AI Article Synopsis
- Researchers used a CD4(+) T cell model called HRF(+) to investigate how certain soluble molecules create anti-HIV-1 responses.
- They discovered that these soluble products activated the CTCF gene in CD4(+) T cells, leading to temporary resistance against HIV-1.
- CTCF protein binds to the HIV-1 promoter, blocking key interactions that normally help the virus thrive, indicating that CTCF plays a crucial role in the cells' resistance to HIV-1.
Article Abstract
We have employed our CD4(+) T cell model named HIV-1 resistance factor (HRF(+)) to study the inducible anti-HIV-1 responses mediated through novel soluble molecules. We found that exposure to the soluble products of HRF(+) cells activated CCCTC-binding factor (CTCF) mRNA expression in HIV-1 susceptible primary and transformed CD4(+) T cells and overlapped with their acquisition of transient resistance to virus. Conversely, the interference with the expression of CTCF gene in HRF(+) cells reversed the resistant phenotype and eliminated the biological potential of their cell culture supernatant to induce "HRF-like" activity in target cells. Band-shift analysis upon the nuclear fractions from HIV-1 resistant cells showed that CTCF protein bound to HIV-1 promoter and this binding prevented the formation of NF-kappaB/LTR complex. This evidence suggests that CTCF is an intracellular effector of HRF activity and that the acquisition of resistance to HIV-1 in CD4(+) T cells is a consequence of the prior activation of CTCF gene by the soluble entity secreted by HRF(+) cells.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2346778 | PMC |
| http://dx.doi.org/10.1016/j.imlet.2007.11.017 | DOI Listing |
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