ABSTRACT
Echinococcus granulosus, the agent of hydatid disease, presents an indirect life cycle, with canines (mainly dogs) as definitive hosts, and herbivores and human as intermediary ones. In intermediary hosts fertile and infertile cysts develop, but only the first ones develop protoscoleces, the parasite form infective to definitive hosts. We report the presence of bovine IgGs in the germinal layer from infertile cysts (GLIC), in an order of magnitude greater than in the germinal layer from fertile cysts (GLFC). When extracted with salt solutions, bovine IgGs from GLIC are associated with low or with high affinity (most likely corresponding to non specific and antigen specific antibodies, respectively). Specific IgGs penetrate both the cells of the germinal layer and HeLa cultured cells and recognize parasitic proteins. These results, taken together with previous ones from our laboratory, showing induction of apoptosis in the germinal layer of infertile hydatid cysts, provide the first coherent explanation of the infertility process. They also offer the possibility of identifying the parasite antigens recognized, as possible targets for immune modulation.
Subject(s)
Cattle Diseases/immunology , Echinococcosis/veterinary , Echinococcus granulosus/immunology , Infertility/veterinary , Animals , Cattle , Cattle Diseases/metabolism , Cattle Diseases/pathology , Echinococcosis/immunology , Echinococcosis/metabolism , Echinococcus granulosus/metabolism , HeLa Cells , Humans , Immunity, Humoral , Infertility/immunology , Microscopy, FluorescenceABSTRACT
Hydatidosis, caused by the larval stage of the platyhelminth parasite Echinococcus granulosus, affects human and animal health. Hydatid fertile cysts are formed in intermediate hosts (human and herbivores) producing protoscoleces, the infective form to canines, at their germinal layers. Infertile cysts are also formed, but they are unable to produce protoscoleces. The molecular mechanisms involved in hydatid cysts fertility/infertility are unknown. Nevertheless, previous work from our laboratory has suggested that apoptosis is involved in hydatid cyst infertility and death. On the other hand, fertile hydatid cysts can resist oxidative damage due to reactive oxygen and nitrogen species. On these foundations, we have postulated that when oxidative damage of DNA in the germinal layers exceeds the capability of DNA repair mechanisms, apoptosis is triggered and hydatid cysts infertility occurs. We describe a much higher percentage of nuclei with oxidative DNA damage in dead protoscoleces and in the germinal layer of infertile cysts than in fertile cysts, suggesting that DNA repair mechanisms are active in fertile cysts. rad9, a conserved gene, plays a key role in cell cycle checkpoint modulation and DNA repair. We found that RAD9 of E. granulosus (EgRAD9) is expressed at the mRNA and protein levels. As it was found in other eukaryotes, EgRAD9 is hyperphosphorylated in response to DNA damage. Our results suggest that molecules involved in DNA repair in the germinal layer of fertile hydatid cysts and in protoscoleces, such as EgRAD9, may allow preserving the fertility of hydatid cysts in the presence of ROS and RNS.
Subject(s)
Cell Cycle Proteins/metabolism , DNA Damage , Echinococcosis , Echinococcus granulosus/physiology , Fertility/physiology , Helminth Proteins/metabolism , Amino Acid Sequence , Animals , Cell Cycle Proteins/genetics , DNA Repair , Echinococcus granulosus/anatomy & histology , Helminth Proteins/genetics , Humans , Hydrogen Peroxide/metabolism , Models, Molecular , Molecular Sequence Data , Oxidants/metabolism , Oxidation-Reduction , Oxidative Stress , Phylogeny , Protein Structure, Tertiary , Reactive Oxygen Species/metabolism , Sequence AlignmentABSTRACT
Hydatidosis, whose etiological agent is the larval stage of the platyhelminth parasite Echinococcus granulosus, is a major zoonotic public health problem and causes great economic losses in many countries, affecting humans and livestock species. Calreticulin (CRT) is a multifunctional and conserved chaperone calcium-binding protein, present in every cell of higher organisms, except erythrocytes. In other parasites species, CRT emerges as a key modulator of several immunological aspects of their relationships with their vertebrate hosts. We report herein the cloning of two DNA segments coding for sequences of E. granulosus CRT (EgCRT). Together with another partial sequence available at the NCBI database, a complete EgCRT cDNA sequence is now proposed. EgCRT mRNA is equally expressed in fertile and infertile hydatid cysts germinal layers, as well as in protoscoleces. In hydatid cysts, EgCRT is a 50 kDa protein, expressed in germinal layer and protoscoleces, mainly in perinuclear and cytoplasmic zones.