| Abstract: | An epitope-blocking enzyme-linked immunosorbent assay (b-ELISA) was evaluated for the diagnosis of West Nile virus (WNV) infections in humans. Sera from patients diagnosed with WNV infections from an outbreak in 2003 in Colorado and from patients diagnosed with dengue virus infections from Mexico and Thailand were tested with the b-ELISA. The b-ELISAs were performed using the WNV-specific monoclonal antibody (MAb) 3.1112G and the flavivirus-specific MAb 6B6C-1. Although the WNV-specific b-ELISA was effective in diagnosing WNV infections in humans from Colorado, it was not efficacious for diagnosing WNV infections in serum specimens from Mexico and Thailand. In serum specimens from patients from Colorado, the WNV b-ELISA and the WNV plaque reduction neutralization test showed an overall agreement of 91%. The sensitivity and specificity of the WNV b-ELISA were 89% and 92%, respectively, with a false-positive rate of 5%, based on receiver operating characteristic analysis. In contrast, false-positive rate results in specimens from the countries of Mexico and Thailand, where flaviviruses are endemic, were 79% and 80%, presumably due to the presence of antibodies resulting from previous dengue virus infections in Mexico and/or Japanese encephalitis virus infections or vaccination in Thailand. Thus, in regions where people have experienced previous or multiple flavivirus infections, the use of the b-ELISA for WNV diagnosis is contraindicated.The most medically important flaviviruses include dengue virus (DENV), Japanese encephalitis virus (JEV), West Nile virus (WNV), yellow fever virus (YFV), tick-borne encephalitis virus (TBEV), and Saint Louis encephalitis virus (SLEV) (16, 31, 38). Flaviviruses are positive-strand RNA viruses with genomes of approximately 11 kb that encode three structural and seven nonstructural (NS) proteins in the gene order C (capsid), M (membrane), E (envelope), NS1, NS2A, NS2B, NS3, NS4A, NS4B, and NS5. WNV is a member of the JEV serocomplex within the genus Flavivirus, family Flaviviridae. The virus has been isolated in Africa, Australia, Eastern Europe, the Middle East, North America, and South America (7, 20, 24). WNV was first detected in the United States in July 1999 and spread rapidly throughout the country, causing large numbers of infections in humans, horses, and birds (19, 31).Prior to 1999, flavivirus infections in humans in the United States were infrequent, and most were attributed to sporadic cases of SLEV and travel-associated cases of DENV (41). In Thailand, all four DENV serotypes and JEV circulate (39), resulting in very high flavivirus transmission and seroprevalence rates. In the Yucatán Peninsula of Mexico, all four DENV serotypes circulate and seroprevalence rates are very high (8). Serological diagnosis of WNV infections is complicated by the high rates of both primary DENV infections and secondary DENV infections in inhabitants of Thailand and Yucatan, Mexico, with seroprevalence rates of >85% in Thailand (1) and 72% in the Yucatán in 1985 (12, 28). WNV introduction into the Yucatán in 2002 was revealed by detection of antibodies in horses (29) and then later in migratory and resident birds (10) and in zoo animals (11). However, no WNV infections of humans have been diagnosed in the Yucatán.The immunoglobulin M (IgM) capture enzyme-linked immunosorbent assay (ELISA) is the preferred test used for diagnosis of WNV in humans in the United States (32). The test is used to detect antibodies to WNV in serum and/or cerebrospinal fluid. The plaque reduction neutralization test (PRNT) is the gold standard for serodiagnosis of flavivirus infections and for identifying the infecting agent (2). However, both of these tests can be confounded if patients have had previous flavivirus infections. Indeed, diagnosis of flavivirus infections in humans is very difficult in geographic areas where multiple flaviviruses are circulating and cause sequential infections. Because of “original antigenic sin” the highest antibody titer may be due to a previous flavivirus infection rather than to the etiologic agent (18, 26). Serological diagnosis of WNV, SLEV, and YFV infections is extremely difficult in patients from areas where DENV is hyperendemic.Previously, we exploited an epitope-blocking ELISA (b-ELISA) to detect antibodies to WNV in diverse species of birds and domestic mammals (3, 4). The WNV b-ELISA measures the ability of antibodies present in sera to block the binding of a monoclonal antibody (MAb) to a WNV-specific epitope on the NS1 protein (17). The WNV b-ELISA had not been previously evaluated for use in humans. In this study, a WNV-specific and a flavivirus broadly reactive b-ELISAs were evaluated for their abilities to detect antibodies against WNV in human serum specimens from countries with differing levels of flavivirus endemicity: the United States, Thailand, and Mexico. The objectives of this study were (i) to determine the ability of the b-ELISA to detect antibodies to WNV in human serum samples and (ii) to determine the effects of previous flavivirus infections of patients (e.g., DENV and JEV) on the diagnostic efficacy of the WNV b-ELISA. |
