BackgroundApoptosis is one of the presumptive causes of CD4+ T cell depletion during HIV infection and progression to AIDS. However, the precise role of HIV-1 in this process remains unexplained. HIV-1 protease (PR) has been suggested as a possible factor, but a direct link between HIV-1 PR enzymatic activity and apoptosis has not been established.ResultsHere, we show that expression of active HIV-1 PR induces death in HeLa and HEK-293 cells via the mitochondrial apoptotic pathway. This conclusion is based on in vivo observations of the direct localization of HIV-1 PR in mitochondria, a key player in triggering apoptosis. Moreover, we observed an HIV-1 PR concentration-dependent decrease in mitochondrial membrane potential and the role of HIV-1 PR in activation of caspase 9, PARP cleavage and DNA fragmentation. In addition, in vitro data demonstrated that HIV-1 PR mediates cleavage of mitochondrial proteins Tom22, VDAC and ANT, leading to release of AIF and Hsp60 proteins. By using yeast two-hybrid screening, we also identified a new HIV-1 PR interaction partner, breast carcinoma-associated protein 3 (BCA3). We found that BCA3 accelerates p53 transcriptional activity on the bax promoter, thus elevating the cellular level of pro-apoptotic Bax protein.ConclusionIn summary, our results describe the involvement of HIV-1 PR in apoptosis, which is caused either by a direct effect of HIV-1 PR on mitochondrial membrane integrity or by its interaction with cellular protein BCA3.
Two new octahedral
molybdenum cluster complexes act as an efficient singlet oxygen supplier
in the context of the photodynamic therapy of cancer cells under blue-light
irradiation. These complexes integrate the {Mo6I8}4+ core with 4′-carboxybenzo-15-crown-5 or cholate
apical ligands and were characterized by 1H NMR, HR ESI-MS,
and CHN elemental analysis. Both complexes display high quantum yields
of luminescence and singlet oxygen formation in aqueous media associated
with a suitable stability against hydrolysis. They are internalized
into lysosomes of HeLa cells with no dark toxicity at pharmacologically
relevant concentrations and have a strong phototoxic effect under
blue-light irradiation, even in the presence of fetal bovine serum.
The last feature is essential for further translation to in
vivo experiments. Overall, these complexes are attractive
molecular photosensitizers toward photodynamic applications.
PCN-222/MOF-545 nanoparticles cause apoptosis of cancer cells upon visible light irradiation. The phototoxicity of the nanoparticles is deactivated after several hours, which is an attractive feature to avoid post-treatment photosensitization issues.
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