Effects of in vivo targeted carboxylesterase 1f gene knockdown on the Kupffer cells polarization activity in mice with acute liver failure / 中华肝脏病杂志

Objective: To investigate the effect of targeted carboxylesterase 1f (Ces1f) gene knockdown on the polarization activity of Kupffer cells (KC) induced by lipopolysaccharide/D-galactosamine (LPS/D-GalN) in mice with acute liver failure. Methods: The complex siRNA-EndoPorter formed by combining the small RNA (siRNA) carrying the Ces1f-targeting interference sequence and the polypeptide transport carrier (Endoporter) was wrapped in β-1, 3-D glucan shell to form complex particles (GeRPs). Thirty male C57BL/6 mice were randomly divided into a normal control group, a model group (LPS/D-GalN), a pretreatment group (GeRPs), a pretreatment model group (GeRPs+LPS/D-GalN), and an empty vector group (EndoPorter). Real-time fluorescent quantitative PCR and western blot were used to detect Ces1f mRNA and protein expression levels in the liver tissues of each mouse group. Real-time PCR was used to detect the expression levels of KC M1 polarization phenotypic differentiation cluster 86(CD86) mRNA and KC M2 polarization phenotypic differentiation cluster 163 (CD163) mRNA in each group. Immunofluorescence double staining technique was used to detect the expression of Ces1f protein and M1/M2 polarization phenotype CD86/CD163 protein in KC. Hematoxylin-eosin staining was used to observe the pathological damage to liver tissue. A one-way analysis of variance was used to compare the means among multiple groups, or an independent sample nonparametric rank sum test was used when the variances were uneven. Results: The relative expression levels of Ces1f mRNA/protein in liver tissue of the normal control group, model group, pretreatment group, and pretreatment model group were 1.00 ± 0.00, 0.80 ± 0.03/0.80 ± 0.14, 0.56 ± 0.08/0.52 ± 0.13, and 0.26 ± 0.05/0.29 ± 0.13, respectively, and the differences among the groups were statistically significant (F = 9.171/3.957, 20.740/9.315, 34.530/13.830, P < 0.01). The percentages of Ces1f-positive Kupffer cells in the normal control group, model group, pretreatment group, and pretreatment model group were 91.42%, ± 3.79%, 73.85% ± 7.03%, 48.70% ± 5.30%, and 25.68% ± 4.55%, respectively, and the differences between the groups were statistically significant (F = 6.333, 15.400, 23.700, P < 0.01). The relative expression levels of CD86 mRNA in the normal control group, model group, and pretreatment model group were 1.00 ± 0.00, 2.01 ± 0.04, and 4.17 ± 0.14, respectively, and the differences between the groups were statistically significant (F = 33.800, 106.500, P < 0.01). The relative expression levels of CD163 mRNA in the normal control group, the model group, and the pretreatment model group were 1.00 ± 0.00, 0.85 ± 0.01, and 0.65 ± 0.01, respectively, and the differences between the groups were statistically significant (F = 23.360, 55.350, P < 0.01). The percentages of (F4/80(+)CD86(+)) and (F4/80(+)CD163(+)) in the normal control group and model group and pretreatment model group were 10.67% ± 0.91% and 12.60% ± 1.67%, 20.02% ± 1.29% and 8.04% ± 0.76%, and 43.67% ± 2.71% and 5.43% ± 0.47%, respectively, and the differences among the groups were statistically significant (F = 11.130/8.379, 39.250/13.190, P < 0.01). The liver injury scores of the normal control group, the model group, and the pretreatment model group were 0.22 ± 0.08, 1.32 ± 0.36, and 2.17 ± 0.26, respectively, and the differences among the groups were statistically significant (F = 12.520 and 22.190, P < 0.01). Conclusion: Ces1f may be a hepatic inflammatory inhibitory molecule, and its inhibitory effect production may come from the molecule's maintenance of KC polarization phenotypic homeostasis.

