First official report of bed bug (Hemiptera, Cimicidae) infestations in Algeria.

Background: Bed bugs are hematophagous insects with a long history of presence in human communities. Over the last three decades, infestations by bed bugs in human dwellings have drastically increased, leading to a rise in bed bug concerns. Nevertheless, very little is known about the bed bug species and their population diversity in Algeria. Method: A pilot entomological inventory was performed in May 2019 in Tizi Ouzou, in northern Algeria. The gathered bed bug specimens were identified by morphological and molecular approaches, followed by neighbor-joining and network phylogenetic analyses. Results: A total of seven out of 12 requested locations were allowed to inspect for bed bug infestation. Of these, three locations were found with active bed bug infestations. A total of 145 specimens belonging to different life stages [egg (21), nymph (74), adult male (17), and female (33)] were collected and analyzed using morphological and molecular approaches. The adult specimens were identified as Cimex lectularius according to specific morphological criteria, most importantly the pronotum laterally expanded with more flattened extreme margins. Morphological identification of the adults was confirmed further by conventional PCR targeting 450 bp fragment of the COI gene. All the nymphs and eggs were also molecularly identified as C. lectularius. Neighbor-Joining phylogenetic tree reconstructed with the collected specimens provides clues on the presence of two closely phylogenetic groups. The first one gathers our samples of Algeria with previously reported COI haplotype sequences from Asian, European, and North American countries. The second group encompasses a lesser-documented haplotype reported in Europe and Central America. These findings were further confirmed by network analysis. Conclusions: These results provide evidence of established C. lectularius infestation in Algeria and its potential dispersal capacity by travelers or immigrants and will help future management of these ectoparasites.

Host competence of Algerian Gerbillus amoenus for Leishmania major.

Cutaneous leishmaniasis (CL) is the most important neglected disease reported in North Africa, Algeria ranks second in the world with more than 5000 cases per year. In Algeria, two rodent species Psammomys obesus and Meriones shawi, are so far known as proven reservoirs of Leishmania major, however, they are absent in several endemic localities. In this study, we experimentally infected Gerbillus rodents trapped around human dwellings in Illizi, Algeria to assess their susceptibility to L. major. Seven gerbils, morphologically and molecularly identified as Gerbillus amoenus, were intradermally inoculated with 104 parasites derived from culture, monitored for six months and their infectiousness for sand flies was tested by xenodiagnosis. The study revealed that G. amoenus was susceptible to L. major and was able to maintain and transmit the parasites to sand flies tested six months after infection, suggesting the role of this gerbil as a potential reservoir for L. major.

New Haplotypes of Trypanosoma evansi Identified in Dromedary Camels from Algeria.

PURPOSE: Surra is a zoonotic disease caused by Trypanosoma evansi (Trypanozoon), a salivary trypanosome native to Africa which affects a wide range of mammals worldwide and causes mortality and significant economic loss. The present study was devoted to the molecular characterization of T. evansi derived from naturally infected dromedary camels in Algeria. METHODS: A total of 148 blood samples were collected from mixed age camels living in one of four geographic regions (Ouargla, El Oued, Biskra and Ghardaia) of Algeria. Samples underwent PCR amplification and sequencing of the internal transcribed spacer 1 (ITS1) complete sequence. RESULTS: DNA of Trypanosoma spp. was found in 19 camels (12.84%). Trypanosoma spp. molecular positivity was not affected by sex (p = 0.50), age (p = 0.08), or geographic location (p = 0.12). Based on multiple sequence alignment of the obtained DNA sequences with representative T. evansi ITS1 sequences available globally, the Algerian sequences were grouped within four different haplotypes including two which were original. CONCLUSION: Results of this study provide preliminary data on which future studies of genetic diversity and molecular epidemiology of T. evansi can be based.

Coxiella burnetii in camels (Camelus dromedarius) from Algeria: Seroprevalence, molecular characterization, and ticks (Acari: Ixodidae) vectors.

Q fever is a widespread zoonotic disease caused by Coxiella burnetii that most commonly infects not only a variety of mammals but also arthropods and in particularly ticks. The aim of this study was to detect C. burnetii infection in camels including ixodid ticks using serological and molecular assays. Between July 2018 to June 2019, blood samples from 184 male and female camels (Camelus dromedarius) were collected from 3 regions of South-East Algeria and serum samples were tested for antibodies against Coxiella burnetii using indirect enzyme-linked immunosorbent assay (ELISA) kit. The positive sera and a total of 60 ticks were tested by quantitative PCR (qPCR) for detection of C. burnetii with primers and probes specific to the transposon-like repetitive region (IS1111 gene). Positive samples were genotyped by amplification and sequencing of partial sequences based on the IS1111 gene. The seroprevalence of antibodies against C. burnetii was 75.5%. Statistical analysis pointed out three potential risk factors associated with Q fever infection: geographic location, age class and season. No positive DNA of camel blood sample was observed. However, five Hyalomma dromedarii, one H. impeltatum and one H. excavatum tick species were detected positive for Coxiella burnetii DNA by qPCR, with an overall prevalence rate of 11.66% (7/60). The revealed Algerian strains by phylogenetic and comparative analysis of the IS1111 nucleotide sequences were clustered with several pathogenic C. burnetii strains isolated from ticks, human, and cattle located in Tunisia, Greece and in some Mediterranean countries, respectively. The study results clearly indicate that camels and their ticks in Algeria may play an important role as a reservoir for C. burnetii and can be considered as a significant source of Q fever transmission to other animal species and humans.