Phylogeny and ultrastructure of Elthusa raynaudii (Isopoda, Cymothoidae) firstly recorded from the invasive silver cheeked toadfish (Lagocephalus sceleratus) (Gmelin 1789) in eastern Mediterranean Sea coast.

With the opening of the Suez Canal in 1869, many changes have occurred in the Mediterranean Sea ecosystem so became a home to many invasive Lessepsian marine species that have migrated from the Red Sea. About 500 marine species including pufferfish have immigrated and rapidly established a population in the Mediterranean Sea causing significant impact on its ecosystem and fisheries sector. The parasitic fauna of these pufferfish has scarcely been studied in the Mediterranean Sea and also in their native habitat. During this surveillance study on the invasive pufferfish species from the Egyptian Mediterranean coast, the female cymothoid isopod Elthusa raynaudii was detected from the branchial cavity and also in the buccal cavity of 23.9% of the examined Lagocephalus sceleratus. The isolated isopod species was firstly identified and described through electron microscopy and molecular phylogeny based on the sequences of mitochondrial 16S rRNA gene. Additionally, the description of eggs, embryonic stage, and manca of E. raynaudii was firstly provided. The pathological impact on the infested fish tissues was investigated and revealed curling and loss of secondary gill lamellae in addition to mucous exudates in between the gill filaments and granuloma formation in the gill arch. The study provided the first report of L. sceleratus as a new host for the isopod E. raynaudii collected from the Egyptian Mediterranean coast as a new locality record. The role of the Lessepsian invasive pufferfish in transmitting parasites to the native fish species was discussed.

Occurrence and genotyping of Theileria equi in dogs and associated ticks in Egypt.

Theileriosis is a tick-borne protozoal disease caused by a piroplasm of the genus Theileria. Hard ticks are obligate hematophagous ectoparasites that serve as vectors of Theileria spp. Studies of the presence of theileriosis in Egyptian dogs and associated ticks are scarce. This study was conducted to detect and identify Theileria spp. in dogs and Rhipicephalus sanguineus ticks and to monitor the epidemiological data of this disease. The prevalence rates of Theileria equi infection were 12.02%, 0.73%, 2.93%, and 1.83% by microscopic examination of dog blood, tick hemolymph, tick midgut, and tick salivary smears, respectively. Conversely, the T. equi prevalence in dog blood and associated ticks assessed by PCR was 25.81% and 10.42%, respectively. Epidemiological data about Theileria infection revealed a significant difference in the infection between different seasons and different dog breeds (p value <0.05), whereas host, sex, and age of dogs had no significant effect on the infection. Sequencing of PCR products showed that all PCR positive samples were infected with T. equi. Transmission electron microscopy (TEM) described the different stages of Theileria in the midgut and salivary gland of infected ticks. The current study confirmed that T. equi is not specific to equine hosts, and confirmed that dogs are a susceptible host to T. equi.

Morphological, ultrastructural, and molecular characterization of Livoneca redmanii (Leach, 1818) (Isopoda: Cymothoidae) infestation among Solea solea.

In the present investigation, we identified a cymothoid isopod species, Livoneca redmanii (Isopoda, Cymothoidae), in the branchial cavity, skin, and muscle pouch of the common sole (Solea solea) (Soleidae, Pleuronectiformes) from Qarun Lake, Egypt. The parasite was identified by morphometric and ultrastructural analysis, and molecular typing of the 16S rRNA gene. Out of 625 S. solea specimens collected, 8.16% were infested with the isopod. For the first time, the ultrastructural features of L. redmanii in different growth stages were described, revealing the fine characteristics of the body appendages, the eyes, the antennae, and the antennules of the female, male, and juvenile isopod, as well as the external layers of the ova. Additionally, the detailed structures of the mouth parts, the sensory microtriches, and the male organs (penis, appendex masculine, and the genital furrow) were elucidated. A histological examination of the infested gill revealed damaged gill lamellae, leukocyte infiltration, and epithelial hyperplasia. Besides, microscopic examination of the skin showed focal erosion and periodic acid stain-positive foci in the dermis. Phylogenetic analysis revealed the close relationship between the L. redmanii isolated in this study and those recovered from mugiliid fry in the Mediterranean Sea in 2017. Based on our findings, we recommend using hatchery-reared fry instead of wild fry for supplying lakes and fish farms. Also, a strict biosecurity program must be implemented to avoid the transmission and spread of these disease-causing parasites.

