The membrane fusion protein of HIV-1 is the envelope transmembrane gp41 glycoprotein, which is the responsible of the membrane fusion between the virus and the target cell. Gp41 has an unusual cytoplasmic tail, the endodomain, containing highly helicoidal segments with large hydrophobic moments, the so called lentivirus lytic peptides or LLPs. According to our previous work, one of the most membranotropic regions along the whole gp41 glycoprotein was located in the LLP3 region of the gp41. In order to get new insights into the viral membrane fusion mechanism, a peptide pertaining to the LLP3 domain has been studied by infrared, fluorescence and calorimetry regarding its structure, its ability to induce membrane rupture and aggregation, as well as its affinity towards specific phospholipids. Our results demonstrate that this peptide interacts with phospholipid-containing model membranes, affects the phase-behavior of membrane phospholipids and induces leakage and aggregation of liposomes. The membrane-perturbing properties of LLP3, together with the possibility that the Kennedy sequence could be part of an external loop, open the possibility that these domains might function in modulating viral membrane fusion or budding, synergistically with other membranotropic regions of the gp41 glycoprotein.