Randee Estes

HLA-class II genes modify outcome of Toxoplasma gondii infection

Associations between Human Leukocyte Antigen (HLA) (i.e. human major histocompatibility complex [MHC]) genes and susceptibility to infections and inflammatory processes have been described, but causal relationships have not been proven. We characterized effects of HLA-DQ alleles on outcome of congenital toxoplasma infection and found that among Caucasians, the DQ3 gene frequency was significantly higher in infected infants with hydrocephalus (0.783) than infected infants without hydrocephalus (0.444) or published normal controls (0.487). We then developed a novel animal model to definitively determine the effect of these HLA DQ molecules on the severity of toxoplasmosis. Human MHC-Class II transgenes reduced parasite burden and necrosis in brains of mice infected with Toxoplasma gondii. Consistent with the observed association between DQ3 and hydrocephalus in human infants, in the murine model the DQ3(DQ8; DQB1*0302) gene protected less than DQ1 (DQ6; DQB1*0601). Our findings definitively prove a cause and effect relationship between human MHC genes and resistance to infection, provide novel means to characterise human immune responses that are protective or pathogenic in infections, and are important for vaccine development.

Genetic analysis of influences on survival following Toxoplasma gondii infection

Survival of mice during the acute stage of Toxoplasma gondii infection was not influenced by the MHC Class I gene, L(d), but was influenced by the MHC Class II genes, Ia and Ie. As unexplained variability was noted in our initial studies of influence of the L(d) gene on survival, influence of the L(d) gene region on survival in the presence of a number of variables was studied. Although route of administration and dose of parasites, and age and gender of the mice markedly influenced outcome of T. gondii infection, the Class I L(d) gene did not modify survival in any of these circumstances. In separate studies, using mice with a differing genetic background, i.e. H-2(b), C57BL/10 mice, presence of Ia or Ie alone diminished survival even though presence of Ia reduced parasite burden. When neither or both the Ia and Ie genes were present together, survival was greater. In separate analyses of our studies of AxB BxA recombinant inbred mice, similar influences of MHC genes on survival and parasite burden following peroral infection were confirmed. Previously undescribed associations of novel genetic loci and survival and parasite burden also were identified. Genetic loci associated with enhanced survival included D8Mit42, D1Mit3, Iapls1-16, D8Mit14, Hoxb, Mpmv29, Pmv45, and Emv-2; genetic loci associated with reduced parasite burden included H-2, D17Mit62, D17Mit83, D17Mit21, D17Mit34, D17Mit47, D18Mit4, and Gln3-5. These studies demonstrate the importance of MHC region genes (but not L(d)) for survival, and the influence of other novel genes, and endogenous and exogenous variables on survival and parasite burden specified by host genes following T. gondii infection.

In vitro correlates of Ld-restricted resistance to toxoplasmic encephalitis and their critical dependence on parasite strain.

Resistance to murine toxoplasmic encephalitis has been precisely and definitively mapped to the Ld class I gene. Consistent with this, CD8+ T cells can adoptively transfer resistance to toxoplasmic encephalitis. However, cytotoxic CD8+ T cells, capable of killing class I-matched, infected target cells, are generated during the course of Toxoplasma gondii infection even in mice lacking the Ld gene. Ld-restricted killing could not be demonstrated, and the functional correlate of the Ld gene has therefore remained elusive. Herein, Ld-restricted killing of T. gondii-infected target cells is demonstrated for the first time. Ld-restricted killing is critically dependent on the strain of T. gondii and is observed with all the derivatives of type II strains tested, but not with a type I strain. These results have important implications for vaccine development.

Activity of Daptomycin with or without 25 Percent Ethanol Compared to Combinations of Minocycline, EDTA, and 25 Percent Ethanol against Methicillin-Resistant Staphylococcus aureus Isolates Embedded in Biofilm

ABSTRACT Central venous catheters commonly develop central line-associated bloodstream infections. In vitro antibiotic lock therapy (ALT) was simulated on 10 methicillin-resistant Staphylococcus aureus (MRSA) clinical isolates imbedded in biofilm-coated silicon disks. Five days of 4-h daily exposures to daptomycin (2.5 mg/ml) in 25% ethanol or minocycline (3 mg/ml) plus 25% ethanol and 30 mg/ml EDTA resulted in significantly greater elimination of MRSA colonization than treatment with minocycline alone.

Influence of Toxoplasma on manifestations of Moloney virus infections

Considerable evidence documents the importance of co-factors, including the immune response, in expression of oncogenicity of tumour viruses. To determine whether a common protozoal infection that can depress lymphocyte function alters manifestations of oncogenic virus infection, a mouse model of Toxoplasma infection with depressed T lymphocyte function was developed. In this model, Toxoplasma depressed blastogenic transformation to the T-cell mitogen Concanavalin A and primary antibody response to sheep red blood cells which requires T cell help. Uninfected and Toxoplasma-infected mice were then infected with Moloney leukaemia or Moloney sarcoma viruses and development of lymphoma and sarcoma were evaluated. Toxoplasma infection, which induced depression of T-cell function, decreased the incidence of Moloney sarcoma virus induced rhabdomyosarcomas but did not alter progression or regression of tumour in those mice that developed tumour. Conjoint infection with Toxoplasma and Moloney leukaemia virus did not increase incidence of lymphoma when compared with incidence of lymphoma in mice infected with Moloney leukaemia virus alone.

Short communication: Apoptosis pathways in HIV-1-infected patients before and after highly active antiretroviral therapy: relevance to immune recovery.

Investigations into apoptotic pathways, intrinsic and extrinsic, and the effects of highly active antiretroviral therapy (HAART) on T cell death via those pathways may provide insight into the mechanisms of and barriers to immune recovery. HIV-1-infected patients were enrolled into a randomized, controlled study of the immune effects of a lopinavir/ritonavir (LPV/r)-based versus an efavirenz (EFV)-based HAART regimen in antiretroviral-naive subjects with CD4(+) counts <350 cells/mm(3). Patients were randomized to receive TDF/FTC/EFZ or TDF/FTC plus LPV/r. Fourteen patients were enrolled and 10 patients completed 6 months of therapy as per the protocol. CD4(+) counts were measured before and during HAART therapy. We isolated T cell subsets to measure ex vivo apoptosis by propidium iodide staining. We also assessed caspase activation for the intrinsic and extrinsic pathways of apoptosis, as well as effector caspase activation. We also measured mitochondrial membrane potential. Cells were analyzed by flow cytometry. All patients had increased activation of caspase 8 (extrinsic pathway), caspase 9 (intrinsic pathway), effector caspases 3/7, and low mitochondrial membrane potential at baseline compared to controls. By 4 weeks, there was a decrease in activation of all caspases, but little further decrease by week 24. T cell mitochondrial membrane potential did not increase until week 12, but continued to increase until week 24. The only predictor of CD4(+) count increase was the increase in mitochondrial membrane potential of naive cells at 6 months (r=0.66, p=0.038). This suggests that positive selection of naive CD4(+) T cells in the thymus is the major determinant of CD4(+) recovery.