Correction: IBMPFD Disease-Causing Mutant VCP/p97 Proteins Are Targets of Autophagic-Lysosomal Degradation

[This corrects the article DOI: 10.1371/journal.pone.0164864.].


Introduction
Inclusion body myopathy with early-onset Paget's disease and frontotemporal dementia (IBMPFD) is a rare hereditary disorder with multisystem involvement.The disease has an autosomal dominant inheritance, yet it shows adult-onset (Age 20 to 40 years).Myopathy observed in IBMPFD patients may result in disabling muscle weakness, which might eventually be life-threatening due to cardiac and respiratory muscle involvement.Paget's disease is the cause of bone pain and fractures in the hips, the spine, the skull and in the long bones of arms and legs.In 30% of patients, brain involvement might be manifested as frontotemporal dementia, leading to learning and memory deficits, speech problems, personality changes and defects in social skills.Currently, there is no cure for IBMPFD.The only treatment modality that can be offered to patients is palliative, aiming to alleviate disease symptoms.
The IBMPFD disease locus was mapped to the chromosome 9p21.1-p12and the disease was associated with mutations of the VCP/p97 gene.Among disease-causing mutations, arginine 155 (R155) mutation was reported to be the most common one [1][2][3].Patients carrying R155C mutations as well as those with R191Q mutations manifested all above-mentioned symptoms of the IBMPFD disease [4][5][6][7].On the other hand, P137L was observed in a Finnish family and the disease affected nine members during 3 generations.In addition to distal leg muscle weakness and atrophy in the anterior compartment muscles, rapidly progressive demetia was observed in this family [8].
VCP/p97 is an essential protein that was conserved from archaea to man (Ter94 in D. melanogaster and CDC48 in S. cerevisiae).The protein is a member of the ATPase associated with various cellular activities (AAA) protein family, and it is one of the most abundant cytosolic proteins.Biological processes involving VCP/p97 include, endoplasmic reticulum-associated degradation (ERAD) pathway, nuclear envelope reconstruction, post mitotic Golgi reassembly and apoptosis [1,5,9,10].
Autophagy is an evolutionarily conserved catabolic process that is responsible for the degradation of cytosolic components, including damaged organelles, protein clumps and aggregates which cannot be degraded by the UPS [23,24].Indeed, protein aggregates were observed in various tissues, including brain, bone and muscle of autophagy-defective mice [14,25].Proteins and organelles targeted for autophagic destruction are sequestered in double-membrane vesicles called "autophagosomes", that in turn fuse with lysosomes to give rise to "autolysosomes".Lysosomal enzymes, e.g.proteases or lipases, degrade autophagy cargos into their building blocks (e.g.proteins to amino acids) within the acidic environment of autolysosomes.Building blocks are then transported back to cytosol for reuse by the cell, allowing recycling of cellular material.
Around 30 autophagy proteins (ATG proteins) are involved in autophagic vesicle formation and maturation.Autophagic membrane elongation and vesicle completion requires ATG8/ MAP1LC3 (shortly LC3) proteins.LC3 processing at the C-terminus by ATG4 creates the free cytosolic LC3-I form of the protein.Upon activation of autophagy pathways, two ubiquitylation-like mechanisms catalyze conjugation of LC3-I to a lipid molecule, a phosphatidylethanolamine (PE), and form the autophagic membrane-associated LC3-II form [26,27]. Lipidation of LC3 result in a change in its molecular weight from 18 kDa (LC3-I) to16 kDa (LC3-II), and detection of a shift in SDS-PAGE gels is one of the most commonly used tests of autophagy detection.A green fluorescent protein-fused form of LC3 (GFP-LC3) is also widely used to detect autophagy.In this test, recruitment of cytoplasmic diffuse GFP-LC3 protein to autophagosomes results in the formation of GFP-LC3-labeled punctuate structures, allowing quantification of autophagy using fluorescence microscopy [26].Mitophagy is a special type of autophagy during which old/damaged mitochondria are first ubiquitylated by E3-ligases such as PARK2 (Parkin), and then degraded by the autophagy machinery.Several recent studies point out to the involvement of VCP/p97 in mitophagy [28,29].
