An Overview of One Health Concept Focusing on Toxoplasmosis.

The "One Health" concept is a universal approach to sustainably balancing and optimizing the health of humans, animals, and ecosystems. This approach is based on the health of humans, domestic and wild animals, and plants in a wider environment in which self-renewable ecosystems exist, with essential characteristics of integration, unifying and holistic perspective. Toxoplasmosis, one of the most common zoonotic infections in both terrestrial and oceanic ecosystems in the world, is an ideal model disease for the "One Health" approach. Toxoplasmosis is a zoonotic disease caused by the obligate intracellular pathogen protozoan Toxoplasma gondii. In the life cycle of T. gondii, the definitive host is domestic cats and felines, and the intermediate hosts are all mammals (including humans), birds and reptiles. The infected cats have primary importance and play a crucial role in the contamination of habitats in the ecosystems with T. gondii oocysts. Thus, ecosystems with domestic cats and stray cats are contaminated with cat feces infected with T. gondii oocytes. T. gondii positivity has been scientifically demonstrated in all warm-blooded animals in terrestrial and aquatic habitats. The disease causes deaths and abortions in farm animals, resulting in great economic losses. However, the disease causes great problems in humans, especially pregnant women. During pregnancy, it may have effects such as congenital infections, lesions in the eye and brain of the fetus, premature birth, intrauterine growth retardation, fever, pneumonia, thrombocytopenia, ocular lesions, encephalitis, and abortion. The mechanism of death and abortion of the fetus in a pregnant woman infected with T. gondii occurs as a result of complete disruption of the maternal immune mechanism. The struggle against toxoplasmosis requires the universal collaboration and coordination of the World Organization for Animal Health, the World Health Organization and the World Food Organization in the "One Health" concept and integrative approaches of all responsible disciplines. Establishing universal environmental safety with the prevention and control of toxoplasmosis requires the annihilation of the feces of the infected cats using suitable techniques firstly. Then routinely, the monitoring and treatment of T. gondii positivity in cats, avoiding contact with contaminated foods and materials, and development of modern treatment and vaccine options. Particularly, mandatory monitoring or screening of T. gondii positivity during the pregnancy period in humans should be done. It would be beneficial to replace the French model, especially in the monitoring of disease in humans. In this article, the ecology of toxoplasmosis was reviewed at the base of the "One Health" concept.

Molecular Prevalence and Phylogenetic Characterization of Enterocytozoon bieneusi in Healthy Cattle

Objective: In this study, it was aimed to determine the molecular prevalence and genotypes of Enterocytozoon in healthy cattle. Methods: Fecal samples were collected from 50 cattle in Sivas between October 2017 and March 2018 and genomic DNA (gDNA) isolations were performed. gDNA isolates were processed by Nested PCR specifically amplifying ITS rRNA gene region to identify E. bieneusi. ITS rRNA region of E. bieneusi positive isolates were sequenced for genotyping and phylogenetic analyzes. Obtained sequences were assembled with appropriative genetic software, then phylogenetic relationships were revealed. Results: According to Nested PCR analyses, 29 (19.3%) out of totally examined samples were found positive for E. bieneusi. As a result of the sequence analyses, five distinct genotypes were determined. The most frequent genotype ERUSS1 and the other ERUSS2-4 genotypes were characterized as close to each other, which was reported for the first time in the world. Two isolates were determined in N genotype that was reported from cattle in Germany and were more different from the other genotypes. Phylogenetic analysis revealed that all the genotypes characterized in the study belonged to the genogroup 2. Conclusion: First molecular epidemiological data on E. bieneusi in cattle from Turkey were obtained with this study.

Molecular Characterization and Phylogenetic Analyses of Oestrus ovis Larvae Causing Human Naso-pharyngeal Myiasis Based on CO1 Barcode Sequences

Objective: The identification and molecular characterization of the bot fly larvae from an infected human with naso-pharyngeal myiasis in Turkey were aimed in this study. Methods: A total of 8 bot fly larvae from a 49-year-old woman with naso-pharyngeal infection in Adana province constituted the materials of this study. Morphological identification was performed on the larvae according to described keys. The barcode region of the CO1 gene from the genomic DNA extracts of the larvae was amplified and sequence analyses were utilized. Haplotype and genetic distance analyses were performed in CO1 sequences and a phylogenetic tree was built revealing phylogenetic relationships. Results: All bot fly larvae were identified as second stage larvae of Oestrus ovis in terms of morphologic characteristics. There was no polymorphism among the CO1 sequences of all isolates leading to detection of a single novel haplotype. The newly characterized haplotype in this study clustered with the O. ovis haplotypes from Bosnia and Herzegovina, Croatia, Brazil, and Iran in a monophyletic clade with an overall identity of 99.5%. Interspecific genetic differences among the subfamilies of Oestridae were in the range of 19.8% to 30.8%. Conclusion: This study has provided the first molecular characterization data on O. ovis larvae from an accidental human host in Turkey based on CO1 barcode sequences.