, 2005). Under healthy conditions, the ΔΨm generated by respiration is used by
ANT1 for translocation of cytosolic ADP to the mitochondrial matrix and further generation of ATP. A slight increase in oxygen consumption when ADP was added in permeabilized cells points to a possible deregulation in the ADP/ATP translocase induced by the VCP deficiency. Further physiological and biochemical experiments will be necessary to determine the possible roles of UCPs and ANT1 in the VCP-deficient cells. VCP has been proposed to participate in the clearance of depolarized mitochondria through selective autophagy (Tanaka et al., 2010), raising the possibility that loss of VCP mutations allows the accumulation of damaged, uncoupled mitochondria Talazoparib chemical structure that would usually selleck chemicals be degraded. However, genetic mutations in other members of this pathway (PINK1 and Parkin) lead to a markedly different phenotype in patients ( Vincent et al., 2012; Yao et al., 2011) and mitochondrial uncoupling has not been reported in cells lacking either protein, suggesting a more direct role for VCP in the mitochondrial uncoupling we observe. A number of studies in different ALS models have linked mitochondrial deficiency and altered ATP levels to the pathogenesis of the disease (Ghiasi et al., 2012; Mattiazzi et al., 2002). Browne
and colleagues have suggested that the decreased ATP levels they observed in ALS transgenic mice could be due to uncoupling (Browne et al., 2006) and IBMPFD-causing VCP mutations were associated with altered ATP levels in Drosophila ( Chang et al., 2011). Here we further confirm that VCP mutations lead to reduced ATP levels in patient fibroblasts carrying three independent pathogenic mutations, and we show that this is the result of lower ATP production rather than higher ATP consumption. In VCP-deficient flies, on the
other hand, altered ATP levels were suggested to (-)-p-Bromotetramisole Oxalate be the result of higher rates of ATP consumption ( Chan et al., 2012; Chang et al., 2011). These discrepancies could reflect the different metabolism between flies and mammals and may be further explained by the use of different research methods. ATP depletion was previously shown to induce cytotoxicity, as the cells are no longer able to maintain their ionic homeostasis and flood with calcium (reviewed by Abramov and Duchen, 2010; Bolaños et al., 2009). Our data confirm that VCP-deficient fibroblasts are more vulnerable to cytotoxicity than control cells after depletion of ATP. Together, our results suggest that the pathogenic VCP mutations have a dominant-negative effect that presumably arises from a loss of function of the hexameric protein through poisoning by the mutant subunits. The ΔΨm measurement carried out in SH-SY5Y cells overexpressing VCP WT or pathogenic mutants as well as the rescue experiment in the stable VCP KD SH-SY5Y cells ( Figures 1E and 1F) strengthen this hypothesis.