Bioactive neolignans and lignans from the roots of Paeonia lactiflora / 中国天然药物

Two new neolignans and one new lignan (1-3) were obtained from the roots of Paeonia lactiflora. Their structures were unambiguously elucidated based on extensive spectroscopic analysis, single-crystal X-ray crystallography, and the calculated and experimental electronic circular dichroism (ECD) spectra. Compound 1 was a racemic mixture and successfully resolved into the anticipated enantiomers via chiral-phase HPLC. Compound 3 demonstrated moderate inhibitory activity against human carboxylesterase 2A1 (hCES2A1) with an IC50 value of 7.28 ± 0.94 μmol·-1.

Construction and application of pharmacophore model of human carboxylesterase 2 inhibitors / 中国中药杂志

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.

The effect of species difference in carboxylesterase on the drug metabolism / 国际药学研究杂志

Carboxylesterase(CES), the most abundant hydrolase in humans and animals, participates in the metabolism of various endogenous and exogenous compounds and drugs. The distribution and activity of CES have obvious species differences in hu mans and animals, which are closely related to the pharmacokinetics(PK), pharmacodynamics(PD)and toxic side effect of drugs. Therefore, this paper summarizes the effects of the difference in the classification, distribution, induction and inhibition of CES as well as the effects of species difference in plasma, liver, small intestine and skin on the metabolism of ester prodrugs, so as to provide a reference for the correct selection of experimental animals in preclinical studies of new drugs to accurately predict the clinical PK, PD and toxicological effects.

Rapid bioluminescence assay for monitoring rat CES1 activity and its alteration by traditional Chinese medicines / 药物分析学报

In traditional Chinese medicine herbs (TCM), including Radix Salviae Miltiorrhizae (Danshen), Radix Puerariae Lobatae (Gegen), Radix Angelicae Sinensis (Danggui), and Rhizoma Chuanxiong (Chuanxiong) are widely used for the prevention and treatment of cardiovascular diseases and also often co-administered with Western drugs as a part of integrative medicine practice. Carboxylesterase 1 (CES1) plays a pivotal role in the metabolisms of pro-drugs. Since (S)-2-(2-(6-dimethylamino)-benzothiazole)-4,5-dihydro-thiazole-4-carboxylate (NLMe) has recently been identified by us as a selective CES1 bioluminescent sensor, we developed a rapid method using this substrate for the direct measurement of CES1 activity in rats. This bioluminescence assay was applied to determine CES1 activity in rat tissues after a two-week oral administration of each of the four herbs noted above. The results demonstrated the presence of CES1 enzyme in rat blood and all tested tissues with much higher enzyme activity in the blood, liver, kidney and heart than that in the small intestine, spleen, lung, pancreas, brain and stomach. In addition, the four herbs showed tissue-specific effects on rat CES1 expression. Based on the CES1 biodistribution and its changes after treatment in rats, the possibility that Danshen, Gegen and Danggui might alter CES1 ac-tivities in human blood and kidney should be considered. In summary, a selective and sensitive biolu-minescence assay was developed to rapidly evaluate CES1 activity and the effects of orally administered TCMs in rats.

Role of carboxylesterase in drug metabolism / 药学学报

Carboxylesterases (CESs) belong to the esterase family, which are mainly responsible for catalyzing metabolism of a variety of drug as well as endogenous and exogenous compounds. CESs are widely distributed in the body, mainly expressed in lung, liver, intestine, kidney, skin epithelial cells, etc. There are significant species differences in the expression of CESs, which results in the difference on the drug metabolism with genetic polymorphism. In this paper, an overview of the classification and distribution, physiological function and mechanism, species differences and gene polymorphism of CESs are provided for the research of CESs and drug design.

Role of human liver and intestine esterases in drug design and development / 药学学报

Human carboxylesterase (CES) and arylacetamide deacetylase (AADAC) are important numbers of the serine esterase superfamily. They are involved in hydrolytic procedure of human endogenous cholesteryl esters, as well as drug metabolism, activation and detoxication. They are closely related to the personalized medication of drugs, especially for prodrugs. This review summarizes their structure and distribution, metabolic characteristics and research progress in recent years, which will provide a reference for new drug development and rational drug design.

