Influenza is one of the most prevalent viral diseases in humans. For some high-risk human populations, including the infant, the elderly, and the immunocompromised, who may not benefit from active immunization, passive immunotherapy with antibodies reactive with all influenza A strains may be an alternative. In this study, we characterized several fully human monoclonal antibodies (MAb) reactive with M2e, which were generated from transchromosomic mice engineered to produce fully human antibodies following immunization with a consensus-sequence M2e peptide. The MAbs showed strong binding to M2e peptide and to virus infected MDCK cells. One MAb recognizing the highly conserved N-terminal portion of consensus M2e displayed high binding to the majority of M2e variants from natural viral isolates, including highly pathogenic avian strains, which were recently reported to infect humans. Passive immunotherapy with this MAb in mice resulted in significant reduction in virus replication in the lung and protection from lethal infection when administered either prophylactically or therapeutically. These results suggest the potential of the anti-M2e human MAb with broad binding spectrum as a universal passive immunotherapeutic agent to infection by influenza A virus.