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1.
Rev Bras Parasitol Vet ; 28(1): 105-112, 2019.
Article in English | MEDLINE | ID: mdl-30916256

ABSTRACT

The indiscriminate administration of synthetic anthelmintics such as ivermectin contributes to the selection of subpopulations capable of resisting the drugs' effects. To understand the mechanisms of ivermectin resistance in Caenorhabditis elegans, this study attempted to identify molecular targets. C. elegans lineages that were sensitive and resistant to ivermectin were used. Collected nematodes were added to an extraction buffer and macerated in liquid nitrogen for protein extraction. The extracted proteins were separated according to molecular weight by SDS-PAGE to verify their integrity. Subsequently, proteins from both lineages were separated using two-dimensional electrophoresis. The gels were analyzed and the relevant spots were excised and identified by mass spectrometry (NanoESI-Q-TOF and MASCOT®) and subsequently assessed by GO enrichment and STRING® analyses. The increased expression of proteins associated with high metabolic activity, such as ATP-2 and ENOL-1, which are responsible for ATP synthesis, was observed. Furthermore, proteins with involvement in mediating muscular function (MLC-1, ACT-1, and PDI-2), signaling (FAR-1 and FAR-2), and embryo development (VHA-2) were identified. Protein interaction analysis indicated that the majority of the identified proteins in the resistant lineages participated in the same reaction triggered by ivermectin.


Subject(s)
Antiparasitic Agents/pharmacology , Caenorhabditis elegans/drug effects , Drug Resistance/drug effects , Helminth Proteins/metabolism , Ivermectin/pharmacology , Animals , Caenorhabditis elegans/metabolism , Electrophoresis, Polyacrylamide Gel , Helminth Proteins/drug effects
2.
Rev. bras. parasitol. vet ; 28(1): 105-112, Jan.-Mar. 2019. tab, graf
Article in English | LILACS | ID: biblio-990812

ABSTRACT

Abstract The indiscriminate administration of synthetic anthelmintics such as ivermectin contributes to the selection of subpopulations capable of resisting the drugs' effects. To understand the mechanisms of ivermectin resistance in Caenorhabditis elegans, this study attempted to identify molecular targets. C. elegans lineages that were sensitive and resistant to ivermectin were used. Collected nematodes were added to an extraction buffer and macerated in liquid nitrogen for protein extraction. The extracted proteins were separated according to molecular weight by SDS-PAGE to verify their integrity. Subsequently, proteins from both lineages were separated using two-dimensional electrophoresis. The gels were analyzed and the relevant spots were excised and identified by mass spectrometry (NanoESI-Q-TOF and MASCOT®) and subsequently assessed by GO enrichment and STRING® analyses. The increased expression of proteins associated with high metabolic activity, such as ATP-2 and ENOL-1, which are responsible for ATP synthesis, was observed. Furthermore, proteins with involvement in mediating muscular function (MLC-1, ACT-1, and PDI-2), signaling (FAR-1 and FAR-2), and embryo development (VHA-2) were identified. Protein interaction analysis indicated that the majority of the identified proteins in the resistant lineages participated in the same reaction triggered by ivermectin.


Resumo A administração indiscriminada de anti-helmínticos sintéticos, como a ivermectina, contribui para a seleção de subpopulações capazes de resistir ao efeito das drogas. Para entender os mecanismos de resistência à ivermectina em Caenorhabditis elegans, este estudo visou identificar alvos moleculares. Portanto, linhagens de C. elegans sensíveis e resistentes à ivermectina foram utilizadas. Os nematóides coletados foram adicionados ao tampão de extração e macerados em nitrogênio líquido para obtenção das proteínas. As proteínas extraídas foram separadas por peso molecular em SDS-PAGE para verificar sua integridade. Posteriormente, as proteínas de ambas as linhagens foram separadas por eletroforese bidimensional. Os géis foram analisados, os spots relevantes foram excisados e identificados por espectrometria de massa (NanoESI-Q-TOF e MASCOT®), em seguida, analisados ​​em seus termos de GO e STRING®. A expressão aumentada de proteínas associadas à alta atividade metabólica, como as proteínas ATP-2 e ENOL-1, responsáveis ​​pela síntese de ATP, foi observada. Além disso, foram identificadas as proteínas responsáveis ​​pelo controle da função muscular (MLC-1, ACT-1 e PDI-2), sinalização (FAR-1 e FAR-2) e desenvolvimento embrionário (VHA-2). A análise das interações proteicas indicou que a maioria das proteínas identificadas na cepa resistente participa da mesma reação desencadeada pela ivermectina.


