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Volume 18, Number 10—October 2012
Letter

Pathogenic Leptospira spp. in Bats, Madagascar and Union of the Comoros

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To the Editor: Leptospirosis is a zoonosis of global distribution; incidence rates are particularly high in tropical areas (1). Leptospirosis is a major public health problem on islands in the southwestern Indian Ocean, particularly La Réunion, Mayotte, and the Seychelles (where incidence rates are among the highest in the world) (1). In contrast, no human case has been reported on the nearby islands of Madagascar and Union of the Comoros. However, the recent demonstration of pathogenic Leptospira spp. in small mammals introduced to Madagascar suggests possible transmission from free-living animals to humans (2).

In addition to the fact that incidence rates vary among humans, clinical bacterial isolates from different islands belong to different serogroups and serovars and show diverse molecular features (3,4). This diversity might be correlated with that of the reservoir hosts; the islands in the southwestern Indian Ocean are a hot spot of biodiversity with extraordinary levels of vertebrate endemism. Most studies investigating wild-animal reservoirs of Leptospira spp. on the islands in the southwestern Indian Ocean have focused on small mammals that had been introduced to the islands (2,5), although bats infected with pathogenic Leptospira spp. have been identified in other regions (6). Whether bats are a reservoir of Leptospira spp. on these islands remains unknown. Therefore, we looked for this bacterium in bats from Madagascar and Union of the Comoros and characterized associated genetic diversity.

As part of an ongoing program aimed at identifying viral and bacterial infectious agents in island wild fauna, 129 insectivorous and frugivorous bats were tested for Leptospira spp. The bats belonged to 12 species: 9 from Madagascar (Mormopterus jugularis, Otomops madagascariensis, Triaenops furculus, T. menamena, Miniopterus gleni, Miniopterus griffithsi, Miniopterus mahafaliensis, Myotis goudoti, Hypsugo anchietae) and 3 from Union of the Comoros (Rousettus obliviosus, Chaerephon pusillus, Miniopterus griveaudi). Bats were captured in mist nets or harp traps at 8 sites in Madagascar and 6 sites in Union of the Comoros. Organs were collected in the field and immediately stored in liquid nitrogen.

Total nucleic acids were extracted from a pool of kidney, spleen, and lung tissue by using the Biorobot EZ1 and EZI Virus Mini Kit version 2.0 (QIAGEN, Les Ulis, France). Reverse transcription was then performed with GoScript reverse transcriptase (Promega, Charbonnières-les-Bains, France) to obtain cDNA. We screened pathogenic Leptospira spp. with a probe-specific real-time PCR (7). The 25 positive samples were subsequently subjected to a PCR procedure that amplified fragments from 682 to 1,293 bp of the 16S rRNA gene (depending on the amplification success) by using published primers (810). Resulting PCR products from 7 samples were sequenced and compared with available sequences in GenBank by using phylogenetic construction with PhyML 3.0.

Figure

Thumbnail of Maximum-likelihood phylogenetic tree of Leptospira spp.16s rDNA in bats from Madagascar and the Union of the Comoros. The dendrogram was constructed with a fragment of 641 bp, with the TIMef+I+G substitution model, and with 1,000 replications. Only bootstrap supports >70% are shown (circles). The precise geographic information of the sampled bats can be accessed through the GenBank accession numbers indicated in parentheses at branch tips. Host bat species for the sequences gener

Figure. . . Maximum-likelihood phylogenetic tree of Leptospira spp.16s rDNA in bats from Madagascar and the Union of the Comoros. The dendrogram was constructed with a fragment of 641 bp, with the...