In this study, we identified VCP/p97 P137L mutant proteins as autophagy targets.We confirmed that mere expression of the VCP/p97 P137L mutant was sufficient to induce autophagy under basal fed conditions.In contrast with previous reports using commonly studied mutants (R155 or A232), P137L mutant did not cause an autophagosome maturation defect, and it did not prominently influence autophagic vesicle fusion with lysosomes.Strikingly, autophagy activation by starvation led to a lysosomal activity-dependent preferential degradation of the P137L mutant while sparing the wild-type VCP/p97 protein.Autophagy inducer and mTOR inhibitor Torin-1 showed similar effects.P137L mutant was not an isolated case: We demonstrated that another IBMPFD disease-related mutant, the G157R mutant formed aggregates, induced productive autophagy and it was cleared by autophagic degradation.Our results showed that, in contrast with the current litterature, some VCP/p97mutants are targets of autophagic degradation.Additionally they underline the fact that, even though they all lead to the same disease, different IBMPFD-related VCP/p97 mutations may have different functional outcomes at a molecular and cellular level.

GFP-LC3 and RFP-GFP-LC3 autophagy analyses
Cytoplasmic puncta formation by otherwise soluble GFP-fused LC3 protein is used as a method to quantify autophagy activation under a fluorescence microscope [26].Briefly, cells were cultured on top of poly-L-Lys coated coverslides.48 hours after transfection, cells were fixed with ice-cold 4% PFA in PBS for 30 min.GFP-LC3 dot analysis was performed.
Coverslides were analyzed under fluorescence microscope (Olympus BX60, Japan) under 60x magnification.Minimum 150 cells per condition were analyzed.Cells containing more than 15 dots were considered as autophagy positive.Percentage of GFP-LC3 positivity was expressed as a percentage of GFP-LC3 dot positive cells within the total transfected cell population.
RFP-GFP-LC3 dot numbers were determined under a fluorescence microscope (Olympus BX60, Japan) using 60x magnification.Dot numbers were analyzed in 50 cells for each experimental point.Autophagosomes gave both RFP and GFP signals, while autolysosomes were defined as RFP positive dots.Number of autolysosomes was calculated by subtracting GFP positive dot numbers from RFP positive dot numbers.

Cell Fractionation
To separate cell lysate into soluble and insoluble fractions, cells were lysed in Triton X-100 lysis buffer on ice for 30 min, then centrifuged at 14,000 rpm for 10 min.The resulting pellet was lysed in the SDS lysis buffer as the insoluble fraction.The supernatant was used as the soluble fraction.

Statistical analyses
Statistical analyses were performed using Student's two tailed t-test.Data were represented as means of ±S.D. of 3 independent experiments.Values with p< 0.05 were considered as significant.

Results
Various mutants of VCP/p97 were associated with the IBMPFD disease.Majority of reported mutations were shown to affect the N-terminal cofactor-binding domain of the VCP/p97 protein, but other mutations involving ATPase domains and linker regions were observed as well (Fig 1A).We screened the effect of expression of a number of IBMPFD-causing mutants of VCP/p97 on autophagy, and discovered that most mutants stimulated autophagy-associated LC3-II formation.Among them, P137L mutant VCP/p97 was one of the strongest inducers of autophagy in our analyses.In contrast with R155, A232 and R191 mutants of VCP/p97, the P137 mutant was shown to be defective in binding co-factors Npl4, Ufd1 and p47, components necessary for proper functioning of the protein in pathways including ERAD [17].
Indeed, expression of the P137L mutant protein resulted in a prominent LC3 shift and autophagy-associated LC3-II formation compared to wild-type (WT) VCP/p97 (Fig 1B).To further validate these results, GFP-LC3 dot formation was used as another autophagy test.
Overexpression of P137L mutant protein led to a strong and significant increase in autophagic GFP-LC3 dot formation in cells expressing P137 mutant VCP/p97 compared to controls (Fig 1C and 1D).All these results showed that the P137L mutant is a potent activator of autophagy.
