Influenza A viruses (IAVs) initially infect a few host cells, and the infection subsequently spreads to neighboring cells. However, the molecular mechanisms underlying this expansion remain unclear. Here, we show that IAV infection upregulates the frequency of intercellular calcium wave propagations (iCWPs) that mediate the spread of IAVs. ADP released from initially infected cells mediated iCWPs via the P2Y1 receptor. The generation of iCWPs and spread of viral infection were inhibited by a P2Y1 antagonist. Enhanced endocytosis in the surrounding cells that received ADP signaling upregulated viral entry. Expression of IAV matrix protein 2 (M2) in initially infected cells triggered iCWPs through ADP diffusion, thereby increasing infection, whereas an ion permeability-deficient mutation of M2 or inhibition of its ion channel activity suppressed iCWPs. Therefore, intercellular calcium signaling is essential for early expansion and potential establishment of IAV infection, which offers a promising target for IAV prophylaxis.