We formally propose the name Rickettsia aeschlimannii sp. nov. for a new spotted fever group (SFG) rickettsia, strain MCMT, isolated from Hyalumma marginatum marginatum ticks collected in Morocco. This organism shows a typical rickettsial morphology when analyzed by electron microscopy. After characterization by serotyping, sodium dodecyl sulfate-polyacrylamide gel electrophoresis, Western immunoblotting, PCR-restriction fragment length polymorphism (RFLP), pulsed-field gel electrophoresis, and 16s rDNA sequencing, this organism was found to be different from all of the recognized SFG rickettsiae. Identical PCR-FWLP profiles have, however, been found in H. marginatum marginatum from Portugal and H. marginatum rujipes from Zimbabwe, which suggests that the distribution of this rickettsia reaches from the Mediterranean to southern Africa.Although the first descriptions of Mediterranean spotted fever and its ecology were made in northern Africa (13) and one of the reference strains of Rickettsia conorii is called the Moroccan strain, there have been few recent reports about the ecology and epidemiology of rickettsioses in this area (31). In early studies, all three African spotted fever group (SFG) rickettsioses, Mediterranean spotted fever, South African tick bite fever, and Kenyan tick typhus (25), were attributed to infection with R. conorii. The recognized vectors were dog ticks: Rhipicephalus sanguineus in the Mediterranean area (11) and Rhipicephalus simus or Haemaphysalis leachi in the eastern and southern regions of Africa (22,27). When other tick species were found to be infected with rickettsia-like organisms (RLO), they were considered to be "secondary" vectors of R. conorii (21). More recently, however, it has been shown that other SFG rickettsiae occur throughout Africa and that several tick species carry rickettsiae different from R. conorii (7,41).The presence of RLO in Hyalomma ticks of Morocco and Sudan was first reported in the 1950s (21). RLO have been detected by PCR and direct immunofluorescence in H. impeltatum, H. dromedari, and H. anatolicum in Egypt; however, they have not been identified (30). During a large-scale field survey in Zimbabwe, hemolymph tests showed that 11% of Hyalomma marginatum rufipes ticks were infected with RLO (7). Although isolation attempts were unsuccessful, PCR-restriction fragment length polymorphism (RFLP) analysis showed that these ticks contained SFG rickettsiae genotypically similar to a strain (PoTiR8) isolated from H. marginatum marginaturn ticks from Portugal (2). Strain PoTiR8 has, however, not been further characterized.In Morocco, H. marginatum marginaturn is one of the most widely distributed tick species, possibly representing up to 42% of the tick burden of cattle (3, 32). Although in its juvenile stages it usually bites birds, under particular circumstances it may also infest humans (23). We present here the first description of an SFG rickettsial strain (MC16T) isolated from Moroccan H. marginaturn marginaturn. This isolate was compared to the recogn...
The prevalence of antibodies reactive with Rickettsia conorii, Rickettsia typhi, Coxiella burnetii and Ehrlichia chaffeensis was investigated using indirect immunofluorescence (IFA) test on human sera obtained from 300 blood donors in Casablanca and 126 sera obtained from clinical laboratories in Fez. In sera from Casablanca, antibodies reactive at titers > or = 1:32 were found against R. conorii (7%), and R. typhi (1.7%), but not against E. chaffeensis. In the sera from Fez, antibodies were also detected against R. conorii (5.6%), R. typhi (4%), but not against E. chaffeensis. By Western immunoblotting, seroprevalence for R. conorii was in Casablanca and 4.8% in Fez. Antibodies reactive at titers > or = 1:50 against C. burnetii (phase II) were present in sera from Casablanca (1%) and Fez (18.3%).
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