Characterization of cholinesterase activities for pesticide exposure in food animals

Abass Askar, Kasim Sakran

January 2012

The primary aim of the work described in this thesis is to establish a foundation for the applicability of a biochemical biomarker, cholinesterase (ChE) activity in food animal species, as an instrument for evaluating exposure to pollutants as well as predicting high-level effects on public health. Secondary aims are to increase the awareness of pesticide users of anti-ChE exposure, to decide whether poisoning episodes involve anti-ChE by measuring residual effects in tissues, and to identify sources of contamination in food animal tissues. The ChE are specialized carboxylic ester hydrolases that break down esters of choline. They are classified as either acetylcholinesterase (AChE) or butyrylcholinesterase (BChE). Both AChE and BChE activities were found to be higher in cattle than in sheep and higher in erythrocytes than in plasma and serum. The anticoagulant heparin significantly affects AChE activity in plasma compared with EDTA. Of the different tissue tested, the mean of ChE activities was found to be highest in tissue from the liver, followed by lung, muscle, kidney and heart for sheep and cattle. In pigs, the ChE activities tested higher in kidney, liver, lung, muscle and heart. The effect of freezing on ChE activities in liver and muscle tissues was significant inhibition after 6 months at -80 °C, whereas decreased after 3 months at -20 °C. A technique to improve the purification of AChE in sheep tissue was developed. BW284c51 strongly reduced acetylthiocholine iodide (AcTChI) and propionylthiocholine iodide (PrTChI) hydrolysis and slightly affected that of butyrylthiocholine iodide (BuTChI) in the liver, while iso-OMPA had no significant effect for muscle BuTChI of sheep and pigs. Histochemical study of liver tissue found AChE localised mainly in the cytoplasm of the cell lining in the sinusoids. The optimal pH values of AChE and BChE in liver and muscle ranged between 7.8 and 8.5. Both AChE and BChE activities increased when increase the time course and temperature. The half maximal inhibitory concentration (IC50) was found to be higher for carbaryl than dichlorvos (DDVP) and diazinon (DZN). Very little residual AChE activity was seen in the liver, but more was found in muscles. In general, the rate constants of inhibition (ki) values for liver and muscles were increased in different pHs according to the rank order of 8.5 > 7.5 > 6.5, while in plasma it was decreased in different temperatures as follows: 20 °C > 30 °C > 40 °C. The final experiments were carried out at the rate of spontaneous reactivation (ks) of inhibited AChE by DDVP and DZN from liver and muscle was found to be higher in sheep compared to cattle and pig, while the aging of phosphorylated AChE (ka) was found to be higher in cattle compared to sheep and pig. In addition, this study indicated that the developed bispyridinium symmetric (K048) oxime seems to be promising reactivated to DDVP-inhibited AChE for sheep and pigs while HI-6 was effective in cattle.

641.36

Avaliação dos efeitos neurotóxicos de cianotoxinas em cladóceros com ênfase na utilização de um biomarcador bioquímico para sua detecção