Carboxylesterases in lipid metabolism: from mouse to human

Mammalian carboxylesterases hydrolyze a wide range of xenobiotic and endogenous compounds, including lipid esters. Physiological functions of carboxylesterases in lipid metabolism and energy homeostasis in vivo have been demonstrated by genetic manipulations and chemical inhibition in mice, and in vitro through (over)expression, knockdown of expression, and chemical inhibition in a variety of cells. Recent research advances have revealed the relevance of carboxylesterases to metabolic diseases such as obesity and fatty liver disease, suggesting these enzymes might be potential targets for treatment of metabolic disorders. In order to translate pre-clinical studies in cellular and mouse models to humans, differences and similarities of carboxylesterases between mice and human need to be elucidated. This review presents and discusses the research progress in structure and function of mouse and human carboxylesterases, and the role of these enzymes in lipid metabolism and metabolic disorders.

A Ratiometric Fluorescence Sensing for Carboxylesterase Based on Semiconducting Polymer Quantum Dots / 分析化学

A carboxylesterase ( CaE ) ratiometric fluorescent probe based on semiconducting Poly ( 9 , 9-dioctylfluorenyl-2,7-diyl) (PFO) polymer quantum dots (Pdots) was prepared. The negatively charged PFO Pdots and the positively charged polyethyleneimine ( PEI) formed a nanocomposite Pdots@PEI by electrostatic interaction, and emitted fluorescence at 440 nm and 467 nm. In the presence of CaE, the substrate fluorescein diacetate ( FDA ) was hydrolyed into negatively charged fluorescein molecule, and could get closer to the positively charged Pdots@PEI due to electrostatic interactions, which could induce resonance energy transfer, resulting in the energy donor Pdots@ PEI fluorescence intensity gradually weakened and the fluorescence intensity of the FDA hydrolysis product increased. Based on the fluorescence intensity ratio of Pdots@PEI and the fluorescence enhancement of FDA hydrolysis products, a new method for selective detection of CaE was established. Under the optimal conditions, the linear range of the method on CaE testing was 0. 75-50 U/L with detection limits of 0 . 75 U/L ( S/N=3 ) . This method was used for the detection of the content of CaE in rabbit blood with satisfactory results.

The inhibition of carboxylesterases by praeruptorin C, D and E / 药学学报

Praeruptorin C (PC), D (PD) and E (PE) are important compounds extracted from Peucedanum praeruptorum DUNN and have been reported to exert multiple pharmacological activities. The present study is purposed to determine the inhibition of PC, PD and PE on the activity of important phase I metabolic enzymes-carboxylesterases (CES). In vitro human liver microsomes (HLM) incubation system was used to determine the inhibition potential of PC, PD and PE on the activity of CES1 and CES2. Inhibition behaviour was determined, and in vitro-in vivo extrapolation was performed by using the combination of in vitro inhibition kinetic parameter (Ki) and in vivo exposure level of PD. PD exhibited the strongest inhibition on the activity of CES1, with 81.7% activity inhibited by 100 μmol·L-1 of PD. PD noncompetitively inhibited the activity of CES1 with the Ki to be 122.2 μmol·L-1, indicating inhibition potential of PD towards CES1 in vivo. Therefore, closely monitoring the endogenous metabolic disorders caused by PD and interaction between PD and drugs mainly undergoing CES1-catalyzed metabolism is very necessary.