Subject(s)
Animals , Ivermectin/pharmacology , Drug Resistance/drug effects , Helminth Proteins/metabolism , Caenorhabditis elegans/drug effects , Antiparasitic Agents/pharmacology , Helminth Proteins/drug effects , Caenorhabditis elegans/metabolism , Electrophoresis, Polyacrylamide Gel
3.
Acta Trop ; 95(2): 132-42, 2005 Aug.
Article in English | MEDLINE | ID: mdl-15993833

ABSTRACT

We report the oral vaccination of SWISS mice with an Aro attenuated Salmonella enterica var. Typhimurium vaccine strain expressing the 14-kDa Schistosoma mansoni antigen, Sm14. Bacterial adjuvants, including (i) Lactococcus lactis expressing interleukin-12 (IL-12) and (ii) Lactobacillus delbrueckii UFV-H2b20, were also employed in oral immunization assays. Detection assays to specific IgG and IgA anti-Sm14 antibodies were performed to evaluate humoral immune responses in vaccinated mice. An increase in specific IgG titers was observed; however, no IgA production was detected. The protection levels against schistosomiasis (34.9-49.5%) obtained with all experimental formulations in this work were very similar to values reported by previous studies, which used purified recombinant Sm14 for parenteral vaccination of mice. There was a slight reduction in hepatic granulomas of mice vaccinated with Salmonella. Oogram studies showed diminished numbers of S. mansoni eggs in the intestinal wall of vaccinated mice, but individual female worm fecundity did not seem to be affected by our immunization protocol.


Subject(s)
Antigens, Helminth/immunology , Helminth Proteins/immunology , Membrane Transport Proteins/immunology , Salmonella Vaccines/therapeutic use , Schistosoma mansoni/drug effects , Schistosomiasis/immunology , Animals , Antigens, Helminth/isolation & purification , Enzyme-Linked Immunosorbent Assay , Fatty Acid Transport Proteins , Female , Helminth Proteins/biosynthesis , Helminth Proteins/drug effects , Membrane Transport Proteins/biosynthesis , Membrane Transport Proteins/drug effects , Mice , Plasmids/drug effects , Plasmids/genetics , Schistosomiasis/prevention & control
4.
Life Sci ; 60(20): PL 289-94, 1997.
Article in English | MEDLINE | ID: mdl-9150424

ABSTRACT

Therapeutic concentrations of praziquantel produce a rapid and intense contraction of the human flatworm Schistosoma mansoni. As an action on ATPases responsible for calcium homeostasis arises as a possible explanation for the molecular mechanism of this effect, we tested here the effect of praziquantel on different preparations from male adult worms that were previously characterized for their content in (Na(+)+K+)-ATPase and (Ca2(+)-Mg2+)ATPase activities from different origins. Concentrations as high as 100 microM praziquantel did not inhibit (Na(+)+K+)-ATPase from tegument and carcass nor (Ca2(+)-Mg2+)ATPase from heterogeneous (P1) and microsomal (P4) fractions. As 100 microM praziquantel was also without effect on calcium permeability of microsomal vesicles actively loaded with 45Ca2+, the present results discard three hypotheses recently raised for the mechanism of praziquantel-induced contraction of S. mansoni.


Subject(s)
Antiplatyhelmintic Agents/pharmacology , Ca(2+) Mg(2+)-ATPase/drug effects , Helminth Proteins/drug effects , Isoenzymes/drug effects , Praziquantel/pharmacology , Schistosoma mansoni/drug effects , Schistosoma mansoni/enzymology , Sodium-Potassium-Exchanging ATPase/metabolism , Animals , Ca(2+) Mg(2+)-ATPase/antagonists & inhibitors , Calcium/pharmacokinetics , Calcium Radioisotopes , Cell Membrane Permeability/drug effects , Helminth Proteins/antagonists & inhibitors , Isoenzymes/antagonists & inhibitors , Male , Mice , Microsomes/drug effects , Microsomes/metabolism , Snails/parasitology , Sodium-Potassium-Exchanging ATPase/drug effects
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