Highly active antiretroviral therapy (HAART) induces a substantial control of HIV viral replication, but it allows for only a partial immune reconstitution, thus prompting the rationale for the adjuvant use of immunomodulants. Based on its in vitro action as a major T cell growth factor, interleukin (IL)-2 has now been extensively investigated for its potential to correct the HIV-driven immune deficiencies, possibly translating into immunological control over HIV infection. Specific immunological end points have thus far been addressed within extensive Phase I/II trials, disclosing a broad insight into several aspects of the IL-2-mediated immune reconstitution allowing for interesting clinical speculation. Indeed, preliminary results indicate that adjuvant IL-2 induces a significant CD4 cell rescue in patients with no immune recovery following long-term HAART, thus standing as a valid and safe therapeutic option for these patients. Furthermore, in these patients, the IL-2-mediated immune reconstitution is characterized by a rise in both peripheral turnover and de novo T cell synthesis, with reversion of the skewed HIV-driven immunophenotypic pattern, a substantial increase in IL-7 production and in several markers of immune function. Combined, these findings indicate IL-2 has a beneficial effect in correcting the severe disruption in T cell homeostasis induced by HIV, through the interaction with T cells and cytokine microenvironment. However, whether or not these immunological effects translate into an actual immunological competency and therefore clinical benefit, still awaits demonstration from ongoing large, controlled clinical studies.