Design and development of fluorescent probe substrates for carboxylesterase 1 using BODIPY as the basic fluorophore / 药学学报

Carboxylesterase 1 (CE1) is an important serine hydrolase in mammals, which involved in the hydrolysis of a variety of compounds (endogenous substrates like cholesterol and xenobiotic compounds like ester-contain drugs and pesticides). This study aimed to design and develop the fluorescent probe substrates for human carboxylesterase 1 (hCE1), on the basis of the structural features of hCE1 preferred substrates. Four carboxylic esters deriving from BODIPY-8-carboxylic acid were designed and synthesized. After then, reaction phenotyping assays and chemical inhibition assays were used to evaluate the selectivity of these four ester derivatives towards hCE1. Our results clearly demonstrated that the substrate specificity of these ester substrates towards hCE1 would be improved with the decrease of the alcohol group on BODIPY-8-carboxylesters, while BODIPY-8-carboxylesters with small alcohol groups including methyl (BCM) and ethyl (BCE) esters could serve as the ideal probe substrates for hCE1. Given that BCM exhibit rapid hydrolytic rate in hCE1, we further investigate the enzymatic kinetics of this fluorescent probe substrate in both human liver microsomes (HLM) and recombinant hCE1, as well as to explore its potential application in high-throughput screening of hCE1 inhibitors by using HLM as enzyme source. The results showed that the kinetic behaviors and the affinity of BCM in HLM is much closed to those in recombinant hCE1, implying that hCE1 played the key roles in BCM hydrolysis in HLM. Furthermore, the inhibition study demonstrated that BCM could be used for rapid screening and characterization of hCE1 inhibitors, by using HLM to replace recombinant hCE1 as enzyme source.

Inhibitiory effect of eight lignan compounds of Fructus Schisandrae chinensis on carboxylesterase 2 / 中国药理学与毒理学杂志

OBJECTIVE To investigate the inhibitory effect of eight lignan compounds of Fructus Schisandrae chinensis in vitro on carboxylesterase 2 (CES2) and to estimate the herb-drug interaction (HDI) risks of strong CES2 inhibitors selected from the above compounds. METHODS Fluorescein diacetate (FD) was employed as a specific fluorescent probe of CES2. The residual activity of CES2 was detected in human liver microsomes after the intervention with deoxyschizandrin, schisanhenol, schisantherin E, schisandrol A, schisandrol B, gomisin J, gomisin G, and gomisin O at 37℃ for 10 min, respectively. 1% DMSO served as control. Residual activity of CES2 was assessed with metabolite production of FD detected by fluorescent intensity, combined with IC50 values of the above compounds to predict HDI risks between lignans and CES2-metabolizing drugs. RESULTS Compared with control group, the activity of CES2 was significantly inhibited by deoxyschizandrin and schisanhenol (P<0.01), with IC50 values of 8.06 μmol · L- 1 and 8.91 μmol · L- 1, respectively. The other six lignans compounds exhibited mild inhibitory effect on CES2. HDI risk prediction of deoxyschizandrin or schisanhenol indicated that exposure of CES2-metabolizing drugs might increase 11.24 and 0.40 times, respectively. CONCLUSION Deoxyschizandrin and schisanhenol exhibit strong inhibitory effects against CES2 in vitro so that potential HDI risks should be taken into account during administration of drugs containing Fructus Schisandrae chinensis.

Detection of carboxylesterase and esterase activity in culturable gut bacterial flora isolated from diamondback moth, Plutella xylostella (Linnaeus), from India and its possible role in indoxacarb degradation

