Several HIV-1 infected patients show bone loss and osteopenia/osteoporosis during the course of disease. The mechanisms underlying this degenerative process are largely unsettled and it has not been determined yet whether bone dysfunction is linked to HIV-1-mediated direct and/or indirect effects on osteoblasts/osteoclasts cross-talk regulation. This study investigated the effects of HIV-1(IIIb) and HIV-1(ADA) strains on osteoblasts using the osteoblast-derived cell line (HOBIT) and primary human osteoblasts as cellular models. The challenge of these cell cultures by both HIV-1 strains triggered a significant apoptosis activation unrelated to viral infection, since proviral HIV-1 DNA and supernatant HIV-1 RNA were not detected by real time PCR or b-DNA assays respectively. Under the experimental conditions, even heat-inactivated HIV-1 or cross-linked recombinant gp120 treatment of HOBIT and osteoblasts induced programmed cell death, suggesting that apoptosis is regulated by the interaction between HIV-1 gp120 and cell membrane. The analysis of cell culture supernatants showed a significant up-regulation of TNFalpha, a pleiotropic protein considered an apoptosis inducer in the osteoblast model. In fact, pretreatment of HOBIT and osteoblast cell cultures with anti-TNFalpha polyclonal antibody tackled effectively HIV-1 related induction of cell apoptosis. As a whole, these results indicate that HIV-1 may impair bone mass structure homeostasis by TNFalpha regulated osteoblast apoptosis.