West Nile virus in horses, sub-Saharan Africa.To evaluate the presence and extension of West Nile virus where French soldiers are stationed in Africa, specific antibody prevalence was determined by using ELISA and Western blot. Among 245 horses living in close proximity to the soldiers, seroprevalence was particularly high in Chad (97%) and Senegal (92%). ********** West Nile virus (WNV), a mosquito-transmitted flavivirus, was first isolated in Africa, West Nile district of Uganda, in 1937 (1). It has been shown to infect humans and a wide spectrum of animal species, including birds and horses. WNV infection is often inapparent or mild in humans but may cause severe and even fatal encephalitis in horses (2). Since 1999, dissemination of the virus through North America has reinforced interest in WNV epidemiology and evolution. Before 1999, outbreaks have been reported in North Africa, Israel, Romania, Russia, and France, where the virus may have been imported by migratory birds (3-5). However, few data are available on the current circulation of WNV in sub-Saharan Africa because of lack of surveillance and diagnostic tools in those countries. Assessing and preventing human and zoonotic infectious diseases in tropical areas, particularly Africa, are essential missions of the French Defense Medical Service. To evaluate the presence and extension of WNV in the sub-Saharan African areas where French soldiers are stationed, serologic surveillance of horses living in close proximity was initiated in 2002. The Study From December 2002 through August 2005, blood samples were collected from 245 horses in 13 riding stables located in Senegal (Dakar Dakar (dəkär`, dä–), city (1988 pop. 672,991), capital of Senegal, W Senegal, on Cape Verde Peninsula, a port on the Atlantic Ocean. Situated in a market-gardening region, Dakar is Senegal's largest city and its administrative, communications, and economic center., n = 25), Cote d'Ivoire (Abidjan Abidjan (ăbĭjän`), city (1995 pop. 2,793,000), former capital of Côte d'Ivoire, a port on the Ébrié Lagoon (an arm of the Gulf of Guinea). Abidjan is Côte d'Ivoire's administrative center, commercial capital, and largest city., n 95), Chad (N'Djamena, n = 30), Democratic Republic of the Congo (Kinshasa, n = 20), Gabon Gabon (gäbôN`), officially Gabonese Republic, republic (2005 est. pop. 1,389,000), 103,346 sq mi (267,667 sq km), W central Africa. It borders on the Atlantic Ocean in the west, on Equatorial Guinea and Cameroon in the north, and on Congo (Brazzaville) in the east and south. (Libreville, Port Gentil, and Moanda, n = 64), and Djibouti Djibouti, country, AfricaDjibouti (jēb tē`), officially Republic of Djibouti, republic (2005 est. pop. 477,000), c.8,900 sq mi (23,057 sq km), E Africa, on the Gulf of Aden. It is bounded by Eritrea (N), Ethiopia (W, S), Somalia (S), and the Gulf of Aden (E).
(Djibouti, n = 11) (Figure 1). Some horses were sampled twice in Chad (n
= 18) and in C6te d'lvoire (n = 18) during a period of 11-13
months. Origin, travel history, and how long the tested horses lived in
the studied areas were not well known, but the horses were generally
born and bred in the countries from which they were sampled (some of
them in neighboring countries such as Burkina Faso, Mall, Niger, and
Ethiopia), and none had a history of WNV vaccination.[FIGURE 1 OMITTED] Blood was centrifuged within 24 hours after collection. Serum was separated, frozen at -20[degrees]C, and sent to the virology laboratory of the Institut de Medecine Tropicale du Service de Sante des Armdes in Marseille, France. Each sample was systematically tested for WNV-specific immunoglobulin G (IgG) by using an ELISA made in house. Antigen was prepared from a crude supernatant of Vero cells collected after 4 days of infection with WNV reference strain Eg 101 (viral titer >[10.sup.7] ID/mL) and treated with 1% Triton 100 and [beta]-propiolactone (1:1,000). IgG was detected by using commercial peroxidase anti-horse IgG and tetramethylbenzidine as the substrate and standard procedures of ELISA capture. Serum specimens were considered positive for IgG when the optical density (OD) in antigen-positive wells was >0.3 and the ratio between the OD in corresponding antigen-positive wells and the mean OD in antigen-negative wells was >3.5. Because of the antigenic cross-reactivity among viruses of the Flavivirus genus, validation of ELISA IgG positive samples was necessary. The plaque reduction neutralization test (PRNT) is the serologic reference method. All the IgG-positive sera collected during 2002 2003 were tested as described (11). In a 96-well plate, 4 dilutions of each serum sample (1:10, 1:40, 1:160, 1:640; 4 wells for each dilution) were incubated at 37[degrees]C for 1 hour in a viral suspension of 10-50 PFU in 50 [micro]L before the addition of 100 [micro]L of a Vero cell suspension (4x[10.sup.4]/well). Four days later, the cell layer was fixed in formol formol /for·mol/ (for´mol) formaldehyde solution. and stained with crystal violet. A test result was considered positive for a dilution if the plaque reduction was >90% compared with the negative control. Because this method is fastidious and slow, we have used an alternative Western blot (WB) approach as described in Figure 2 (12). [FIGURE 2 OMITTED] Complete (100%) correlation between WB and PRNT and high specificity