Loss of Function of Cytochrome c in Jurkat Cells Undergoing Fas-mediated Apoptosis

Abstract: Mitochondrial function was examined in Jurkat cells undergoing Fas-mediated apoptosis. With succinate or ascorbate/tetramethylphenylenediamine as substrate, oxygen uptake by digitonin-permeabilized apoptotic mitochondria was greatly decreased as compared with control. Assessment of the function of the cytochrome c-cytochrome oxidase segment of the electron transport chain of apoptotic mitochondria showed that the activity of cytochrome oxidase appeared to be normal, but that of cytochrome c was greatly diminis… Show more

“…Ferrous and ferric ions have been shown to be essential to the production of oxygen radicals through propagation of the Fenton reaction (Korsmeyer, 1995;Freeman and Crapo, 1982) and inhibition of TNF-mediated cell death by a variety of antioxidants supports a role for oxidation in TNF signal transduction (Goossens et al, 1995;Zimmerman et al, 1989;Chang et al, 1992). Cytochrome c, an iron-porphyrin containing protein, is released from the mitochondria of cells committed to undergo apoptosis, providing indirect evidence of a role for coordinated iron in the apoptotic signal (Krippner et al, 1996). In our membrane phosphorylation studies, TNF mediated changes in EGFr dephosphorylation were only minimally detectable in the absence of iron but were signi®cantly enhanced in its presence while other divalent cations or metals (Ni 2+ , Ca 2+ ) were ineffective as cofactors (data not shown).…”

Differential expression and translocation of protein tyrosine phosphatase 1B-related proteins in ME-180 tumor cells expressing apoptotic sensitivity and resistance to tumor necrosis factor: potential interaction with epidermal growth factor receptor

“…Ferrous and ferric ions have been shown to be essential to the production of oxygen radicals through propagation of the Fenton reaction (Korsmeyer, 1995;Freeman and Crapo, 1982) and inhibition of TNF-mediated cell death by a variety of antioxidants supports a role for oxidation in TNF signal transduction (Goossens et al, 1995;Zimmerman et al, 1989;Chang et al, 1992). Cytochrome c, an iron-porphyrin containing protein, is released from the mitochondria of cells committed to undergo apoptosis, providing indirect evidence of a role for coordinated iron in the apoptotic signal (Krippner et al, 1996). In our membrane phosphorylation studies, TNF mediated changes in EGFr dephosphorylation were only minimally detectable in the absence of iron but were signi®cantly enhanced in its presence while other divalent cations or metals (Ni 2+ , Ca 2+ ) were ineffective as cofactors (data not shown).…”

Differential expression and translocation of protein tyrosine phosphatase 1B-related proteins in ME-180 tumor cells expressing apoptotic sensitivity and resistance to tumor necrosis factor: potential interaction with epidermal growth factor receptor

“…20 ± 22,24,25 This is associated with collapse of the Dc m , which can be measured by a reduced mitochondrial accumulation of the fluorescent dye DiOC 6 (3). 41,42 After 2 h of exposure to okadaic acid, a significant decrease in the retention of DiOC 6 (3) was observed (P50.05), and the decline continued until 8 h Figure 3 UDCA inhibits DCA-induced release of cytochrome c in isolated mitochondria after MPT. Mitochondria were isolated and incubated (1 mg/ml) with either no addition (control), 250 mM DCA, 500 mM UDCA, DCA+UDCA, 5 mM cyclosporine A (CsA), DCA+CsA, 500 mM tauroursodeoxycholic acid (TUDCA), DCA+TUDCA, 500 mM glycoursodeoxycholic acid (GUDCA), DCA+GUDCA, 500 mM hyodeoxycholic acid (HDCA), DCA+HDCA, 500 mM taurocholic acid (TCA), or DCA+TCA in respiration buffer as described in Materials and Methods.…”

Ursodeoxycholic acid prevents cytochrome c release in apoptosis by inhibiting mitochondrial membrane depolarization and channel formation

“…70 The release of cytochrome c into the cytosol is induced by a variety of proapoptotic conditions. Since relocalization of cytochrome c is observed during TNF-R1 and CD95-mediated apoptosis, 71 the Apaf-1-controlled pathway may also be functional in apoptotic pathways triggered by death receptors. This process presumably involves a Bid-dependent pathway leading to a conformational change in the pro-apoptotic mitochondrial activator Bax.…”

The kiss of death: promises and failures of death receptors and ligands in cancer therapy