Commonly studied IBMPFD-related mutants of VCP/p97 R155C, R155H and A232E, were shown to interfere with autophagic vesicle maturation and lysosomal fusion, leading to the accumulation of autophagic vesicles and to the perturbation of the autophagic flux [21,22].To study a possible effect of the P137L mutant on autophagosome-autolysosome fusion, we used RFP-GFP-LC3 fusion protein as a marker.Here, GFP and RFP both mark autophagosomes.But following fusion with lysosomes, the GFP part is quenched in the acidic environment, while the RFP still emits fluorescence, marking the autolysosomal compartment.Using this method, autophagosome-autolysosome numbers can readily be calculated [7].RFP-GFP-LC3 analyses showed that both autophagosome (green) and autolysosome (red minus green) numbers were increased upon P137L mutant overexpression in HEK293T cells (Fig 2A).The increase in autophagosome and most strikingly autolysosome numbers were significantly higher in cells overexpressing the P137L mutant, compared to negative control and WT VCP/ p97 (Fig 2B).Of note, while both proteins were expressed in comparable amounts, the increase in autolysosome numbers was almost double in P137L mutant expressing cells compared to cells with the WT VCP/p97 (Fig 2B).Moreover, autophagic LC3-II levels were markedly increased in P137L expressing cells upon inhibition of lysosomal proteases using E64d and Pepstatin A. During autophagy, LC3-II itself is delivered to autolysosomes and it is normally degraded in this compartment through the action of lysosomal hydrolases.Therefore, accumulation of LC3-II upon lysosomal protease inhibition indicated that autophagosome maturation and autolysosomal activity were intact (Fig 2C).Similar results were also obtained in U2OS (Fig 3A and 3B) and PC-12 cells (Fig 3C and 3D).Suprisingly, R155C mutant did also induce a significant amount of autolysosome formation in the U2OS cell line.Moreover, following treatment of the same cell types with chloroquine (a lysosomotropic agent that prevents lysosomal acidification and autophagosome-lysosome fusion), mutant proteins led to further accumulation of autophagosomes, indicating that the dominant effect of mutant proteins indeed was stimulation of autophagy rather than blockage of autophagosome-lysosome fusion (S1A-S1D Fig) .These results showed that, the P137L mutant did not have a prominent effect on autophagosome maturation and autolysosome formation in HEK293T cells, and more importantly in IBMPFD disease-relevant U2OS bone-derived cells and PC-12 neuronal cells.
While analyzing intracellular localization of VCP/p97 mutants, we realized that, in contrast with the WT VCP/p97 and commonly tested R155C mutant showing a rather diffuse cytoplasmic pattern, the P137L mutant was localized to punctate structures in the cytosol (S2A Fig and see the reference [17]).This punctuate pattern of the P137L mutant was also observed in primary myoblast cells in culture (S2B Fig) .Additionally, while the WT VCP/p97 protein was mostly found in the soluble fraction of cells, a major fraction of the P137L mutant protein was insoluble in HEK293T (S2C  .Importantly, upon induction of autophagy by starvation, the overlap between LC3 and P137L mutant puncta significantly increased in all tested cell types (Fig 4B , 4C, 4E, 4F, 4H and 4I).In these studies, WT VCP/p97 was used as a control and showed minimal colocalization with the autophagy marker LC3 (Fig 4A -4I).
Results obtained so far showed that P137L mutant VCP/p97 could be a target of autophagic degradation.To test this hypothesis, we overexpressed WT VCP/p97 or the P137L mutant in cells, and analyzed the effect of autophagy activation on VCP/p97 protein levels.Upon minutes of starvation, the amount of P137L mutant protein gradually decreased in HEK293T cell extracts, but WT VCP/p97 protein levels remained relatively stable (Fig 6A).To further confirm that autophagic protein degradation was responsible for the observed decrease in P137 protein levels, we performed starvation experiments in the absence or presence of lysosomal inhibitors.Addition of lysosomal protease inhibitors E64d/PepstatinA reversed the effect of starvation on P137L protein levels, and resulted in its accumulation, while WT VCP/p97 levels were relatively stable (Fig 6B).Another lysosomal inhibitor chloroquine, gave similar results confirming that P137L degradation was dependent on lysosomal activity (Fig 6C ).A decrease in P137L mutant protein levels upon starvation, and a lysosome-inhibition-dependent accumulation of the mutant protein were also observed in U2OS cells (Fig 6D).
