Structural studies of the proteins Q4DV70 from Trypanosoma cruzi and mesothelin from Homo sapiens / Estudos estruturais das proteinas Q4DV70 de Trypanosoma cruzi e mesotelina de Homo sapiens

AUTOR(ES)
DATA DE PUBLICAÇÃO

2009

RESUMO

In this work we carried out studies with two proteins, Q4DV70 from Trypanosoma cruzi and mesothelin from Homo sapiens. The aim was to help the understanding of the function of these proteins which possibly are important to Chagas disease and cancer, respectively. Q4DV70 protein was annotated in T. cruzi genome as a conserved hypothetical protein. In our studies, the protein was detected for the first time in parasite samples. Its expression occurs in the epimastigote form but not in the metacyclic trypomastigote form indicating that Q4DV70 is important for the pathogen life cycle. Q4DV70 crystal structure was solved by molecular replacement and refined with data to 1.5 Å maximum resolution. It shows a thioredoxin fold, formed by a five stranded ß-sheet flanked by two a-helixes in each side. The proteins more sequentially identical and better structurally superposed to Q4DV70 are thioredoxins and protein disulfide isomerases, which are disulfide oxidoreductases. However, the cysteine residues from CXXC motif of the active site are replaced by serines in Q4DV70, what prevents the function of formation, reduction and isomerization of disulfide bonds. Different thioredoxin-like proteins show chaperone activity independent of oxidoreductase function. This function is related to hydrophobic regions on the surface and/or is dependent of another domain. Q4DV70 is monomeric, composed only by thioredoxin-like domain and does not show hydrophobic regions on its surface. Moreover the protein does not increase the refolding of GAPDH from T. cruzi. These results indicate that Q4DV70 does not present chaperone activity. Mesothelin is a protein expressed in normal mesothelium and in different types of cancer, such as mesothelioma, ovarian cancer, acute myeloid leukemia and cancer of pancreas. It is considered a diagnostic marker for these cancers and it has been used in the development of antitumor drugs. Besides that, it binds to MUC16, a protein present on the surface of ovarian cancer cells. In spite of its recognized significance and use in cancer, little is known about its structure and function. The protein was purified under denaturing conditions and submitted to refolding by dialysis. Circular dichroism, fluorescence and limited proteolysis experiments confirmed that mesothelin was correctly refolded. This sample was submitted to crystallization trials that resulted in crystals which diffracted at low resolution. The low resolution structure of mesothelin was calculated from small angle X-ray scattering data and it shows an elongated and curved shape. The circular dichroism spectrum for mesothelin is typical of proteins that are rich in a-helixes. Recently it was proposed that mesothelin has a superhelix structure made by ARM repeats which are composed by 3 a-helixes each one. Our experimental results indicate that this theoretical model is correct. Limited proteolysis with chymotrypsin resulted in a stable domain of 20 kDa in the Nterminal region of the protein. This domain has the 64 residues described as the possible binding site for MUC16 and should be composed by the first four ARM repeats according to the model

ASSUNTO(S)

cancer thioredoxins mesothelin proteina q4dv70 mesotelina q4dv70 protein tiorredoxinas trypanosoma cruzi

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