Screening and phylogenetic characterization of tick-borne pathogens in a population of dogs and associated ticks in Egypt.

BACKGROUND: The incidence or recurrence of tick-borne diseases (TBDs) in animals and humans is increasing rapidly worldwide, but there is insufficient information about TBDs infecting dogs in Egypt. Thus, the present study was conducted to screen and genetically identify tick-borne pathogens (TBPs) in dogs and associated ticks by microscopic examination and polymerase chain reaction (PCR). METHODS: In Cairo and Giza governorates, 208 blood samples were collected from dogs of different breeds, ages, and sex. In addition, 1266 dog-associated ticks were collected (546 ticks were used to prepare hemolymph smears, and 720 ticks were kept in 70% ethanol until PCR analysis). PCR was applied to 124 dog blood samples and 144 tick pools prepared from 720 ticks. RESULTS: All ticks collected from dogs were Rhipicephalus sanguineus (s.l.). Microscopic examination revealed that TBP prevalence among dogs was 23.56% (49/208), including Anaplasma and Ehrlichia with 11.1% (23/208) and Babesia canis with 8.2% (17/208). Hepatozoon canis was not detected in blood smears. Co-infections with two pathogens were visible in 4.33% (9/208) of examined dogs. The prevalence of TBPs in hemolymph smears was 45.97% (251/546) including 35.89% (196/546) for H. canis, 8.1% (44/546) for B. canis, and 2.01% (11/546) for Anaplasmataceae (A. phagocytophilum, A. marginale, A. platys, and E. canis). The overall molecular prevalence rate of TBPs was 25.81% and 29.17% in the blood of examined dogs and in ticks, respectively. The molecular prevalence of Anaplasmataceae family, Babesia canis, and H. canis in dog blood samples was 19.35%, 6.45%, and 0.0%, respectively, while in ticks, it was 20.83%, 5.55%, and 2.8%, respectively. A sequential analysis identified six different species of TBPs, namely B. canis vogeli, Hepatozoon canis, A. phagocytophilum, A. marginale, A. platys, and E. canis. The obtained sequences were submitted to GenBank and assigned accession numbers. CONCLUSIONS: The present study detected a wide range of TBPs (B. canis, H. canis, A. platys, A. phagocytophilum, A. marginale, and E. canis) that are considered a threat to domestic animals and humans in Egypt. Hepatozoon canis and A. marginale were reported in dogs and associated ticks for the first time in Egypt.

Additional morphometric and phylogenetic studies on Mothocya melanosticta (Isopoda: Cymothoidae) parasitizing the Red Sea Nemipterus randalli fish in Egypt.

Cymothoidae, Leach, 1818 (Crustacea: Isopoda) are ectoparasites of marine, brackish and freshwater fishes that are reported to induce deleterious tissue impacts on the infested fish hosts. The present study aimed for the first-time screening of Mothocya melanosticta collected from the red sea fish Nemipterus randalli in Egypt. Surveillance study was conducted for isopod infestation among the Red Sea fish N. randalli revealing a total infestation rate of 40.96% with the species identified as M. melanosticta. The parasite species was isolated from the branchial cavity and gills. Morphometric description was estimated using dissecting stereo-microscope, and scanning electron microscope (SEM) provided new additional features for the isolated species including the microtrich sensillum in the body cuticle and the fine structure of the mouth parts and body appendages. Mitochondrial COI gene of M. melanosticta female isolated in the present study from N. randalli was detected for the first time in Egypt and recorded in the GenBank (MK168807). The study showed that the detected isopod species represents one monophyletic group closely affiliated to the genospecies of M. melanosticta, and can be distinguished clearly from other isopods genospecies. Based on the genetic distance values, lower level of genetic divergence was indicated within the genospecies of the present M. melanosticta isolated from Egypt and the same species isolated from India. The present investigation recorded N. randalli fish as a new host for the isopod M. melanosticta in Egypt and provided additional morphological features through SEM as well as molecular characterization of this isopod species for the first time.