HIV disease progression rates
Following infection with HIV-1, the rate of clinical disease progression varies between individuals. Factors such as host susceptibility, genetics and immune function, health care and co-infections as well as viral genetic variability may affect the rate of progression to the point of needing to take medication in order not to develop AIDS.
Rapid progressors
A small percentage of HIV-infected individuals rapidly progress to AIDS if they fail to take the medication within four years after primary HIV-infection and are termed Rapid Progressors. Indeed, some individuals have been known to progress to AIDS and death within a year after primo-infection. Rapid progression was originally thought to be continent specific, as some studies reported that disease progression is more rapid in Africa, but others have contested this view.Long term non-progressors
Another subset of individuals who are persistently infected with HIV-1, but show no signs of disease progression for over 12 years and remain asymptomatic are classified as Long Term Non-Progressors. In these individuals, it seems that HIV-infection has been halted with regard to disease progression over an extended period of time. However, the term LTNP is a misnomer as that progression towards AIDS can occur even after 15 years of stable infection. LTNP are not a homogeneous group regarding both viral load and specific immune responses against HIV-1. Some LTNPs are infected with HIV that inefficiently replicates whilst others are infected with HIV that is virally fit and replicates normally, but the infected individual has had a strong and broad set of HIV-specific humoral and cell-mediated responses that seems to delay the progression to AIDS. In some cohorts, individuals who experience signs of progression, but whose clinical and laboratory parameters remain stable over long periods of time, are classified as Long Term Survivors.Highly exposed persistently seronegative
There is another, smaller percentage of individuals who have been recently identified. These are called Highly Exposed Persistently Seronegative. This is a small group of individuals and has been observed only in a group of uninfected HIV-negative sex workers in Kenya and in The Gambia. When these individuals' PBMCs are stimulated with HIV-1 peptides, they have lymphoproliferative activity and have HIV-1 specific CD8+ CTL activity suggesting that transient infection may have occurred. This does not occur in unexposed individuals. What is interesting, is that the CTL epitope specificity differs between HEPS and HIV positive individuals, and in HEPS, the maintenance of responses appears to be dependent upon persistent exposure to HIV.Prediction of progression rates
During the initial weeks after HIV infection, qualitative differences in the cell-mediated immune response are observed that correlate with different disease progression rates. The appearance of HIV-1-specific CD8+ cytotoxic T cells early after primo-infection has been correlated with the control of HIV-1 viremia. The virus which escapes this CTL response have been found to have mutations in specific CTL epitopes. Individuals with a broad expansion of the V-beta chain of the T cell receptor of CD8+ T cells during primo-infection appear to have low levels of virus six to twelve months later, which is predictive of relatively slow disease progression. In contrast, individuals with an expansion of only a single subset of the V-beta chain of the CD8+ T cells are not able to control HIV levels over time, and thus have high viral loads six to twelve months later. LTNP’s have also been shown to have a vigorous proliferation of circulating activated HIV-1-specific CD4+ T cell and CTL response against multiple epitopes with no detectable broadly cross-reactive neutralizing antibodies in the setting of an extremely low viral load. However, a few reports have correlated the presence of antibodies against Tat in LTNP status.HIV subtype variation and effect on progression rates
The HIV-1 subtype that an individual becomes infected with can be a major factor in the rate of progression from sero-conversion to AIDS. Individuals infected with subtypes C, D and G are 8 times more likely to develop AIDS than individuals infected with subtype A. In Uganda, where subtypes A and D are most prevalent, subtype D is associated with faster disease progression compared with subtype A. Age has also been shown to be a major factor in determining survival and the rate of disease progression, with individuals over 40 years of age at sero-conversion being associated with rapid progression.Host genetic susceptibility
The Centers for Disease Control and Prevention has released findings that genes influence susceptibility to HIV infection and progression to AIDS. HIV enters cells through an interaction with both CD4 and a chemokine receptor of the 7 transmembrane family. They first reviewed the role of genes in encoding chemokine receptors and chemokines. While CCR5 has multiple variants in its coding region, the deletion of a 32-bp segment results in a nonfunctional receptor, thus preventing HIV entry; two copies of this gene provide strong protection against HIV infection, although the protection is not absolute. This allele is found in around 10% of Europeans but is rare in Africans and Asians. Multiple studies of HIV-infected persons have shown that the presence of one copy of this mutation, named CCR5-Δ32 delays progression to the condition of AIDS by about 2 years.The National Institute of Health has funded research studies to learn more about this genetic mutation. In such research, NIH has found that there exist genetic tests that can determine if a person has this mutation. Implications of a genetic test may in the future allow clinicians to change treatment for the HIV infection according to the genetic makeup of an individual, Currently there exist several at-home tests for the CCR5 mutation in individuals; however, they are not diagnostic tests.
A relatively new class of drugs for HIV treatment relies on the genetic makeup of the individual. Entry inhibitors bind to the CCR5 protein to block HIV from binding to the CD4 cell.