Pseudoxanthoma elasticum (PXE), an inherited condition with skin, eye and cardiovascular manifestations resulting from dystrophic calcification, is caused by a defect in the ATP-binding cassette, subfamily C, member 6 protein (ABCC6) 1 . ABCC6 and the murine ortholog Abcc6, which have been repeatedly located to the plasma membrane of the liver and proximal tubule kidney cells, are virtually absent in affected tissues in PXE and in related murine conditions 1 2 3 . These findings are of major pathophysiological significance since they indicate that ABCC6 mediates remote calcification via the circulation and that PXE is a systemic condition 4 . However, a recent article in Circulation Research claiming that ABCC6 localizes to the mitochondria-associated membrane (MAM) 5 has given rise to some debate 6 7 . MAMs have been defined as the contact sites between mitochondria and the ER with no involvement of any direct membrane fusion 8 . In their article, the authors describe various structural mitochondrial changes in Abcc6−/− kidney and heart cells, though not in liver cells, as well as changes in the endoplasmic reticulum (ER) bordering mitochondria and decreased reserve respiration capacity in liver cells. Taken together, these findings may suggest dysfunction in mitochondria rather than in MAM. We therefore set out to test the possibility of ABCC6 being localized to mitochondria, using the computational and integrative approaches that are now references in the field.

As emphasized by Martin et al. 5 , the determination of the subcellular location of ABCC6 is critical in deciphering the exact role of the transporter in physiology, in general, and in the pathophysiology of PXE, in particular, when ABCC6 is absent or defective. Biochemical and immunological approaches have led to the description of ABCC6 as a cytoplasmic membrane protein. Our computational and integrative results show that there is no support in favor of the localization of ABCC6 either in mitochondria or in the ER membrane.

We hypothesize that the MAM localization of ABCC6 may be transitory. It would be interesting to study the vesicular traffic through the sites of contact between mitochondria and the ER, especially as it has been recently shown that the plasma membrane contributes in part to the lipid bilayers of the autophagosome, creating a possible pathway requiring the close contact between ABCC6 and mitochondria during mitophagy 25 .

ER: Endoplasmic reticulum; MAM: Mitochondria-associated membrane; PXE: Pseudoxanthoma elasticum.

The authors state no conflict of interest.

MF, PR, & LM initiated the study. MF conducted the experiments. MF & AC drafted the article. MF wrote the final manuscript. AC, PR, DPM, GL, DH, DB, VP, & LM provided critical revision. All authors read and approved the final manuscript.

MF obtained his Ph. D. (2009) with the bioinformatics analysis of the mitochondrial proteome.

MF, AC, PR, DPM, DB, & VP belong to Mitolab (http://mitolab.eu), a French academic team of the CNRS 6214/INSERM 1083 research unit specialized in disorders involving mitochondrial dynamics and bioenergetics. The Department of Integrated Neurovascular and Mitochondrial Biology (CNRS 6214/INSERM 1083) is headed by DH.

PR, DB, & VP are members of the French Reference Centre for Mitochondrial Diseases in children and adults.

GL & LM are members of the PXE Consultation Center of the University Hospital of Angers, France.