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Alveolar and cystic echinococcosis, caused by Echinococcus multilocularis and Echinococcus
granulosus respectively, are severe zoonotic diseases with limited treatment
options. The sole curative treatment is the surgical removal of the complete parasite
material. Due to late diagnosis, chemotherapeutic treatment often is the only treatment
option. Treatment is based on benzimidazoles, which merely act parasitostatic
and often display strong side effects. Therefore, new therapeutic drugs are urgently
needed.
Evolutionarily conserved signalling pathways are known to be involved in hostparasite
cross-communication, parasite development and survival. Moreover, they
represent potential targets for chemotherapeutic drugs. In this context the roles of
the serotonin- and cAMP-signalling pathways in Echinococcus were studied.
Genes encoding serotonin receptors, a serotonin transporter and enzymes involved in
serotonin biosynthesis could be identified in the E. multilocularis and E. granulosus
genomes indicating that these parasites are capable of synthesizing and perceiving
serotonin signals. Also the influence of exogenous serotonin on parasite development
was studied. Serotonin significantly increased metacestode vesicle formation
from primary cells and re-differentiation of protoscoleces. Inhibition of serotonin
transport with citalopram significantly reduced metacestode vesicle formation from
primary cells and caused death of protoscoleces and metacestodes. Furthermore, it
could be shown that serotonin increased phosphorylation of protein kinase A substrates.
Taken together, these results show that serotonin and serotonin transport
are essential for Echinococcus development and survival. Consequently, components
of the serotonin pathway represent potential drug targets.
In this work the cAMP-signalling pathway was researched with focus on G-protein
coupled receptors and adenylate cyclases. 76 G-protein coupled receptors, including
members of all major families were identified in the E. multilocularis genome.
Four genes homologous to adenylate cyclase IX were identified in the E. multilocularis
genome and three in the E. granulosus genome. While glucagon caused
no significant effects, the adenylate cyclase activator forskolin and the adenylate
cyclase inhibitor 2’, 5’ didesoxyadenosine influenced metacestode vesicle formation
from primary cells, re-differentiation of protoscoleces and survival of metacestodes.
It was further shown that forskolin increases phosphorylation of protein kinase A
substrates, indicating that forskolin activates the cAMP-pathway also in cestodes.
These results indicate that the cAMP signalling pathway plays an important role in
Echinococcus development and survival.
To complement this work, the influence of different media and additives on E. granulosus protoscoleces was investigated. Anaerobic conditions and the presence of FBS
prolonged protoscolex survival while different media influenced protoscolex activation
and development.
Taken together, this work provided important insights into developmental processes
in Echinococcus and potential drug targets for echinococcosis chemotherapy.