of WB were observed for a panel of 79 serum samples. Thus, only WB was used for validation of ELISA IgG-positive sera for the 2004-2005 samples. All serum samples that were positive for WNV IgG were further investigated using immunocapture IgM ELISA to evaluate the time of infection. Conclusions Except in Gabon (3%), high seroprevalence (28%-97%) for WNV was detected in horses in West Africa and Central Africa, especially in N'Djamena (97%) and Dakar (92%) (Table 1). Seroprevalence of 9% was detected in East Africa (Djibouti). All horses positive for IgG were negative for IgM, which indicates relatively old infection. Estimating the date of onset of WNV infection is difficult because of a lack of published data relative to WNV IgM and IgG response in naturally infected horses; only persistence of IgG several years after infection has been described (4). Because histories of tested horses are not well known, determining precisely when and where horses became infected is difficult. However, infections likely occurred in sampling countries or neighboring sub-Saharan African countries. Seroconversion from negative to positive was found in 2 horses in Chad (Table 2) from 2003 through 2004, while 5 of 15 seropositive horses became seronegative, which suggests maintenance of an enzootic en·zo·ot·ic (  n z - t cycle in
this area but at a low level. During the same period in Cote
d'Ivoire, 9 of 10 previously seropositive horses were seronegative,
while none of seronegative horses became seropositive. The most probable
explanation is a decrease in IgG titer under the retained threshold of
positivity compatible with the decrease of WNV IgG response in horses,
which suggests the presence of an older epizootic ep·i·zo·ot·ic (p -z- in this area.The immunoblotting method is a fast and specific confirmation assay for validation of ELISA WNV IgG-positive sera. Once validated by further studies, WB could be used as an alternative to PRNT. Serologic data from our study should be considered as evidence of WNV activity in sub-Saharan Africa, which has a potential risk for populations and foreigners, including French soldiers. Previously, WNV was known to circulate in mosquitoes and some bird species without having any clear pathogenicity; outbreaks have been reported only in South Africa and in the Democratic Republic of the Congo (5,6). Before our study, no data relative to WNV circulation in horses in sub-Saharan Africa were documented, and WNV activity had never been reported in Chad or Gabon. Highest (92% 97%) seroprevalence was found in the western and central parts of the Sahelian area (Dakar and N'Djamena). This area, characterized by a semiarid climate and vegetation of steppe and brush grass, is the most frequently involved area for WNV isolations in birds and mosquitoes (7,13). The seroprevalence was lower in the east of the Sahelian area (Djibouti, 9%), where the climate is arid and the vegetation is semidesert, and in the sub-Sahelian area (3%-30%), where the vegetation is tropical rain forest or woodland savanna in a humid or semihumid climate. That forest favors the sedentariness of birds has been documented (14). The migration of birds may certainly be enhanced in the Sahelian area; the introduction of WNV by migratory birds during their flight between Senegal and Europe has been suspected as a cause of the 1996 outbreak in Morocco (10). To estimate possibilities of incursions of WNV, especially in Eurasia, effects of environmental factors such as climate and vegetation on reservoir and vector populations in sub-Saharan Africa should be precisely studied. Acknowledgments We thank all who contributed to these studies, especially Jose Gomez and Laurent Maurizi, for equine serum sampling in Africa and Olivier Merle, Yannick Sanson, and Fabienne Tock, who managed the technical samples. We also thank the French Defense Medical Service for financial and technical support. Dr Cabre is a veterinarian in the French Defense Medical Service. He was on duty in Chad during the end of 2003, where he developed an interest in known and emerging infectious diseases, especially zoonoses, that occur in areas of French military operations. References (1.) Smithburn KC, Hughes TP, Burke AW, Paul JH. A neurotropic virus isolated from the blood of a native of Uganda. Am J Trop Med Hyg. 1940;20:471-92. (2.) Campbell GL, Martin AA, Lanciotti RS, Gubler DJ. West Nile virus. Lancet Infect Dis. 2002;2:519-29. (3.) Hubalek Z, Halouzka J. West Nile lever: a reemerging mosquito-borne viral disease in Europe. Emerg Infect Dis. 1999;5:643-50. (4.) Murgue B, Murri S, Zientara S, Durand B, Durand JP, Zeller HG. West Nile outbreak in horses in southern France, 2000: the return alter 35 years later. Emerg Infect Dis. 2001 ;7:692-6. (5.) Zeller HG, Schuffenecker I. West Nile virus: an overview of its spread in Europe and the Mediterranean basin in contrast to its spread in the Americas. Eur J Clin Microbiol Infect Dis. 2004:23:147-56. (6.) Nur YA, Groen J, Heuvehnans H, Tuynman W, Copra copra: see coconut. C, Osterhaus AD. An outbreak of West Nile lever among migrants in Kisangani, Democratic Republic of Congo. Am J Trop Med Hyg. 1999:61:885-8. (7.) Centre Collaborateur OMS de Reference et de Recherche sur les Arbovirus ar·bor·vi·rus (är  b r-)n. . Flavivirns, West Nile: 282 souches identifiees. 1962 [updated
