Xenopsylla brasiliensis Fleas in Plague Focus Areas, Madagascar

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Xenopsylla brasiliensis
To the Editor: Plague is a life-threatening infectious disease caused by the gram-negative bacterium Yersinia pestis (1). Y. pestis primarily infects rodents but can also cause outbreaks of plague in humans. The infection is usually transmitted within murine populations and then to humans by bites from infected fleas. The oriental rat flea, Xenopsylla cheopis, is considered the most efficient plague vector (1). Plague remains a major public health threat, causing annual epidemics, especially in Madagascar.
From November 2013 through January 2014, Madagascar reported 427 suspected cases and 45 confirmed cases of plague (both bubonic and pneumonic) in 4 districts. We report here on the flea species associated with rodents and those collected from human dwellings in the Mandritsara District where plague occurred (online Technical Appendix Figure, http://wwwnc.cdc.gov/EID/ article/22/10/16-0318-Techapp1.pdf). Four villages in the district were investigated 1 month after the end of the human plague epidemic and after an insecticide-based vector control intervention had taken place. Fleas were collected, either from rats or by using candle traps set inside houses, and preserved in 70% ethanol (online Technical Appendix Table). Rats were trapped alive inside houses and in the cultivated lands.
Although X. cheopis and S. fonquerniei fleas are common Y. pestis vectors in Madagascar (1), the major finding of this study was the discovery of X. brasiliensis fleas, which may be involved in plague transmission in Madagascar. Fleas were identified to the species under binocular magnification by using systematic keys (4,5). Each flea specimen was identified independently by 2 different technicians. The morphologic identification of X. brasiliensis (Baker, 1904) was also confirmed by Jean-Claude Beaucournu (6). Specimens of X. brasiliensis fleas identified in this study exhibit the morphologic characteristics of the species, which distinguish it from X. cheopis fleas, as follows: antepygidial bristle of male is marginal, inserted on the long pedestal, process 1 of the clasper with 8 or 9 bristles (which are stout, straight, spiniform, and 1 angled) and the process 2 of the clasper with the tip turned up (5). Compared with females of other Xenopsylla spp., X. brasiliensis females have a distinct spermathecal shape with a very swollen bulga, which is larger than the base of the hilla (4). Moreover, DNA of X. brasiliensis, P. irritans, and X. cheopis fleas collected during this study was extracted and amplified by using primers targeting the D3 segment of the 28S ribosomal RNA-encoding gene (7) and sequenced. X. brasiliensis sequences isolated showed 100% nucleotide similarity with those from Mauritius (4) and were different from X. cheopis and P. irritans sequences. All sequences are available in GenBank (accession nos. KU759935-KU759954).
Given the vital maritime exchange between Madagascar, the countries of East Africa, and the islands of the Indian Ocean, the presence of X. brasiliensis fleas in Madagascar was almost predictable. X. brasiliensis fleas originated in sub-Saharan Africa and have spread to other parts of the world, notably Brazil and India (8). This species is among the most common flea species found on rodents in southern and eastern Africa, where it is considered a key Y. pestis vector, especially in rural environments (9). This species has been described on the Comoros archipelago and Mauritius since the early 20th century (5) and, more recently, on Reunion Island (10). However, to our knowledge, X. brasiliensis fleas had not previously been found in Madagascar, although >40 species of fleas have been identified in this country since the 1930s. In this study, we found that X. brasiliensis fleas were parasitizing R. rattus rats caught inside human dwellings. R. rattus rats are considered the main plague reservoir in Madagascar (1).
This study's key finding is the discovery of a third vector species that may be involved in Y. pestis transmission in Madagascar. Further genetic studies are necessary to clarify when X. brasiliensis fleas arrived in Madagascar and where they originated. Additional studies are also needed to determine the distribution of X. brasiliensis fleas on the island and their role in plague transmission.