Lipid hidroperoxides as singlet molecular oxygen precursors (O2 [1Δg]), detection and damage to biomolecules

The study of the process of lipid peroxidation has increased in recent years, mainly due to the involvement of lipid hydroperoxide (LOOH) in a series of pathological processes. The decomposition of LOOH is able to generate products that can promote damage to biomolecules, including proteins and DNA. In the present work, using linoleic acid hydroperoxide isotopically labeled with 18O2 (LA18O18OH), we demonstrate that these molecules were able to generate labeled singlet oxygen [18(1O2)] in cultured cells. The detection of such species was possible using a new methodology using an anthracene derivative .For this purpose we used the anthracene derivative of 3,3\'-(9,10-antracendiil) bisacrilate (DADB), whose specific reaction product with 1O2 (DADB endoperoxide DADBO2) can be easily detected by HPLC-MS/MS. In order to expand the understanding of the toxic effects of LOOH, we investigated the effect of these compounds generated intracellularly. For this porpoise, we used Rose Bengal (RB), a photosensitizer that has affinity for apolar spaces such as membranes and lysosomes. The photosensitization of this compound was able to induce cell death, and this death was related to increased formation of 1O2 and a higher accumulation of peroxides. In these studies we have shown that carotenoids and glutathione-dependent antioxidant systems were capable of protecting against the toxic effects of photosensitization in the presence of RB. Additionally, we evaluated the effects of hemoglobin (Hb) and linoleic acid hydroperoxide (LAOOH) in a series of toxicological endpoints such as cytotoxicity, redox status, lipid peroxidation and DNA damage. We demonstrated that preincubation of cells with Hb and its subsequent exposure to LAOOH (Hb + LAOOH) led to an increase in cell death, DCFH oxidation, formation of malonaldehyde and DNA fragmentation, and that these effects were related to the peroxide and the heme group. It was demonstrated that cells incubated with LAOOH and Hb showed a higher level of the DNA lesions, 8-oxo-7,8-dihydro-2\'deoxyguanosine and 1,N2-etheno-2\'-deoxyguanosine. Furthermore, incubations with Hb led to an increase in intracellular iron levels, and this high level of iron correlates with the oxidation of DNA, measured as EndoIII and Fpg-sensitive sites. Our results show that the LOOHs showed cytotoxic and genotoxic, even at very low concentrations and may contribute to the onset of chronic malignancies like cancer, cardiovascular and neurodegenerative diseases. (AU)