO ; Qiang-en WU ; Bo CHEN
Chinese Journal of Industrial Hygiene and Occupational Diseases 2006;24(6):333-336
OBJECTIVETo study the activity of esterases, including butyrylcholinesterase (BchE), carboxylesterase (CarbE), paraoxonase (PonE) and acetylcholinesterase (AChE), and to explore the effect of genetic polymorphism on the activity of esterase for workers exposed to organophosphorus pesticides (OPs).
METHODSTwo hundred and forty-one long term OPs directly exposed workers and 151 indirectly exposed workers in the same factory were taken as study group. One hundred and sixty unexposed persons were taken as control group. The activity of serum enzymes was measured and the polymorphic distribution was detected using 7900 genotype detecting system and CMOS Chip technique. The effect of long-term exposure to organophosphorus pesticides was analyzed.
RESULTSThe activities of BchE, CarbE and PonE were independent on the gender or age in control group. Average values of Carb and BchE activities of directly and indirectly exposed workers were lower than those in control group respectively. PonE activity in directly exposed group was lower than that in control group. AChE activity in directly exposed group was lower than that in indirectly exposed group. All the differences were significant (P < 0.01). In the direct exposure group, the frequency of three variants of butyrylcholinesterase gene K (BCHE-K) polymorphism was 74.3%, 24.1% and 1.6% for UU, UK and KK respectively. Frequency of allele U and K was 0.863 and 0.137 respectively in the same group. Frequency of three variants of PON192 polymorphism was 15.0%, 45.5% and 39.5% for AA, AB and BB respectively in direct exposure group. Gene frequency of low activity (PON*A) and high activity (PON*B) was 0.378 and 0.622 respectively. Frequency of three variants of PON55 polymorphism was 96.2%, 3.8% and 0% for MM, LM and LL respectively in direct exposure group. Frequency of allele M and L was 0.981 and 0.019 respectively in the same group. The activity of PON was different in various genotypes of PON192 and PON55.
CONCLUSIONThe long-term exposure to OPs could inhibit the activities of CarbE, BchE, PonE and ACh E in different level. The genetic polymorphisms of PON192 and PON55 affect the activity of PonE, which is related to the detoxification of OPs and health impact.
Acetylcholinesterase ; metabolism ; Adult ; Alleles ; Aryldialkylphosphatase ; genetics ; metabolism ; Butyrylcholinesterase ; genetics ; metabolism ; Carboxylesterase ; metabolism ; Female ; Gene Frequency ; Genotype ; Humans ; Male ; Middle Aged ; Occupational Exposure ; Organophosphorus Compounds ; adverse effects ; Pesticides ; adverse effects ; Polymorphism, Single Nucleotide
5.Differentiation of mesenchymal stem cells into dopaminergic neuron-like cells in vitro.
Li GUO ; Fei YIN ; Hong-Qi MENG ; Ling LING ; Ta-Na HU-HE ; Peng LI ; Chun-Xia ZHANG ; Shun YU ; De-Sheng DUAN ; Hong-Xue FAN
Biomedical and Environmental Sciences 2005;18(1):36-42
OBJECTIVETo explore the way to induce mesenchymal stem cells (MSCs) to differentiate into dopaminergic neurons in vitro.
METHODSMSCs were obtained from rat bone marrow, cultured and passaged. MSCs used in this experiment had multipotency, which was indirectly proved by being induced to differentiate into chondrocytes and adipocytes. MSCs were cultured in medium containing 0.5 mmol/L IBMX for 2 days. Then the medium was replaced with induction medium, which contained GDNF, IL-1beta, mesencephalic glial-cell-conditioned medium and flash-frozen mesencephalic membrane fragments. The surface markers of the differentiated neurons, such as NSE, nestin, MAP-2a, b and TH were detected by immunocytochemistry and Western blot after MSCs were cultured in induction medium for 7 days and 15 days.
RESULTSMSCs differentiated into neural progenitors and expressed nestin after MSCs were incubated with medium containing IBMX for 2 d. After the medium was replaced with induction medium containing many inducing agents, MSCs differentiated into neuron-like cells and dopaminergic neuron-like cells and expressed NSE, MAP-2a, b and TH. The percentage of NSE-positive cells, MAP-2a, b-positive cells and TH-positive cells was 30.032 +/- 2.489%, 41.580 +/- 5.101% and 34.958 +/- 5.534%, respectively after MSCs were induced in medium containing GDNF, IL-1beta, mesencephalic glial-cell-conditioned medium and flash-frozen mesencephalic membrane fragments for 15 days.
CONCLUSIONMSCs can differentiate into dopaminergic neuron-like cells and are a new cell source for the treatment of neurodegeneration diseases and have a great potential for wide application.
Adipocytes ; cytology ; Animals ; Blotting, Western ; Bone Marrow Cells ; Carboxylesterase ; analysis ; Cell Differentiation ; Cells, Cultured ; Chondrocytes ; cytology ; Culture Media, Conditioned ; Dopamine ; analysis ; Intermediate Filament Proteins ; analysis ; Mesencephalon ; cytology ; Mesenchymal Stromal Cells ; cytology ; Nerve Tissue Proteins ; analysis ; Nestin ; Neurons ; cytology ; metabolism ; Phosphoprotein Phosphatases ; analysis ; Rats ; Rats, Wistar