2005 Jul; cited 2006 Aug 17]. Available from http://www.
pasteur.fr/recherche/banques/CRORA/virus/v010100.htm(8.) Murgue B, Mufti S, Triki H, Deubel V, Zeller HG. West Nile in the Mediterranean basin: 1950 2000. Ann N Y Acad Sci. 2001;951: 117-26. (9.) Murgue B, Zeller H, Deubel V. The ecology and epidemiology of West Nile virus in Africa, Europe and Asia. Curt Top Microbiol Immunol. 2002;267:195-221. (10.) Schuffenecker I, Peyrefitte CN, El Harrak M, Murri S, Leblond A, Zeller HG. West Nile virus in Morocco, 2003. Emerg Infect Dis. 2005:11:306-9. (11.) De Madrid AT, Porterfield JS. A simple micro-culture method for the study of group B arboviruses. Bull World Health Organ 1969;40: 113-21. (12.) Prange A, Coussinier-Paris P, Davoust B, Cabre O, Gravier P, Sanson Y, et al. Diagnostic diffdrentiel de l'infection par le virns West Nile: intret de l'immunoblot. Proceedings of the 11th Actualites du Pharo Conference: 2004 Sep 9-11; Marseilles, France. Med Trop (Mars). 2004;64:293. (13.) Traore-Lamizana M, Zeller HG, Mondo M. Isolations of West Nile and Bagaza viruses from mosquitoes {Diptera: Culicidae) in center Senegal (Ferlo). J Med Entomol. 1994;31:934-8. (14.) Brown LH, Urban EK, Newman K, editors. The birds of Africa. Vol.1. 1st ed. New York: Academic Press; 1982. Olivier Cabre,* Marc Grandadam, ([dagger]) Jean-Lou Marid, ([double dagger]) Patrick Gravier, ([dagger]) Aurelie, Prange, ([dagger]) Yan Santinelli, ([section]) Vincent Rous, ([paragraph]) Olivier Bourry, # Jean-Paul Durand ([dagger]) Hugues Tolou, ([dagger]) and Bernard Davoust ** * Ecole du Val-de-Grace, Paris, France; ([dagger]) Institut de Medecine Tropicale du Service de Sante des Armees, Marseille, France; ([double dagger]) Secteur Veterinaire de Marseille, Marseille, France; ([section]) Service Veterinaire du Regiment de Cavalerie de la Garde Republicaine, Paris, France; ([paragraph]) Secteur Veterinaire de Lyon, Lyon, France; # Centre International de Recherches Medicales, Franceville, Gabon; and **Direction Regionale du Service de Sante des Armees de Toulon, Toulon, France Address for correspondence: Olivier Cabre, Conseiller Veterinaire du SERTEMARCO, BP 65, 83800 Toulon Armees, France; email: sertemarco.restco@orange.fr
Table 1 West Nile virus antibody prevalence in horses in 6 African
countries, December 2002-August 2005 *
Sampling date No.
Country (sampling sites) (no. riding stables) tested
Senegal (Dakar) Dec 2002, Apr 2003 (1) 25
Cote d'Ivoire (Abidjan) Dec 2003, Dec 2004, Jan 2005 (3) 95
Chad (N'Djamena) Nov 2003, Oct 2004 (2) 30
DRC (Kinshasa) Jul 2004 (1) 20
Gabon (Libreville, Port Dec 2004 (4) 64
Gentil, Moanda)
Djibouti (Djibouti) Jul 2004, Aug 2005 (2) 11
Total 245
No. confirmed
No. IgG+ IgG+ ([double %
Country (sampling sites) ([dagger]) dagger]) Seroprevalence
Senegal (Dakar) 23 23 92
Cote d'Ivoire (Abidjan) 51 27 28
Chad (N'Djamena) 29 29 97
DRC (Kinshasa) 9 6 30
Gabon (Libreville, Port 9 2 3
Gentil, Moanda)
Djibouti (Djibouti) 2 1 9
Total 123 88 36
* IgG+, positive for immunoglobulin G; DRC, Democratic Republic of the
Congo.
([dagger]) By ELISA.
([double dagger]) By Western blot and seroneutralization for samples
from 2002-2003, by Western blot only for samples from 2004 to 2005.
Table 2. Results of follow-up testing for West Nile virus in horses
in Chad and Cote d'Ivoire
Initial testing * Follow-up testing ([dagger])
Chad (n = 18) 3 negative 1 negative, 2 positive
15 positive 5 negative, 10 positive
Cote d'Ivoire 8 negative 8 negative
(n = 18) 10 positive 9 negative, 1 positive
* November 2003 in Chad and December 2003 in Cote d'Ivoire. Positive
results were confirmed by Western blot and seroneutralization.
([dagger]) October 2004 in Chad and December 2004-January 2005 in Cote
d'Ivoire. Positive results were confirmed by Western blot.
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