SUMMARY
Infection of macaques with chimeric viruses based on SIVMAC but
expressing the HIV-1 envelope (Env) glycoproteins (SHIVs) remains the most powerful model
for evaluating prevention and therapeutic strategies against AIDS. Unfortunately, only a
few SHIVs are currently available. Furthermore, their generation has required extensive
adaptation of the HIV-1 Env sequences in macaques so they may not accurately represent
HIV-1 Env proteins circulating in humans, potentially limiting their translational
utility. We developed a strategy for generating large numbers of SHIV constructs
expressing Env proteins from newly transmitted HIV-1 strains. By inoculating macaques with
cocktails of multiple SHIV variants, we selected SHIVs that can replicate and cause
AIDS-like disease in immunologically intact rhesus macaques without requiring
animal-to-animal passage. One of these SHIVs could be transmitted mucosally. We
demonstrate the utility of the SHIVs generated by this method for evaluating neutralizing
antibody administration as a protection against mucosal SHIV challenge.
ObjectiveTo evaluate minority variant drug resistance mutations detected by the oligonucleotide ligation assay (OLA) but not consensus sequencing among subjects with primary HIV-1 infection.Design/MethodsObservational, longitudinal cohort study. Consensus sequencing and OLA were performed on the first available specimens from 99 subjects enrolled after 1996. Survival analyses, adjusted for HIV-1 RNA levels at the start of antiretroviral (ARV) therapy, evaluated the time to virologic suppression (HIV-1 RNA<50 copies/mL) among subjects with minority variants conferring intermediate or high-level resistance.ResultsConsensus sequencing and OLA detected resistance mutations in 5% and 27% of subjects, respectively, in specimens obtained a median of 30 days after infection. Median time to virologic suppression was 110 (IQR 62–147) days for 63 treated subjects without detectable mutations, 84 (IQR 56–109) days for ten subjects with minority variant mutations treated with ≥3 active ARVs, and 104 (IQR 60–162) days for nine subjects with minority variant mutations treated with <3 active ARVs (p = .9). Compared to subjects without mutations, time to virologic suppression was similar for subjects with minority variant mutations treated with ≥3 active ARVs (aHR 1.2, 95% CI 0.6–2.4, p = .6) and subjects with minority variant mutations treated with <3 active ARVs (aHR 1.0, 95% CI 0.4–2.4, p = .9). Two subjects with drug resistance and two subjects without detectable resistance experienced virologic failure.ConclusionsConsensus sequencing significantly underestimated the prevalence of drug resistance mutations in ARV-naïve subjects with primary HIV-1 infection. Minority variants were not associated with impaired ARV response, possibly due to the small sample size. It is also possible that, with highly-potent ARVs, minority variant mutations may be relevant only at certain critical codons.
A phase I/II clinical trial has been performed in 12 amyotrophic lateral sclerosis (ALS) patients to evaluate the safety and tolerability of intrathecal implants of encapsulated genetically engineered baby hamster kidney (BHK) cells releasing human ciliary neurotrophic factor (CNTF). These patients have been assessed for a possible intrathecal or systemic immune response against the implanted xenogeneic cells. Hundreds of pg CNTF/ml could be detected for several weeks in the cerebrospinal fluid (CSF) of 9 out of 12 patients, in 2 patients up to 20 weeks after capsule implantation. Slightly elevated leukocyte counts were observed in 6 patients. Clear evidence for a delayed humoral immune response was found in the CSF of only 3 patients out of 12 (patients #4, #6, and #10). Characterization of the antigen(s) recognized by the antibodies present in these CSF samples allowed to identify bovine fetuin as the main antigenic component. The defined medium used for maintaining the capsules in vitro before implantation contains bovine fetuin. Fetuin may therefore still be adsorbed to the surface of the cells and/or the polymer membrane, or be present in the medium surrounding the encapsulated cells at the time of implantation. Because of the insufficient availability of CSF samples, as well as the relatively poor sensitivity of the assays used, a weak humoral immune response against components of the implanted cells themselves cannot be excluded. However, the present study demonstrates that encapsulated xenogeneic cells implanted intrathecally can survive for up to 20 weeks in the absence of immunosuppression and that neither CNTF nor the presence of antibodies against bovine fetuin elicit any adverse side effects in the implanted patients.
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