Abstract Diamondback moth (DBM), Plutella xylostella (Linnaeus), is a notorious pest of brassica crops worldwide and is resistant to all groups of insecticides. The insect system harbors diverse groups of microbiota, which in turn helps in enzymatic degradation of xenobiotic-like insecticides. The present study aimed to determine the diversity of gut microflora in DBM, quantify esterase activity and elucidate their possible role in degradation of indoxacarb. We screened 11 geographic populations of DBM in India and analyzed them for bacterial diversity. The culturable gut bacterial flora underwent molecular characterization with 16S rRNA. We obtained 25 bacterial isolates from larvae (n = 13) and adults (n = 12) of DBM. In larval gut isolates, gammaproteobacteria was the most abundant (76%), followed by bacilli (15.4%). Molecular characterization placed adult gut bacterial strains into three major classes based on abundance: gammaproteobacteria (66%), bacilli (16.7%) and flavobacteria (16.7%). Esterase activity from 19 gut bacterial isolates ranged from 0.072 to 2.32 µmol/min/mg protein. Esterase bands were observed in 15 bacterial strains and the banding pattern differed in Bacillus cereus – KC985225 and Pantoea agglomerans – KC985229. The bands were characterized as carboxylesterase with profenofos used as an inhibitor. Minimal media study showed that B. cereus degraded indoxacarb up to 20%, so it could use indoxacarb for metabolism and growth. Furthermore, esterase activity was greater with minimal media than control media: 1.87 versus 0.26 µmol/min/mg protein. Apart from the insect esterases, bacterial carboxylesterase may aid in the degradation of insecticides in DBM.

Role of farnesoid X receptor in establishment of ontogeny of phase-I drug metabolizing enzyme genes in mouse liver

The expression of phase-I drug metabolizing enzymes in liver changes dramatically during postnatal liver maturation. Farnesoid X receptor (FXR) is critical for bile acid and lipid homeostasis in liver. However, the role of FXR in regulating ontogeny of phase-I drug metabolizing genes is not clear. Hence, we applied RNA-sequencing to quantify the developmental expression of phase-I genes in both-null and control (C57BL/6) mouse livers during development. Liver samples of male C57BL/6 and-null mice at 6 different ages from prenatal to adult were used. The-null showed an overall effect to diminish the "day-1 surge" of phase-I gene expression, including cytochrome P450s at neonatal ages. Among the 185 phase-I genes from 12 different families, 136 were expressed, and differential expression during development occurred in genes from all 12 phase-I families, including hydrolysis: carboxylesterase (), paraoxonase (), and epoxide hydrolase (); reduction: aldoketo reductase (), quinone oxidoreductase (), and dihydropyrimidine dehydrogenase (); and oxidation: alcohol dehydrogenase (), aldehyde dehydrogenase (), flavin monooxygenases (), molybdenum hydroxylase (and), cytochrome P450 (P450), and cytochrome P450 oxidoreductase (). The data also suggested new phase-I genes potentially targeted by FXR. These results revealed an important role of FXR in regulation of ontogeny of phase-I genes.

Isolation of an aryloxyphenoxy propanoate (AOPP) herbicide-degrading strain Rhodococcus ruber JPL-2 and the cloning of a novel carboxylesterase gene (feh)

The strain JPL-2, capable of degrading fenoxaprop-P-ethyl (FE), was isolated from the soil of a wheat field and identified as Rhodococcus ruber. This strain could utilize FE as its sole carbon source and degrade 94.6% of 100 mg L−1 FE in 54 h. Strain JPL-2 could also degrade other aryloxyphenoxy propanoate (AOPP) herbicides. The initial step of the degradation pathway is to hydrolyze the carboxylic acid ester bond. A novel esterase gene feh, encoding the FE-hydrolyzing carboxylesterase (FeH) responsible for this initial step, was cloned from strain JPL-2. Its molecular mass was approximately 39 kDa, and the catalytic efficiency of FeH followed the order of FE > quizalofop-P-ethyl > clodinafop-propargyl > cyhalofop-butyl > fluazifop-P-butyl > haloxyfop-P-methyl > diclofop-methy, which indicated that the chain length of the alcohol moiety strongly affected the hydrolysis activity of the FeH toward AOPP herbicides.

