It is generally accepted that Trypanosoma cruzi trypomastigotes represent the infective forms of the etiological agent of Chagas' disease. However, the invasive capacity of amastigotes and their ability to sustain a complete infective cycle in mammalian cultured cells and hosts has been recently demonstrated. In order to compare the process of cell invasion by these different infective forms, I examined the interactions of trypomastigotes and amastigotes with HeLa cells using a new and simple method that improves parasite-cell interactions and significantly reduces incubation periods. T. cruzi forms were centrifuged onto HeLa cells grown on coverslips and parasite-cell interactions were examined by fluorescence and scanning electron microscopy. As expected, it was observed that all parasite forms attach and eventually enter the cells. However, whereas trypomastigotes preferentially invade HeLa cells at the edges, as has recently been demonstrated for other cell types, the initial steps of amastigote-HeLa cell interaction involve binding and entangling of the parasite to surface microvilli. Thus, different T. cruzi infective forms interact with different cell surface structures that could express different receptors at the HeLa cell membrane.