To test whether VCP/p97 mutants R155C and R191Q were degraded by autophagy, mutant proteins were overexpressed in cells, and starvation assays were performed in the presence or absence of the lysosomal inhibitor chloroquine.Different from the P137L mutant, VCP/p97 mutants R155C and R191Q were not degraded upon autophagy activation by starvation, and consequently, inhibition of the autolysosomal activity by chloroquine did not result in their accumulation in either HEK293T ( In addition to starvation, various agents and chemicals were shown to induce autophagy.Torin-1 is a specific inhibitor of the mTOR kinase and a classical inducer of autophagy.Therefore, we tested the effect of autophagy-induction by this compound on P137L mutant protein levels.As shown in Fig 6G, Torin-1 was able to stimulate LC3-II formation and activate autophagy under our experimental conditions.In line with starvation assays, following Torin-1 treatment, P137L mutant protein levels were decreased upon autophagy activation, while WT VCP/p97 levels and R155C mutant levels remained constant (Fig 6H).Moreover, inhibition of the lysosomal activity in Torin-1-stimulated cells by chloroquine, blocked P137L mutant protein degradation and led to its accumulation.
To exclude the possibility that P137L mutant VCP/p97 is a short-lived protein that is prone to degradation in cells following expression, we treated cells with cycloheximide, a protein synthesis inhibitor, and compared WT and P137L mutant VCP/p97 protein levels, and observed no obvious difference in stability (S3 Fig) .Therefore, P137L mutant protein was a target of autophagy and autolysosomal degradation, while WT VCP/p97 or other relatively soluble mutants of VCP/p97 were not.
VCP/p97 proteins work as homo-hexamers.We wondered whether P137L mutant VCP/p97 could still interact with its WT counterpart and lead to the perturbation of its function.To address this question, we co-expressed wild-type and mutant VCP with different tags (GFPtagged WT VCP/p97 and MYC-tagged P137L) in cells, and checked whether they interacted.Immunoprecipitation experiments showed that, P137L mutant could still bind to WT VCP/p97 (S4 Fig) and possibly took part in VCP/p97 hexamers to a certain extent.Since the WT VCP was minimally degraded following induction of autophagy (Fig 6), our data indicate that most P137L mutant aggregates did not include WT proteins.In a previous work, we showed that the P137L mutant VCP/p97 was unable to bind its ERAD-related co-factors, and it interfered with the ERAD-mediated degradation of CFTRΔF508 and Tyrosinase C89R mutant proteins [17].In line with this, expression of the P137L mutant VCP/p97 resulted in the accumulation of To determine whether the P137L mutant is the only VCP/p97 mutant that led to abovementioned cellular outcomes, we also checked the effects of two other mutant proteins, namely VCP/p97 R93C and G157R mutants.Patients with R93C mutation as well as those with G157R mutation manifested all cardinal signs and symptoms of the disease, including muscle (G) U2OS cells expressing wild type (WT) or mutant VCP/p97 (P137L) and (R155C) were starved for 40 min in the absence or presence of lysosomal inhibitor chloroquine (CQ).(H) U2OS cells were treated with carrier (DMSO) or Torin-1 (TRN) and western blot analysis was performed by using LC3 antibody.(I) Cells were transfected with wild type (WT) and mutant (P137L or R155C) VCP/p97 and treated with TRN in the presence or absence of CQ.ACTIN was used as loading control.Image J software was used for the quantification of band intensities.Western blot analysis was performed by using MYC and ACTIN antibodies.ACTIN was used as loading control.Image J software was used for the quantification of band intensities.doi:10.1371/journal.pone.0164864.g006weakness, Paget's disease of bone and cognitive decline [35].In addition to these symptoms, two patients with the G157R mutation had early hearing impairment, a symptom that is uncommon to IBMPFD patients [5,35].Both R93C and G157R mutant proteins, were able to bind cofactors Npl4 and Ufd1 [17].But only the G157R mutant was able to strongly induce autophagy as the P137L mutant did (Fig 7A -7C).Similar to observations with the P137L mutant, expression of the G157R mutant, but not the R93C mutant, led to a robust accumulation of both autophagosomes and autolysosomes (Fig 7D and 7E).Last but not least, starvation caused complete degradation of G157R mutant in a lysosomal activity-dependent manner (Fig 7F ), while the R93C mutant protein levels were not affected under these conditions.Yet, G157R as well as R93C were found in both the soluble and the insoluble fraction of cells, the amount of insoluble G157R aggregates being more prominent (Fig 7G and 7H).Aggregation of the R93C mutant to a certain extent but lack of its degradation by autophagy might be the result of an autophagy defect caused by this mutant.

