HIV-1 has developed several strategies to evade natural killer (NK)-cell antiviral functions. One of these mechanisms is the HIV-1-induced expansion of highly dysfunctional NK-cell subsets. Here, we analyze a large cohort of HIV-1-infected patients in early or chronic phases of infection, both cross-sectionally and longitudinally. We demonstrate that a striking decrease in the surface expression of sialic acid-binding immunoglobulin-like lectin 7 (Siglec-7) represents the earliest marker of the aberrant NK-cell dysregulation, which precedes the down-modulation of CD56 mostly occurring in patients with chronic HIV-1 viremia. The combined detection of Siglec-7 and CD56 allows the identification of 2 new pathologic NK-cell subsets expanded preferentially in early (Siglec-7-/CD56+) or chronic (Siglec-7-/CD56-) stages of HIV-1 infection. Remarkably, these phenotypic abnormalities were directly associated with progressive and distinct impairments of NK-cell functions. The aforementioned NK-cell aberrancies could be observed only in the presence of high levels of viral replication and not in patients with low or undetectable HIV-1 viremia, such as long-term nonprogressors or patients having undergone antiretroviral therapy. High frequencies of Siglec-7-/CD56+ and Siglec-7-/CD56- pathologic NK cells reflect the immune and clinical status of HIV-1 infection and can also track the effectiveness of therapy.