Specimens and data were collected as part of national public health sentinel surveillance systems, which is considered a nonresearch activity. Influenza surveillance protocols were approved by the respective ministries of health. Before collecting each specimen, physicians explained the purpose of the surveillance system. After that, patients could refuse to participate. Oral consent was documented in the patient’s study records. Specimens and data were processed anonymously.

This study was conducted in the framework of influenza sentinel surveillance implemented from January 2008 through December 2009 in 5 countries (Cameroon, Côte d’Ivoire, Madagascar, Niger, and Senegal) hosting laboratories that were part of the Institut Pasteur International Network. Each national sentinel system except for the one in Seychelles encompasses private and/or public clinics located in urban or semiurban areas and covers all ages. For Seychelles, specimens were collected during an outbreak. All these sites send daily epidemiological data about ILI cases. In each of the 5 countries, throat and/or nasopharyngeal swab specimens were collected from outpatients visiting sentinel sites and presenting with ILI, which was defined according to a WHO standard case definition [16]. Specimens were shipped to the National Influenza Center (NIC) in each country, except in Niger, where specimens were collected at the virology laboratory from the Centre de Recherche Médicale et Sanitaire de Niamey. Since Seychelles did not have the laboratory capacity, specimens collected were shipped to the NIC in Madagascar for characterization.

Specimens were tested for influenza by a real-time reverse-transcription polymerase chain reaction (rRT-PCR) and/or viral isolation by inoculation on Madin-Darby canine kidney (MDCK) cells. rRT-PCR was carried out according to protocols from the Centers for Disease Control and Prevention (CDC, Atlanta GA) or the Institut Pasteur (Paris, France). Protocols and are available upon request. After virus isolation on MDCK cells, identification of influenza virus isolates was performed using a hemagglutination inhibition (HI) assay and the WHO Influenza Reagent Kit (CDC) according to WHO protocol [17]. For some of the influenza A virus subtype H3N2 (A[H3N2]) isolates, a more detailed antigenic characterization was performed by HI analysis, using postinfection ferret sera against A/Brisbane/10/2007 and A/Perth/16/2009 (kindly provided by J. McCauley, WHO Collaborating Center, National Institute for Medical Research, London, United Kingdom). A representative subset of isolates was selected for virological analysis. We attempted to collect 30 seasonal influenza type A virus isolates (ie, subtype H1N1 [A{H1N1}] and A[H3N2]) from all 5 countries both during and between the epidemic periods.

The hemagglutinin (HA) and neuraminidase (NA) genes of A(H1N1) and A(H3N2) were amplified with specific primers by RT-PCR, using a protocol developed by the National Influenza Center for Northern France at the Institut Pasteur in Paris, which is available upon request. Sequencing was performed using the BigDye Terminator v1.1 cycle sequencing kit (Applied Biosystems). Sequence chromatograms from both strands were obtained on the automated sequence analyzer ABI3730XL (Applied Biosystems) with the PCR primers. Contigs assembly was performed independently by distinct software, using either BioNumerics version 6.5 (Applied-Maths, Sint-Martens-Latem, Belgium) or CLC main workbench 6.0 (Aarhus, Denmark). Bayesian inference of phylogeny was used, and phylogenetic trees were inferred using the Mr Bayes 3.1 software package [18, 19]. All sequences newly reported from this study were deposited in the GenBank database (accession numbers pending).

Selected isolates were tested for resistance to NA inhibitors both genetically, by NA sequencing, and phenotypically, by a previously described fluorescence-based 2’-(4-methylumbelli-feryl)-alpha-D-N-acetylneuraminic acid (MUNANA) NA inhibition assay [20, 21].

Four of the 5 countries had 2 full years of surveillance. Niger started influenza surveillance in May 2009. During the study period (January 2008 through December 2009), 8312 specimens were collected and tested by rRT-PCR, with 2480 and 5832 specimens collected in 2008 and 2009, respectively (Table 1). In 2008, the number of specimens tested ranged from 255 (Cameroon) to 890 (Côte d’Ivoire), and percentage of specimens positive for influenza virus ranged from 8.2% (Côte d’Ivoire) to 25.9% (In Senegal). During this year, seasonal A(H1N1) was the main virus detected, followed by influenza B virus in Cameroon, Madagascar, and Senegal, while in Côte d’Ivoire, the number of specimens that tested positive for A(H1N1) and influenza B virus was similar (29 and 31, respectively).

Overall, A(H1N1)pdm09 was the main virus detected in 2009. Nevertheless, most of the specimens that tested positive for A(H1N1)pdm09 (935) were isolated in Madagascar. For the remaining 4 countries, only Cameroon and Côte d’Ivoire detected sporadic cases of infection due to A(H1N1)pdm09 (9 and 5 cases, respectively. Beside A(H1N1)pdm09, 2009 was dominated by A(H3N2) and influenza B virus, with 678 and 368 specimens, respectively, testing positive.

In 2008, influenza virus was detected year-round in Côte d’Ivoire, Cameroon, and Madagascar, with an increase in activity from January through February in Madagascar. In Senegal, circulation was detected from August through October (Figure 1). In 2009, the period in which activity was highest was from May through November for all countries except Madagascar, in which 2 periods of high influenza virus activity (during January–March and May–September) were detected. A third period of influenza virus activity was due to the circulation of A(H1N1)pdm09.

