Human leukocyte antigens (HLA) genes have been reported to be associated with increased susceptibility to the development of specific disease or with progression to AIDS outcomes.1–3 The progression from human immunodeficiency virus (HIV) infection to AIDS has been strongly associated with HLA-A1-Cw7-B8-DR3-DQ2 and HLA-A11-Cw4-B35-DR1-DQ1 haplotypes, conferring a high risk of rapid progression to AIDS.4–7 It has been assumed that associations between progression to AIDS and particular HLA alleles reflect differential antigen presentation by classes I or II molecules exhibiting particular motifs in the peptide binding groove.8 For example, the most harmful effects of HLA-B*35 are seen with the molecules encoded by the HLA-B*35:02 and B*35:03 alleles, which have proline at anchor position 2 of their loaded peptide and a non-tyrosine residue at position 9.9 For instance, the HLA-B*35:01 molecule containing tyrosine at position 9 does not have any substantial effect on disease prognosis. While both HLA-B*35 subtypes can equally induce a cytotoxic T lymphocyte (CTL) response, viral load was cleared less effectively by non-tyrosine-containing HLA-B*35:02 and B*35:03 molecules compared with HLA-B*35:01.10 It may, therefore, be possible that altered epitope recognition by HLA-B*35:02 and B*35:03 will induce CTL that may not specifically function against HIV-1-infected cells.11

Toxoplasma gondii infection is widespread in humans, with estimated infection rates ranging from 50% to 80% of the general population in South America.12 In some areas of Southern Brazil, the prevalence of antibodies against T. gondii may be as high as 98%.13,14 Toxoplasmosis in the immunocompromised host is most probably due to reactivation of a previous latent infection and can be life-threatening.15 Encephalitis is the most important manifestation of toxoplasmosis in immunosuppressed patients as it causes severe damage and death.16 It is estimated that in countries with a high prevalence of T. gondii, toxoplasmic encephalitis is the most common cerebral lesion in HIV patients.17

Few studies reported an association between HLA markers and toxoplasmic encephalitis in AIDS patients.18–21 We have previously reported that susceptibility to toxoplasmic retinochoroiditis was associated with HLA alleles related with rapid progression to AIDS,22 and the availability of genetic markers for other AIDS severe complications may discriminate patients with poor prognosis. To further explore whether HLA markers associated with rapid progression to AIDS could also be associated with the development of toxoplasmic encephalitis, we evaluated these markers in Brazilian AIDS patients with or without toxoplasmic encephalitis.

Several reports examining the role of HLA antigens/alleles in AIDS susceptibility have been published5 and the haplotypes encompassing HLA-B35 antigens were consistently associated with rapid progression to AIDS in several populations.27HLA-B*35 alleles have been classified into two groups based on the residue at pocket 9 (P9) of the peptide binding groove. The PY group binds mainly to a tyrosine (Y) at P9, whereas the Px group has a preference for smaller hydrophobic residues such as leucine, methionine, or valine, and does not bind to tyrosine at P9.9HLA-B*35:02 and B*35:03 alleles, which code part of the Px group, have been associated with an especially poor HIV disease outcome.10 The possible mechanisms for this association remain unknown, but it has been suggested that the greater ability of the HLA-B*35:01 (PY) molecule to present HIV peptides (Gag) compared to HLA-B*35:02/35:03 molecules is a key difference affecting HIV disease outcome.28 Furthermore, HLA-B35:16 another member of the PY group, was the worst HIV-peptide binding molecule among all B35 subtypes and was associated with the highest viral load. Therefore, the detrimental effect of HLA-B35 is unlikely to be related exclusively to PY/Px groups. Other factors, such as the fine specificity of the HIV peptides presented by different B35 molecules, may play a role, affecting the nature of the CTL response.29

Few studies have focused on the evaluation of HLA antigens/alleles in toxoplasmic infection among AIDS patients. Concerning cerebral toxoplasmosis, the study conducted in Caucasian North American patients with AIDS have reported an association of the HLA-DQ3 antigen with susceptibility, and HLA-DQ1 antigen with resistance to toxoplasmic encephalitis.19,20 In the present study, we found a similar association; i.e., HLA-DQ1 conferring resistance to toxoplasmic encephalitis in Brazilian AIDS patients. Additionally, Mack et al. studying transgenic mice for DQ human genes, demonstrated that the human DQB1 gene, and to a lesser extent DQ3 gene, confers protection against T. gondii, corroborating the idea that certain DQB1 genes are associated with protection against this pathogenic protozoan.

This is the first study evaluating the frequency of HLA markers in Brazilian AIDS patients, a mixed population, presenting with cerebral toxoplasmic disease. The findings suggest that the frequency of HLA markers associated with rapid progression to AIDS, in particular the HLA-DQB1*01 allele group and HLA-B35 antigen, were less represented among toxoplasmic encephalitis AIDS patients. The frequency of T. gondii infection in Brazilian AIDS patients can be as high as 98%.13 Therefore, the presence of these HLA markers may confer resistance to the development of toxoplasmic encephalitis, which are different from those markers associated with rapid progression to AIDS.

In conclusion, AIDS patients presenting HLA-DQBl*01 allele group appear to be resistant to the development of toxoplasmic encephalitis, since the frequency of this allele was lower in AIDS patients presenting encephalitis in relation to AIDS patients presenting only the infection (anti-T. gondii antibodies). The present study suggests that HLA-DQB1 typing, better than the HLA-B, may help on decisions regarding toxoplasmosis prophylaxis. Further studies will be required to determine if genetic control of susceptibility to toxoplasmic encephalitis is similar in AIDS patients of other ethnicities.

The authors declare no conflicts of interest.