Freitas, Emanuela Cristina de

03 June 2013

Made available in DSpace on 2016-06-02T19:29:57Z (GMT). No. of bitstreams: 1 5307.pdf: 3018065 bytes, checksum: 4a4ed79b44dafeeb1204798dc8f70256 (MD5) Previous issue date: 2013-06-03 / Universidade Federal de Sao Carlos / This thesis aimed to evaluate the use of cholinesterases (ChE) of the cladoceran species Pseudosida ramosa and Daphnia magna as a biochemical biomarker of the presence and effects of anatoxin-a(s) at different levels of biological organization (molecular, individual and population), besides the combined effects of the mixtures of the hepatotoxic (microcystins) and neurotoxic (anatoxin-a(s)) extracts in D. magna. A microplate assay was adapted and optimized for measuring the ChE activity of P. ramosa, in order to produce an assay protocol for this species. The analysis on the performance of ChE assays in P. ramosa showed that these are suitable for the quantifying of enzymatic activity in this species. P. ramosa showed to be an adequate alternative to the exotic cladoceran D. magna. Thus, it was proposed an assay protocol, which it meets the best combination of parameters for the using of ChE activity of P. ramosa as a biochemical biomarker. The ChE activity of P. ramosa and D. magna were specific for the indication of the presence of anatoxin-a(s), since no effect on the enzymatic activity of these species was observed when they were exposed to the microcystins. In the acute exposures (48-h) to the anatoxin-a(s) extract and to the paraoxon-methyl, P. ramosa was more sensitive than D. magna for ChE activity and survival endpoints. Also, P. ramosa was more sensitive than D. magna when exposed to the anatoxin-a(s) extract for 7 days. When the relationships between the ChE inhibition and individual and populational endpoints were evaluated, different responses were observed for the studied species. The ChE inhibition in P. ramosa had a very close relationship with the survival in the acute exposures to the anatoxin-a(s) extract and to the paraoxon-methyl. For D. magna, on the other hand, this relationship was not linear, being high levels of ChE inhibition associated with almost no mortality. The ChE activity in P. ramosa was also a good predictor of the chronic effects of anatoxin-a(s) extract at higher levels of biological organization, since ChE inhibition (48 h) was linearly linked to the sub-lethal effects on the reproduction (21 days) and on the population growth rate (21 days). For D. magna, these relationships could not be established, possibly due to species-specific differences in the affinities of both acetylcholinesterase and pseudocholinesterases to the toxicants. Thus, for the using of ChE as a biochemical biomarker in the risk assessments of neurotoxic cyanobacteria blooms in tropical regions, it is recommended the use of native species, especially of P. ramosa, since the model species D. magna could overestimate the risk to the local species. When the effects of the mixtures of the hepatotoxic and neurotoxic extracts were evaluated on the survival and feeding rates of D. magna, additive and synergistic responses were only observed on the feeding rates. Therefore, since different types of cyanotoxins are found in the natural environments in combination, the risks of these toxins on the zooplanktonic community should be evaluated not only individually, but also as mixtures. / Esta tese teve como objetivo avaliar o uso das colinesterases (ChE) das espécies de cladóceros Pseudosida ramosa e Daphnia magna como um biomarcador bioquímico da presença e dos efeitos de anatoxina-a(s) em diferentes níveis de organização biológica (molecular, individual e populacional), além dos efeitos combinados das misturas dos extratos hepatotóxicos (microcistinas) e neurotóxicos (anatoxina-a(s)) em D. magna. Um ensaio de microplacas foi adaptado e otimizado para medir a atividade de ChE da P. ramosa, a fim de produzir um protocolo de ensaio para esta espécie. A análise sobre o desempenho dos ensaios de ChE em P. ramosa mostrou que estes são adequados para a quantificação da atividade enzimática nesta espécie. P. ramosa mostrou ser uma alternativa adequada para o cladócero exótico D. magna. Assim, foi proposto um protocolo de ensaio, o qual reúne a melhor combinação de parâmetros para a utilização da atividade de ChE da P. ramosa como um biomarcador bioquímico. A atividade de ChE da P. ramosa e da D. magna foram específicas para a indicação da presença de anatoxinaa( s), uma vez que nenhum efeito sobre a atividade enzimática dessas espécies foi observado quando elas foram expostas às microcistinas. Nas exposições agudas (48 h) ao extrato de anatoxina-a(s) e ao paraoxon-metil, P. ramosa foi mais sensível do que D. magna para os parâmetros atividade de ChE e sobrevivência. Também, P. ramosa foi mais sensível do que D. magna quando exposta ao extrato de anatoxina-a(s) por sete dias. Quando as relações entre a inibição de ChE e os parâmetros individuais e populacionais foram avaliados, diferentes respostas foram observadas para as espécies estudadas. A inibição de ChE em P. ramosa teve uma relação muito próxima com a sobrevivência nas exposições agudas ao extrato de anatoxina-a(s) e ao paraoxon-metil. Para D. magna, por outro lado, esta relação não foi linear, sendo níveis altos de inibição de ChE associados com quase nenhuma mortalidade. A atividade de ChE em P. ramosa foi também um bom preditor dos efeitos crônicos do extrato de anatoxina-a(s) em níveis mais elevados de organização biológica, uma vez que a inibição de ChE (48 h) foi associada linearmente aos efeitos sub-letais na reprodução (21 dias) e na taxa de crescimento populacional (21 dias). Para D. magna, essas relações não puderam ser estabelecidas, possivelmente devido a diferenças espécie-específicas nas afinidades da acetilcolinesterase e das pseudocolinesterases aos tóxicos. Assim, para a utilização de ChE como um biomarcador bioquímico nas avaliações de risco de florescimentos de cianobactérias neurotóxicas em regiões tropicais, recomenda-se o uso de espécies nativas, especialmente da P. ramosa, uma vez que a espécie modelo D. magna poderia superestimar o risco para as espécies locais. Quando os efeitos das misturas dos extratos hepatotóxicos e neurotóxicos foram avaliados sobre a sobrevivência e as taxas alimentares da D. magna, respostas aditivas e sinergísticas foram observadas apenas nas taxas alimentares. Portanto, uma vez que diferentes tipos de cianotoxinas são encontrados nos ambientes naturais em combinação, os riscos dessas toxinas sobre a comunidade zooplanctônica deveriam ser avaliados não apenas individualmente, mas também como misturas.

Meio ambiente de água doce

Anatoxina-a(s)

Microcistina

Colinesterases

Misturas complexas

Ecotoxicologia tropical

Paraoxon-metil

Biomarcador bioquímico

Pseudosida ramosa

Daphnia magna

Anatoxin-a(s)

Microcystins

Paraoxon-methyl

Biochemical biomarker

Cholinesterases

Complex mixtures

CIENCIAS BIOLOGICAS::ECOLOGIA