For the analysis of seasonal influenza A(H1N1) isolates, 97 sequences were generated by the Institut Pasteur laboratories, and 16 sequences were generated by the WHO Collaborative Centre in London. All were made available in the Global Initiative on Sharing Avian Influenza Database (available at: http://platform.gisaid.org/). Overall, phylogenetic analyses were performed on 28 sequences from Cameroon, 24 from Côte d’Ivoire, 21 from Madagascar, 33 from Senegal, and 7 from Seychelles. Sequences from reference strains, vaccine strains (from 1999 through 2007), and French isolates generated by NIC Northern France were added to the analysis. For clarity, one set of representative sequences by country was selected to construct the phylogenetic tree. Phylogenetic analysis of the HA1 genes showed that sequences of all 113 A(H1N1) isolates clustered in clade 2B together with the A/Brisbane/59/2007 strain, the vaccine strain recommended for the 2008–2009 influenza season in the northern hemisphere (Figure 2). At the amino acid level, in contrast with the A/NewCaledonia/20/1999 vaccine strain, these 113 isolates harbored the D35N and E273K substitutions observed in the A/Brisbane/59/2007 (H1N1) vaccine strain. However, some genetic drifts were observed in some countries. In Cameroon, where seasonal A (H1N1) was detected throughout the year, 2 of the 3 viruses of February 2008 were more closely related to the A/Brisbane/59/2007 virus than those isolated later, indicating a gradual evolution of the viruses. Most of the latter isolates were characterized by the A189T substitution, and all 21 viruses isolated during August 2008 had the additional H192N substitution. In Senegal, all 33 sequences belonged to a same cluster characterized by A189T, with additional S141N and G185A substitutions. In Côte d’Ivoire, except for 2 isolates recovered during April 2008 that were closely related to A/Brisbane/59/2007, all 22 sequenced isolates harbored the A189T substitution in association with either H192N (in 8) or S141N and G185A (in 14) changes. In Seychelles, the 7 sequences recovered formed 2 distinct clusters, with one harboring the A189T, N183S, and G187S substitutions. By contrast, all 19 of the 2008 A(H1N1) isolates from Madagascar characterized by the amino acid change E66K were closely related to A/Brisbane/59/2007. Thus, all isolates collected after May 2008, except the Malagasy isolates, fell within a cluster characterized by the A189T substitution.

Phylogenetic analysis of the NA genes showed that all isolates harboring the A189T HA substitution possessed the H275Y NA mutation conferring oseltamivir resistance and the D354G substitution. All isolates collected in Madagascar during 2008, 2 isolates from Cameroon collected during February 2008, 3 isolates collected in Seychelles during April 2008, and 1 isolate collected in Côte d’Ivoire during April 2008 were the only ones without the H275Y NA substitution (Supplementary Figure 1).

For characterization of A(H3N2) isolates, 151 sequences from 2008 through 2010 were generated, including 36 from Cameroon, 25 from Côte d’Ivoire, 42 from Madagascar, 12 from Niger, and 36 from Senegal. As seen in Figure 4, the HA1 from A(H3N2) formed 4 different clades evolving from the A/Brisbane/10/2007 vaccine strain clade to the A/Victoria/208/2009 clade. For clarity, only 1 set of representative sequences by country is shown in the phylogenetic tree (Supplementary Figure 2). Overall, 38 of 151 viruses (25%) from the 5 countries belonged to the Brisbane/10/2007 clade. These viruses were mostly from Madagascar (27 of 38 [71%]) and were sampled before July 2009 (28 of 38 [74%]). The remaining 10 isolates (10 of 38 [26%]) were collected from July through September 2009. A total of 38 of 151 other viruses (25%) from 3 countries (26 collected in Cameroon, 9 in Côte d’Ivoire, and 3 in Senegal) fell within a new genetic clade characterized by the V112I substitution. All 38 viruses from this new genetic clade were obtained between May and August 2009. Thirty-five of 151 viruses (23%) from 3 countries (32 collected in Senegal, 2 in Niger, and 1 in Madagascar) belonged to a third clade, A/Perth/16/2009, characterized by the N144K, K158N, and N189K substitutions. These 35 viruses were collected between May 2009 and January 2010, with most recovered during June–August 2009. Forty of 151 viruses (26%) from 4 countries (14 collected in Madagascar, 9 in Cameroon, 9 in Niger, and 8 in Côte d’Ivoire) belonged to a fourth clade, A/Victoria/208/2009, characterized by the K158N, N189K, and T212A substitutions. Almost half of these viruses were collected from July through November 2009, and half were collected from January through December 2010.

On the basis of results of HI tests performed with postinfection ferret sera against A/Brisbane/10/2007 and A/Perth/16/2009, all viruses from the A/Brisbane/10/2007 clade and from the new clade harboring the V112I substitution were found to be antigenically related to A/Brisbane/10/2007. In contrast, viruses from the A/Perth/16/2009 and A/Victoria/208/2009 clades were found to be antigenically related to A/Perth/16/2009(H3N2) (data not shown).

Forty-six A(H1N1) viruses and 69 A(H3N2) viruses selected among the isolates described above were assayed in a fluorescence-based MUNANA NA inhibition assay (Supplementary Table 1). All 69 A(H3N2) viruses were found to be susceptible to both oseltamivir (IC₅₀ 0.28 ± 0.17) and zanamivir (IC₅₀ 0.88 ± 0.64). For A(H1N1)isolates, resistance to oseltamivir is strictly correlated to the H275Y NA (N1 numbering) mutation. All 21 A(H1N1) isolates with an histidine residue at position 275 in the NA (275H) were found to be sensitive to both oseltamivir (median inhibitory concentration [IC₅₀] ± SD, 0.77 ± 0.23) and zanamivir (IC₅₀ ± SD, 0.85 ± 0.28), whereas all 25 isolates with a tyrosine residue (275Y) were resistant to oseltamivir (IC₅₀ ± SD, 222 ± 63) but not to zanamivir (IC₅₀ ± SD, 0.70 ± 0.17).