Autophagy has been implicated in a variety of important physiopat

Autophagy has been implicated in a variety of important physiopathological processes, such as neurodegeneration, cancer, viral infections, inflammatory disorders, and liver disease.26 The mitochondrion is one of the organelles that can become targets for autophagic degradation in a process known as mitophagy, which

is specifically induced by nutrient deprivation, reduced ATP generation, mitochondrial membrane depolarization, triggering of the mitochondria permeability transition (MPT), and oxidative stress.27 In fact, compelling evidence has emerged indicating that the removal of mitochondria is a highly regulated and organelle-specific process, and mitophagic signaling has only very recently come to light.15 To our knowledge, the present study is the first to address the relationship between NNRTI-induced toxicity and induction of autophagy. We have documented the induction of autophagy and, in find more particular, mitophagy in hepatic cells treated with EFV, the most commonly used NNRTI. Nevirapine, the other NNRTI, was not evaluated, as previous studies in this model have shown that it lacks a direct mitochondrial

effect.14 Autophagy was assessed using several approaches. We employed TEM to study mitochondrial morphology and to detect the presence of autophagic vacuoles, as this continues to be the most sensitive and widely employed technique for these purposes.23 We also studied LC3-II, the only protein known to be specifically localized to autophagic structures throughout the entire autophagic process, from the phagophore to the lysosomal degradation.28 Nevertheless, it is important selleck products to point out that increases in LC3-II levels have been associated not only with an enhanced autophagosome synthesis but also with a reduced autophagosome turnover. This is relevant to our results because, whereas moderate EFV concentrations (10 and 25 μM) triggered

a normal autophagic flux, the highest concentration (50 μM), which produced severe mitochondrial damage, was associated with a delayed or an inhibited autophagic flux. Such an effect may be due to a reduced fusion between compartments and/or impaired lysosomal proteolysis. Interestingly, this may also explain the increased mitochondrial mass we observed in cells treated with the same concentration Reverse transcriptase of EFV, because an impaired mitochondrial clearance can result in an apparently enhanced mass of these organelles. In connection with this, it is relevant to stress that this increase in the mitochondrial mass occurs in the absence of true mitochondrial biogenesis, as shown by the lack of changes in the mtDNA/nDNA ratio in EFV-treated Hep3B cells.13 Autophagy is related to cell death, but this relationship is still not well understood. Stress or injury signals can activate both autophagy and cell death pathways in which the role of the former can vary depending on the context.

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