Discussion
In this study, we showed that an IBMPFD-associated mutant VCP/p97 form, the P137L mutant protein is a target of macroautophagic degradation.We demonstrated that expression of the P137L mutant protein led to LC3 gel shift and GFP-LC3 dot formation under both basal and starvation conditions, highly indicative of autophagy activation.Moreover, in contrast with previous reports using other IBMPFD-related VCP/p97 mutants (R155 and R191), the P137L mutant did not interfere with autophagosome-lysosome fusion and autolysosomal function, shown here as follows: i.RFP-GFP-LC3 analyses showed a significant increase in both autophagosome and autolysosome numbers; ii.VCP/p97 P137L mutant protein formed cytosolic insoluble aggregates that colocalized with the autophagy marker GFP-LC3 and lysosomal protein LAMP1; iii.Addition of lysosomal inhibitors resulted in the accumulation of both LC3-II and mutant VCP/p97 under conditions activating autophagy (i.e.starvation and Torin-1 treatment).All these results showed that P137L mutant protein did not affect autophagosome maturation or lysosomal activity.Strikingly, P137L mutant protein formed aggregates that colocalized with the autophagy receptor p62 and that were targeted by autophagy and degraded by the autolysosomal activity.We also showed that another VCP/p97 mutant, G157R also formed aggregates that could be cleared by autophagy, underlining the fact that cellular phenotypes caused by P137L mutant expression were not isolated observations, and some other IBMPFD disease-related mutations might lead to similar outcomes.
IBMPFD is rare disease with an autosomal dominant inheritance and individuals from around 100 families were reported to suffer from the disease.Most common VCP/p97 mutations causing IBMPFD disease involved the R155 residue (around half of the reported cases).Consequently, almost all molecular studies were conducted using cells or animals expressing R155 mutant proteins as IBMPFD disease experimental models.We showed that, the P137L mutant VCP/p97 protein that was reported to cause IBMPFD diseasebehaved in a different way than the commonly studied mutant R155 [36] [8].In contrast with other VCP/p97 mutants, P137L mutant did not bind ERAD-related co-factors, and formed insoluble protein aggregates.Moreover, expression of the P137L mutant did not result in autophagosome maturation defects that were reported to be associated withthe VCP/p97 R155 mutant [21,22].In contrast, P137L protein aggregates colocalized with autophagosome and autolysosome markers, and they were degraded in autolysosomes, while WT and healthy VCP/p97 protein levels were maintained.We confirmed in our experimental system that R155C and R191Q mutants did not share the same faith with the P137L mutant.Strikingly, activation of autophagy was previously reported to aggravate the pathology in an R155C mutant mice model of the disease [37].We showed that, the P137L mutant interacted with WT VCP/p97 proteins (S4 Fig) .Since the mutant was unable to bind its cofactors and to contribute to VCP/p97-dependent cellular events such as ER-associated protein degradation (ERAD), hexamers containing the mutant protein should be non-functional.Indeed, upon expression of the P137L mutant, ubiquitylated protein accumulation was increased in tunicamycin-treated cells suffering from ER stress(S5 Fig) .Moreover, we have previously shown that mutant proteins causing ER stress and ERAD, namely CFTRΔF508 and Tyrosinase C89R accumulated upon expression of the P137L mutant [17].
Binding of the p47 co-factor is important for VCP function in autophagic degradation.Yet, the P137L mutant was unable to bind this co-factor (probably due to a more detrimental alteration of VCP structure in this mutant) and the protein formed non-functional aggregates.Under these circumstances, mutant VCP/p97 proteins seemed not to interfere with the autophagyrelated function of the endogenous wild-type VCP protein.Consequently, the wild-type VCP could still retain its function in autophagosome formation, and assist in the clearence of protein aggregates by autophagy, including P137L mutant aggregates.Therefore, in the case of IBMPFDdiseased individuals carrying the P137L mutation, WT VCP/p97 that is produced by the nonmutated allele might still allow autophagic degradation to proceed in an efficient manner.
In IBMPFD disease,P137L mutant formed protein aggregates that did not prominently interfere with autophagic degradation activity.But, ERAD function was still perturbed and ubiquitylated proteins accumulated (S5 Fig), resulting in the perturbation of normal cellular functions [38].In this context, preferential autophagic clearance of the mutant proteinallowedthe enrichment of WT and functional VCP/p97 complexes (Fig 8).Therefore, autophagy activation in a subset of patients suffering from the IBMPFD disease might be beneficial and autophagy-based treatment of these patients might be possible.Further studies will reveal whether observations made here in in vitro cell culture conditions are valid in in vivo animal models.