Proteomic fingerprinting of N-linked glycoproteins involved in hepatocellular carcinoma / 解剖学报

Objective To identify differentially expressed N-linked glycoproteins between hepatocellular carcinoma ( HCC) and adjacent non-tumorous liver tissues .Methods N-linked glycoproteome was extracted by multi-lectin affinity chromatography comprising concanavalin A (ConA), lentil lectin (LCH), and snowdrop lectin (GNA) and subsequently subjected to two-dimensional electrophoresis ( 2DE ) and mass spectrometry ( MS ) for identification of differential glycoproteins between 10 pairs of HCC and adjacent non-cancer tissue .Western blotting was used to verify different expression of human liver carboxylesterase 1 (hCE1), haptoglobin (HP)and cathepsin D (CD).Invasion potential in vitro was examined after si-RNA mediated CD gene scilencing .Results LC-ESI-MS/MS identified a total of 28 differentially expressed glycoproteins (14 up-regulation and 14 down-regulated).Western blotting detected consistent down-regulation of hCE1 and HP, and up-regulation of pro-cathepsin D (pCD) in HCC.Up-regulation of ConA-binding CD (ConA-CD), however , was verified in HCC only after ConA-CD enrichment by ConA chromatography .Down-regulation of CD expression mediated by CD-siRNA markedly inhibited the in vitro invasive potential of SNU449 and SNU473.Conclusion Dysregulation of HP , hCE1 expression and alteration of glycans linked to CD may play crucial roles in pathogenesis of HCC.

Genetic Polymorphisms of the Carboxylesterase 1 (CES1) Gene in a Korean Population

Human carboxylesterase 1 (CES1) is a serine esterase that hydrolyzes various exogenous compounds. Single nucleotide polymorphisms (SNPs) of CES1 may lead to inter-individual metabolic variability of its substrates. The allele and haplotype frequencies of known SNPs have been demonstrated to vary among ethnic groups. We analyzed genetic variations of CES1 in a Korean population. Direct sequencing of all exons and flanking regions of the CES1 gene was performed on samples obtained from 200 Koreans. We identified 41 SNPs. The most frequent SNPs was -914G>C (frequency: 99.5%), followed by 4256G>A (frequency: 65.8%), -75T>G (frequency: 59.3%). Haplotype analysis using the identified SNPs revealed fifteen haplotypes (> or =1% haplotype frequency) in our samples. The most frequent haplotype was Hap1 (frequency: 15.4%). Among the identified 41 SNPs, nine of which are novel variants and 14 SNPs were nonsynonymous variants. Using the functional predictive software PolyPhen-2, the G19V, E221G, and A270S variants were predicted to be most likely damaging to the function and structure of CES1. In-vitro analyses for two of these variants have been previously performed; however, functional evaluation of E221G (11657A>G, rs200707504) still needs to be conducted. Therefore, further studies are warranted to characterize the functional impact of E221G on CES1 activity.

Identificación de un polimorfismo del gen Est9 relacionado con resistencia a piretroides en Rhipicephalus (Boophilus) microplus / Identification of a gene polymorphism Est9 associated with resistance to pyrethroids in Rhipicephalus (Boophilus) microplus

Objetivo. Mediante procedimientos de PCR-RFLP, detectar un polimorfismo en el gen Est9 de garrapatas Rhipicephalus (Boophilus) microplus resistentes a piretroides en Ibagué, Colombia, determinando el grado de asociación entre los fenotipos y los genotipos resultantes. Materiales y métodos. El ADN de 30 teleoginas R. (Boophilus) microplus fenotípicamente susceptibles, resistentes o medianamente resistentes a piretroides en una prueba de Drummond modificada, fue amplificado por PCR con cebadores específicos para obtener un fragmento de 372 pb del gen Est9, que fue sometido a digestión con la enzima EcoRI para estudiar los RFLPs generados y poder diferenciar los respectivos genotipos. El grado de asociación entre los fenotipos y los genotipos resultantes se determinó mediante la prueba exacta de Fisher. Resultados. Luego de digerir el fragmento con la endonucleasa, se generaron dos segmentos en teleoginas con algún nivel de resistencia, mientras en las teleoginas susceptibles no hubo división del fragmento de 372 pb, demostrándose así la presencia de una mutación puntual y los genotipos homocigoto natural, homocigoto mutante y heterocigoto. Las diferencias altamente significativas (p<0.01) entre teleoginas susceptibles y aquellas con algún nivel de resistencia, mostraron una relación directa entre el genotipo y el fenotipo con un nivel de confianza de p=0.0009852. Conclusiones. Se comprobó, por primera vez en Colombia, la presencia de una mutación puntual en el gen Est9 de garrapatas R. (Boophilus) microplus resistentes a piretroides, sugiriendo la necesidad de realizar estudios para detectar alteraciones moleculares en otros genes relacionados con quimioresistencia.

