Rickettsia felis, the etiologic agent of spotted fever, is maintained in cat fleas by vertical transmission and resembles other tick-borne spotted fever group rickettsiae. In the present study, we utilized an Ixodes scapularisderived tick cell line, ISE6, to achieve isolation and propagation of R. felis. A cytopathic effect of increased vacuolization was commonly observed in R. felis-infected cells, while lysis of host cells was not evident despite large numbers of rickettsiae. Electron microscopy identified rickettsia-like organisms in ISE6 cells, and sequence analyses of portions of the citrate synthase (gltA), 16S rRNA, Rickettsia genus-specific 17-kDa antigen, and spotted fever group-specific outer membrane protein A (ompA) genes and, notably, R. felis conjugative plasmids indicate that this cultivatable strain (LSU) was R. felis. Establishment of R. felis (LSU) in a tick-derived cell line provides an alternative and promising system for the expansion of studies investigating the interactions between R. felis and arthropod hosts.Spotted fever group rickettsiae (SFGR) are obligately intracellular gram-negative bacteria that are typically associated with ticks, with one exception being the etiologic agent of flea-associated spotted fever, Rickettsia felis, described predominately in the cat flea, Ctenocephalides felis. There are a growing number of reports implicating R. felis as a human pathogen. Serological analysis and PCR amplification of rickettsial DNA in human samples coupled with clinical manifestations, including fever and maculopapular rash, characterize rickettsiosis (reviewed in reference 24). In colonized cat fleas, vertical transmission of R. felis is thought to be the primary route of maintenance (3, 43); however, the acquisition mechanism of R. felis by vertebrates and uninfected fleas in nature is unknown. Studies on the ecology of R. felis identified a role for opossums in the transmission cycle (6,32,45). Additionally, a role for companion animals, rodents, and, specifically, their fleas as the potential source of human exposure has been suggested (2,8,27).The relatively recent identification and characterization of R. felis yielded novel aspects for the genus Rickettsia. A rickettsia-like organism, first observed by electron microscopy in the midgut epithelial cells of colonized adult cat fleas, was designated the "ELB agent" after the source of the fleas, the Elward Laboratory (El Soquel, CA) flea colony (1). Amplification of rickettsial genes encoding citrate synthase (gltA) and the genus-specific 17-kDa antigen confirmed the presence of rickettsiae in the Elward Laboratory colony (3), and the name R. felis was proposed (10). Subsequent amplification of the genes encoding the 17-kDa antigen and the 190-kDa antigen (ompA) from a colony of fleas maintained at Louisiana State University (LSU) (Baton Rouge, LA) confirmed the molecular characterization of the bacteria and further classified R. felis as an SFGR (7). Although attempts were unable to produce a sustained culture of either the ELB ...
