AI Article Synopsis
- This study examines the differences in HIV viral quasispecies between cerebrospinal fluid (CSF) and plasma during early HIV infection using deep sequencing methods.
- Five untreated male participants were analyzed, revealing distinct drug-resistance mutations in one participant's CSF and low abundance variants in others, suggesting variability in the viral population across different body compartments.
- The findings indicate that deep sequencing can effectively assess HIV in CSF, highlighting the potential for early detection of complications related to HIV in the central nervous system, though more research is necessary to fully understand these variations.
Article Abstract
Background: Limited data exist comparing viral quasispecies between cerebrospinal fluid (CSF) and plasma compartments during primary HIV infection. Deep sequencing is a new method to examine the HIV plasma and CSF quasispecies.
Methods: In this pilot study, deep sequencing of protease (PR) and reverse transcriptase (RT) was performed in plasma and CSF from participants during primary HIV infection. Estimated mutational load was calculated by mutant variant frequency multiplied by HIV-RNA level.
Results: Paired plasma and CSF samples were studied from five antiretroviral therapy-naïve male participants with median 109 days post estimated transmission, age 32 years, CD4 cell count 580 cells/μL, HIV-RNA 5.18 log copies/mL in plasma and 3.67 log copies/mL in CSF. Plasma samples averaged 7,124 reads of PR and 2,448 reads of RT, whereas CSF samples averaged 7,082 and 2,792 reads, respectively. A distinct drug-resistance pattern with linked mutations present at significant levels (5-10%) was detected in one participant in CSF. Other low abundance variants (>0.2%) were detected in plasma and CSF of four out of five participants.
Conclusions: Deep sequencing of CSF HIV is technically possible with sufficient HIV-RNA levels. Differences between the quasispecies in the two compartments detected in one participant, which were present with a high mutational load in CSF at an estimated 3.6 months after HIV infection, suggest that early CNS compartmentalisation may be revealed by sensitive deep-sequencing methods. The presence of distinct low abundance (<1%) resistance variants in plasma and CSF of three other subjects may be significant, but further investigation is needed.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4743659 | PMC |
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