Recently, VCP/p97 was shown to contribute to the autophagy of mitochondria (mitophagy) [39,40].Yet in our system, expression of the P137L mutant did not prominently affect VCP/p97 positive aggregates are not specific for IBMPFD.In a wide variety of diseases such as Parkinson's disease, Hungtinton's disease, Lewy Body disease, ALS and Machado-Joseph disease, VCP/p97 positive aggregates were observed [41][42][43].Moreover, mutations of VCP/p97 were reported in a fraction of ALS patients [44].Whether the P137L mutation and similar mutations or conditions causing aggregation of the VCP/p97 protein contribute to the pathologies observed in above-mentioned diseases is of interest.Large-scale genetic analysis of patients suffering from IBMPFD and other more common diseases will reveal the frequency of such mutations and the impact of the molecular events described in this study on disease progression.
Although all VCP/p97 mutations gave rise to clinical signs and symptoms of the IBMPFD disease, we showed that molecular and cellular changes caused by different VCP/p97 mutants (R155, R191, R93 mutants versus P137 and G157 mutants) were not identical.Our study underlines the fact that caution should be exerted when modeling a disease based on single or few common mutations.Therefore, before designing a single common therapy approach for all patients regardless of individual genetic changes, a better understanding of the biology of various disease-associated mutant proteins should be obtained.

Fig 2 .
Fig 2. VCP/p97 P137L mutant induced both autophagosome and autolysosome formation in HEK293T cells.(A) Cells expressing empty vector (CNT), wild type (WT) or mutant VCP/p97 (P137L) were co-transfected with RFP-GFP-LC3 fusion construct and dot formation was visualized under fluorescent microscope.Arrow heads indicate autophagosomes and arrows indicate autolysosomes.(B) The graph shows the number of autophagosomes and autolysosomes in WT and P137L mutant expressing cells.Data were shown as mean ± SD of independent experiments (n = 3).**, p<0.05; ***, p<0.01 (C) Cells were transfected with CNT, and MYC-tagged WT or P137L mutant in the absence or presence of lysosomal inhibitors E64d and Pepstatin A (PepA) and western blot analysis was performed.ACTIN was used as loading control.ImageJ software was used for the quantification of band intensities.doi:10.1371/journal.pone.0164864.g002

Fig 6 .
Fig 6.P137L mutant VCP/p97, but not the WT VCP/p97 or R155C and R191Q mutants, was a target of starvationinduced autophagy.(A) HEK293T cells were transfected with empty vector (CNT), MYC-tagged wild type (WT) or mutant VCP/p97 (P137L) and then starved for indicated time points.(B and C) HEK293T cells and (D) U2OS cells expressing empty vector (CNT), wild type (WT) or mutant (P137L) VCP/p97 were starved for 40 min in the absence or presence of lysosomal inhibitors E64d/Pepstatin A (E64D/PEPA) or chloroquine (CQ).(E) HEK293T cells and (F) U2OS cells expressing other VCP/ p97 mutants (R155C) and (R191Q) were starved for 40 min in the absence or presence of lysosomal inhibitor chloroquine (CQ).(G)U2OS cells expressing wild type (WT) or mutant VCP/p97 (P137L) and (R155C) were starved for 40 min in the absence or presence of lysosomal inhibitor chloroquine (CQ).(H) U2OS cells were treated with carrier (DMSO) or Torin-1 (TRN) and western blot analysis was performed by using LC3 antibody.(I) Cells were transfected with wild type (WT) and mutant (P137L or R155C) VCP/p97 and treated with TRN in the presence or absence of CQ.ACTIN was used as loading control.Image J software was used for the quantification of band intensities.Western blot analysis was performed by using MYC and ACTIN antibodies.ACTIN was used as loading control.Image J software was used for the quantification of band intensities.

Fig 8 .