Of the 12 bat species tested, 11 were positive for Leptospira spp. (the only H. anchietae bat tested was negative). Among 52 bats from Madagascar, 18 (34.6%) were infected; detection rates were often high, e.g., 8 (80%) of 10 T. menamena bats. In contrast, among 77 bats from Union of the Comoros, only 9 (11.7%) were infected. Leptospira spp. seem to be ubiquitous in the study areas; infected bats were found at 7 of 8 sites in Madagascar and 3 of 6 sites in the Union of the Comoros. Of the 7 Leptospira spp. sequences obtained from bats in this study, 3 were closely related to L. borgpetersenii, 1 grouped with L. interrogans, and 3 were not associated with any described species (Figure). L. interrogans and L. borgpetersenii were identified from R. obliviosus bats from the same cave in the Union of the Comoros, and the L. borgpetersenii sequence was closely related to that identified from the O. madagascariensis bats, which are endemic to Madagascar. Potentially pathogenic Leptospira spp. were found in bats of a wide variety of species in Madagascar and Union of the Comoros, at most study sites, and at levels notably higher than those reported from similar studies in other regions (6). Some of the bats that were Leptospira spp.–positive by PCR, particularly the genera Mormopterus and Chaerephon, often occupy synanthropic day roost sites. For example, we sampled 1 positive colony of C. pusillus bats in a school attic (Pomoni, Anjouan, Union of the Comoros), and bat scats were visible on the floor within the classroom.

Bats from Madagascar and Union of the Comoros harbor a notable diversity of Leptospira spp.; this finding is in accordance with the diversity found in a comparable investigation of bats in the Amazon region (6). Although leptospirosis in humans is suspected only on the islands associated with this study (10), incidence among humans in Mayotte, part of the Union of the Comoros archipelago, has been shown to be high and mainly associated with L. borgpetersenii (3). The use of more polymorphic markers combined with the sequencing of clinical isolates should provide better characterization of Leptospira spp. diversity and the potential role of bats in human leptospirosis.

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Acknowledgment

Permits for this research were kindly issued by Direction du Système des Aires Protégées, Direction Générale de l’Environnement et des Forêts (Madagascar), and the Centre National de Documentation et de Recherche Scientifique (Union of the Comoros). This work was supported by Fonds Européen de Développement Régional Programme Opérationnel de Coopération Territoriale Réunion, Pathogènes Associés à la Faune Sauvage Océan Indien #31189. M.D. is supported by the European Community FP7 Capacity RegPot Run-Emerge Program.

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Erwan Lagadec1, Yann Gomard1, Vanina Guernier, Muriel Dietrich, Hervé Pascalis, Sarah Temmam, Beza Ramasindrazana, Steven M. Goodman, Pablo TortosaComments to Author , and Koussay Dellagi
Author affiliations: Centre de Recherche et de Veille sur les Maladies Émergentes dans l'Océan Indien, St. Clotilde, La Réunion, France (E. Lagadec, Y. Gomard, V. Guernier, M. Dietrich, H. Pascalis, S. Temmam, P. Tortosa, K. Dellagi); Université de Lyon, Villeurbanne, France (E. Lagadec, S. Temmam); Université de La Réunion, St. Clotilde (M. Dietrich, P. Tortosa); Université d’Antananarivo, Antananarivo, Madagascar (B. Ramasindrazana); Association Vahatra, Antananarivo (B. Ramasindrazana, S.M. Goodman); Field Museum of Natural History, Chicago, Illinois, USA (S.M. Goodman); and Institut de Recherche pour le Développement, St. Clotilde (Y. Gomard, V. Guernier, H. Pascalis, S. Temmam, K. Dellagi)

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References

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DOI: 10.3201/eid1810.111898

1These authors contributed equally to this article.

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Pablo Tortosa, CRVOI, Plateforme de Recherche CYROI, 2 Rue Maxime Rivière, 97490 St. Clotilde, France

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Page created: September 04, 2012
Page updated: September 04, 2012
Page reviewed: September 04, 2012
The conclusions, findings, and opinions expressed by authors contributing to this journal do not necessarily reflect the official position of the U.S. Department of Health and Human Services, the Public Health Service, the Centers for Disease Control and Prevention, or the authors' affiliated institutions. Use of trade names is for identification only and does not imply endorsement by any of the groups named above.
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