Objective. Using PCR-RFLP procedures, to detect a polymorphism of the Est9 gene in Rhipicephalus (Boophilus) microplus ticks resistant to pyrethroids in Ibague, Colombia, determining the degree of association between phenotypes and resulting genotypes. Materials and methods. The DNA of 30 engorged R. (Boohilus) microplus phenotypically susceptible females, resistant or moderately resistant to pyrethroids in a modified Drummond test was amplified by PCR with specific primers. We obtained a 372 bp fragment of the Est9 gene which was digested with the EcoRI enzyme to study RFLPs generated in order to differentiate the respective genotypes. The degree of association between phenotypes and resulting genotypes was determined by Fisher’s exact test. Results. After digesting the fragment with the endonuclease, two segments were generated in engorged females with some level of resistance, while, in those susceptible, there was no fragment division. The presence of a mutation of 372 pb was demonstrated, as well as the natural homozygous genotypes, mutant homozygous and heterozygous. The highly significant differences (p<0.01) between engorged susceptible females and those with some level of resistance, revealed a direct relationship between genotype and phenotype with a confidence level of p = 0.0009852. Conclusions. For the first time in Colombia, the presence of a mutation in the Est9 gene of R. (B.) microplus tick resistant to pyrethroids was found, suggesting the need for studies to detect molecular alterations in other genes associated with chemical resistance.

HPLC determination of CPT-11 and its metabolite 7-ethyl-10 HCPT in incubation system of rat liver microsomes / 中国药学杂志

OBJECTIVE: To establish an HPLC method for determing irinotecan (CPT-11) and its metabolite 7-ethyl-10 HCPT in rat liver microsome incubation system, and to optimize the incubation conditions. METHODS: CPT-11and SN-38 were determined by HPLC. Single factor design was used to optimize the incubation conditions. RESULTS: The linear range of CPT-11 and 7-ethyl-10 HCPT in rat liver microsome incubation system were 20-4000 ng · mL-1 and 2-400 ng · mL-1, respectively. The optimal incubation conditions were as follows: 10 μmol · L-1 CPT-11, 0.02 mg liver microsomes and incubation for 15 min. CONCLUSION: The HPLC method is accurate and suitable for the determination of CPT-11and 7-ethyl-10 HCPT in rat liver microsomes. The incubation condition can be applied in drug interaction studies of irinotecan.

The classification of esterases: an important gene family involved in insecticide resistance - A review

The use of chemical insecticides continues to play a major role in the control of disease vector populations, which is leading to the global dissemination of insecticide resistance. A greater capacity to detoxify insecticides, due to an increase in the expression or activity of three major enzyme families, also known as metabolic resistance, is one major resistance mechanisms. The esterase family of enzymes hydrolyse ester bonds, which are present in a wide range of insecticides; therefore, these enzymes may be involved in resistance to the main chemicals employed in control programs. Historically, insecticide resistance has driven research on insect esterases and schemes for their classification. Currently, several different nomenclatures are used to describe the esterases of distinct species and a universal standard classification does not exist. The esterase gene family appears to be rapidly evolving and each insect species has a unique complement of detoxification genes with only a few orthologues across species. The examples listed in this review cover different aspects of their biochemical nature. However, they do not appear to contribute to reliably distinguish among the different resistance mechanisms. Presently, the phylogenetic criterion appears to be the best one for esterase classification. Joint genomic, biochemical and microarray studies will help unravel the classification of this complex gene family.