Transcription and replication of the influenza A virus are carried out in the nucleus of the infected cells in the context of viral ribonucleoproteins (RNPs). The viral polymerase responsible for these processes is a protein complex composed by the PB1, PB2 and PA proteins. We previously identified a set of polymerase-associated cellular proteins by proteomic analysis of polymerase-containing intracellular complexes expressed and purified from human cells. Here we characterize the role of NXP2/MORC3 in the infection cycle. NXP2/MORC3 is a member of the Microrchidia (MORC) family that is associated to the nuclear matrix and has RNA-binding activity. Influenza virus infection led to a slight increase in NXP2/MORC3 expression and partial relocalization to the cytoplasm. Co-immunoprecipitation and immunofluorescence experiments indicated an association of NXP2/MORC3 with viral polymerase and RNPs during infection. Down-regulation of NXP2/MORC3 with two independent shRNAs reduced virus titers in low-multiplicity infections. Consistent with these findings, analysis of virus-specific RNA in high-multiplicity infections indicated a reduction of vRNA and mRNA after NXP2/MORC3 down-regulation. Silencing of NXP2/MORC3 in a recombinant mini-replicon system, where virus transcription and replication are uncoupled, showed a reduction in cat mRNA and CAT protein accumulation, but no alterations in cat vRNA levels, suggesting that NXP2/MORC3 is important for influenza virus transcription.