Sarewicz M, Osyczka A. reduced glutathione (GSH), which are normally depleted by menadione. In addition, AIF depletion reduced the arylation of cellular proteins induced by menadione. This menadione-triggered arylation, which can be measured by a fluorescence assay, is completely suppressed by addition of exogenous glutathione or N-acetyl cysteine. Complex I inhibition by Rotenone did not mimic the cytoprotective action of AIF depletion. Altogether, these results are compatible with the hypothesis that mitochondrion-sessile AIF facilitates lethal redox cycling of menadione, thereby precipitating protein arylation and glutathione depletion. acellular fluorometric assay [28], we confirmed that the formation of conjugates between menadione and GSH led to the appearance of a fluorescent arylation product (Figure ?(Figure6).6). Thus, fluorescence spectra analysis revealed that the addition of menadione BEC HCl to the GSH solution sufficed to generate a fluorescence that was undetectable with menadione or GSH alone (Figure ?(Figure6).6). Within the same assay, we evaluated the impact of the recombinant AIF protein on the arylating capacity of menadione. The addition of AIF resulted in the enhancement of the fluorescence signal of the menadione-GSH BEC HCl conjugate, confirming that AIF stimulated the arylating capacity of menadione (Figure ?(Figure6).6). It is worth mentioning that no fluorescence could be detected for menadione combined with AIF alone (Figure ?(Figure6).6). In conclusion, experiments in cell-free systems indicate that AIF interacts with menadione and this interaction is independent from the presence of additional proteins or the cellular context. Open in a separate window Figure 4 The loss of GSH BEC HCl levels in menadione-treated cells correlates with the expression level of AIFA., B. Effect of BEC HCl exogenous antioxidants on menadione-induced death was evaluated by incubating U2OS cells, for 3h or 6h, with 50M of menadione in the absence or presence of GSH (5 mM) or NAC (5 mM). Cell death was quantified by flow cytometric assessment (pictograms are shown in A and histograms in B) of DAPI uptake (DAPI positivity) and forward light scatter (FSC) analysis that allows the identification of apoptotic cells. C., D. A cytofluorimetric analysis combined with the use of the thiol-reactive probe monobromobimane (MBB) was set up to measure levels of reduced glutathione in cells treated with menadione (pictograms are shown BEC HCl in C and histograms D). After menadione treatment, in absence or presence of exogenous antioxidants (GSH or NAC), live cells (Topro3 negative), exhibiting size and granularity parameters similar to control untreated cells (gate P1), were analyzed for their staining with SA-2 MBB (gate P2). Cell width assessment by forward light scatter (FSC) analysis was used to discriminate between singlet cells and aggregates. For each treatment condition, the percentage of cells stained with MBB (gate P2) was quantified (D). E. The effect of AIF knockdown on the levels of GSH was monitored, as described in (C and D), after transfection with two distinct control siRNAs (Co.1 and Co.2) or two distinct, non-overlapping siRNAs targeting AIF (siRNA AIF.1 and AIF.2) and culture with 50 M of menadione for 3h. Data are expressed as mean values SD. Open in a separate window Figure 5 The metabolization of fluorescent menadione-cysteinyl group conjugates correlates with AIF expression levelsA. Microscopic analysis of U2OS cells revealed that, compared to control conditions (cells treated with the solvent), the incubation with 50 M menadione for 3 h provoked the appearance of a diffuse cellular fluorescence that resisted to the fixation/permeabilization protocol. The mitochondrial localization of AIF, both in control and menadione-treated cells, was revealed by indirect immunofluorescence, using an anti-AIF rabbit polyclonal antibody and an Alexafluor 647-conjugated secondary anti-rabbit antibody (AIF red staining). Individual and merged images show that in menadione-treated cells, AIF is not released from the mitochondrion and the diffuse distribution of menadione-induced autofluorescence is maximal in the nuclear compartment. B. Emission spectra and intensity analyses of the fluorescence produced in menadione-treated cells were evaluated by microscopy. The insert corresponds to the menadione-treated cell that was imaged by fluorescence microscopy (Zeiss) and squares on the image correspond to distinct regions of interest (ROI1 to to ROI3) that were evaluated for fluorescence spectra. C. D. The formation of fluorescent menadione-cysteinyl group conjugates (green fluorescence, GF) was monitored by flow cytometric analysis of U2OS cells incubated for 3h.