Fig 8. Model of P137 mutant vs WT VCP/p97 degradation.Following autophagy stimulation by starvation or Torin-1, aggregates containing VCP/p97 mutant P137L were sequestered in autophagosomes and delivered to autolysosomes for degradation.A soluble fraction of the mutant protein could interact with WT VCP/p97protein and form hetero-hexamers interfering with the function of the WT protein.On the other hand, a major fraction of the WT VCP/p97was not colocalizing with autophagosomes and autolysosomes, and it was not significantly degraded by the autolysosomal activity.Therefore, autophagy activation led to a selective degradation of the mutant protein, while the WT counterpart was spared.doi:10.1371/journal.pone.0164864.g008

S1
Fig. VCP/p97 P137L mutant induced both autophagosome and autolysosome formation in U2OS and PC-12 cells.(A and C) Cells expressing empty vector wild type (WT), mutant (P137L or R155C) VCP/p97 were co-transfected with RFP-GFP-LC3 fusion construct, treated with chloroquine (CQ) for 40 min and dot formation was visualized in U2OS (A) and PC-12 (C) cells.Arrow heads indicate autophagosomes whereas arrows indicate autolysosomes.(A and C) The graphs show the number of autophagosomes and autolysosomes in U2OS (B) and PC-12 (D) cells under basal and chloroquine (CQ) treated condition.Data were shown as mean ± SD of independent experiments (n = 3).Ã p<0.05,ÃÃ p<0.01,ÃÃÃ p<0.001.(PDF) S2 Fig.Mutant VCP/p97 formed aggregates and it was mainly found in the insoluble fraction of cells.(A) HEK293T cells were transfected with wild type (WT) and mutant (P137L or R155C) VCP/p97 and then analyzed under confocal microscopy.(B) Mouse primary myoblast cells were cotransfected with autophagosome marker GFP-LC3 and wild type (WT) or mutant (P137L) VCP/p97 and analyzed using confocal microscopy under basal (NON-STV) or starved (STV) conditions.(C-E) Cells expressing WT or mutant (P137L or R155C) VCP/p97 were fractionated and subcellular distribution of proteins were analyzed by immunoblotting in HEK293T (C), U2OS (D) or PC-12 (E) cells.Graphs show the percentage of the insoluble fraction over total protein amount.ACTIN was used as loading control.(F) Wild type (WT) and mutant P137L VCP/p97 expressing U2OS cells transfected with a GFP-p62 construct, and association between p62 (Green) and VCP (Red) was analyzed under confocal microscopy.(PDF) S3 Fig. P137L mutant VCP/p97 is not a short-lived protein.U2OS cells were transfected with wild type (WT) or mutant (P137L) VCP/p97 in the absence or presence of 25 μM cycloheximide (CHX) for indicated time points.Western blot analysis was performed by using MYC and ACTIN antibodies.ACTIN was used as loading control.Image J software was used for the quantification of band intensities.(PDF) S4 Fig. P137L mutant can bind to WT VCP/p97.(A)MYC-tagged wild type (WT) or mutant (P137L) were transfected to HEK293T cells.VCP proteins were precipitated using MYC-beads and immunoblots were incubated with anti-MYC or anti-VCP/p97 antibodies.ACTIN was used as loading control.(B) U2OS and (C) PC-12 cells expressing MYC-tagged wild type (WT) or mutant (P137L) were co-transfected with GFP-tagged wild type VCP/p97.Myc-tagged WT and P13L VCP proteins were immunoprecipitated using MYC-beads and blots were incubated with GFP, VCP/p97 and ACTIN antibodies.ACTIN was used as oading control.(PDF) S5 Fig. P137L mutant expression led to ubiquitylated protein accumulation.(A) WT and (B) P137L mutant VCP expressing cells were treated with 1 μg/ml Tunicamycin for indicated time points (0 to 8 hours).An anti-ubiquitin antibody was used to detect ubiquitylated total proteins.ACTIN was used as loading control.(PDF) S6 Fig. VCP/p97P137L mutant expression did not interfere with mitophagy.(A) HEK293T cells expressing were co-transfected wild type (WT) or mutant (P137L) VCP/p97 and autophagy marker GFP-LC3 and mitochondrial marker Mito-dsRed. 10 μM CCCP treatment for 12 h was used as mitophagy inducer and DMSO as carrier.Mitophagy was assessed as GFP-LC3-Mito-dsRed colocalization under confocal microscope.(B) Quantification of mitophagy positive cells (mean ± S.D. of independent experiments, n = 3.For each condition, 30 cells per point were counted.ÃÃ p<0.01,ÃÃÃ p<0.001, ns, not significant).(PDF)