Involvement of beta 1 integrins in the binding and entry of Trypanosoma cruzi into human macrophages.

We have investigated the role of integrin molecules in the binding and entry of Trypanosoma cruzi into human macrophages, with the help of monoclonal antibodies (mAb). Addition of Lia 1/2 mAb and in lesser extent of Lia 1/5 mAb, which are both specific for the beta 1 subunit of the VLA integrin family, to human macrophages blocked T. cruzi uptake and subsequent replication inside the macrophages. This inhibition correlated with their respective ability to block Fibronectin (Fn) binding to macrophages. Furthermore, another anti-beta 1 mAb, Alex 1/4, which binds to a different epitope on the beta 1 molecule and was unable to block Fn binding, did not affect T. cruzi invasion. The inhibition by Lia 1/2 and Lia 1/5 was dose dependent and clearly observable with doses as low as 1 microgram/ml. Moreover, this inhibition was T. cruzi specific since the Lia 1/2 and Lia 1/5 were unable to block uptake of Leishmania pifanoi or Escherichia coli by human macrophages. In contrast, the TS 1/18 mAb, which blocks ligand binding to beta 2 integrin, inhibited entry of L. pifanoi but not of T. cruzi. Finally, mAb specific for the alpha 4 and alpha 5 subunits of the two major Fn binding molecules of macrophages (VLA-4 and VLA-5, respectively), either alone or in combination, were poor inhibitors of T. cruzi uptake, suggesting that several members of the VLA family, including VLA-4 and VLA-5, are involved in binding and entry of T. cruzi into macrophages.