Energetic mitochondrial failing in vitiligo and possible rescue by cardiolipin

Dell’Anna, Maria Lucia; Ottaviani, Monica; Kovacs, Daniela; Mirabilii, Simone; Brown, David A.; Cota, Carlo; Migliano, Emilia; Bastonini, Emanuela; Bellei, Barbara; Cardinali, Giorgia; Ricciardi, Maria Rosaria; Tafuri, Agostino; Picardo, Mauro

doi:10.1038/s41598-017-13961-5

Cited by 41 publications

(55 citation statements)

References 65 publications

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“…However, our findings fail to fully explain the dysregulation of melanocyte biology in vitiligo, especially the dysregulated mitochondrial function of melanocytes 13, 14. Dell'Anna et al have observed increased mitochondria-derived ROS production and impaired activity of electron transport chain complex in vitiligo melanocytes 21. Consistent with their findings, we also detected increased mitochondrial ROS generation, decreased mitochondrial membrane potential, lessened intracellular ATP level and impaired respiratory chain complex activities in melanocytes after H 2 O 2 stimulation, further confirming the involvement of damaged mitochondria in inducing melanocyte destruction in vitiligo.…”

Section: Discussioncontrasting

confidence: 75%

“…Previous studies have demonstrated that the polymorphisms of superoxide dismutase (SOD2), a crucial mitochondrial reactive oxygen species (ROS) scavenger, are genetic risk factors for the susceptibility and the progression of vitiligo 20. Moreover, several lines of evidences have revealed the disordered ultrastructure of mitochondria in vitiligo melanocytes 13, 21, especially the disappearance of cristae, which could impede respiratory chain complex assembly and boost ROS production 22-24, indicating the close linkage between mitochondrial function impairment and melanocyte's susceptibility to oxidative stress. Intriguingly, it is reported that mitochondrial structure is dynamically regulated by two counteracting processes, that are, mitochondrial fusion and fission, with dynamin-related protein 1 (DRP1), fission 1 (Fis1), mitochondrial fission factor (MFF), mitofusin 1 (MFN1), mitofusin 2 (MFN2) and optic atrophy 1 (OPA1) as key regulatory elements 25.…”

Section: Introductionmentioning

confidence: 99%

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SIRT3-Dependent Mitochondrial Dynamics Remodeling Contributes to Oxidative Stress-Induced Melanocyte Degeneration in Vitiligo

Guo

Shi

et al. 2019

Theranostics

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Mitochondrial dysregulation has been implicated in oxidative stress-induced melanocyte destruction in vitiligo. However, the molecular mechanism underlying this process is merely investigated. Given the prominent role of nicotinamide adenine dinucleotide (NAD + )-dependent deacetylase Sirtuin3 (SIRT3) in sustaining mitochondrial dynamics and homeostasis and that SIRT3 expression and activity can be influenced by oxidative stress-related signaling, we wondered whether SIRT3 could play an important role in vitiligo melanocyte degeneration by regulating mitochondrial dynamics. Methods: We initially testified SIRT3 expression and activity in normal and vitiligo melanocytes via PCR, immunoblotting and immunofluorescence assays. Then, cell apoptosis, mitochondrial function and mitochondrial dynamics after SIRT3 intervention were analyzed by flow cytometry, immunoblotting, confocal laser microscopy, transmission electron microscopy and oxphos activity assays. Chromatin immunoprecipitation (ChIP), co-immunoprecipitation (Co-IP), immunoblotting and immunofluorescence assays were performed to clarify the upstream regulatory mechanism of SIRT3. Finally, the effect of honokiol on protecting melanocytes and the underlying mechanism were investigated via flow cytometry and immunoblotting analysis. Results: We first found that the expression and the activity of SIRT3 were significantly impaired in vitiligo melanocytes both in vitro and in vivo . Then, SIRT3 deficiency led to more melanocyte apoptosis by inducing severe mitochondrial dysfunction and cytochrome c release to cytoplasm, with Optic atrophy 1 (OPA1)-mediated mitochondrial dynamics remodeling involved in. Moreover, potentiated carbonylation and dampened peroxisome proliferator-activated receptor gamma coactivator 1-alpha (PGC1α) activation accounted for SIRT3 dysregulation in vitiligo melanocytes. Finally, we proved that honokiol could prevent melanocyte apoptosis under oxidative stress by activating SIRT3-OPA1 axis. Conclusions: Overall, we demonstrate that SIRT3-dependent mitochondrial dynamics remodeling contributes to oxidative stress-induced melanocyte degeneration in vitiligo, and honokiol is promising in preventing oxidative stress-induced vitiligo melanocyte apoptosis.

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Section: Discussioncontrasting

confidence: 75%

Section: Introductionmentioning

confidence: 99%

SIRT3-Dependent Mitochondrial Dynamics Remodeling Contributes to Oxidative Stress-Induced Melanocyte Degeneration in Vitiligo

Guo

Shi

et al. 2019

Theranostics

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“…These findings correspond with the observation from individuals with vitiligo—a condition which results in areas of the skin with inactive melanocytes—of reduced energy production in cultured melanocytes with depleted skin pigmentation, compared to healthy melanocytes [55], and the increased presence of vitiligo in patients with genetic mitochondrial dysfunction [56].…”

Section: Pigmentationsupporting

confidence: 87%

Mitochondria’s Role in Skin Ageing

Stout

Birch‐Machin

2019

Biology

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Skin ageing is the result of a loss of cellular function, which can be further accelerated by external factors. Mitochondria have important roles in skin function, and mitochondrial damage has been found to accumulate with age in skin cells, but also in response to solar light and pollution. There is increasing evidence that mitochondrial dysfunction and oxidative stress are key features in all ageing tissues, including skin. This is directly linked to skin ageing phenotypes: wrinkle formation, hair greying and loss, uneven pigmentation and decreased wound healing. The loss of barrier function during skin ageing increases susceptibility to infection and affects wound healing. Therefore, an understanding of the mechanisms involved is important clinically and also for the development of antiageing skin care products.

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“…When damage occurs, it may stimulate FAK phosphorylation, thus promoting PGC1α [ 50 ]. Impaired mitochondrial activity raised mitochondrial mass and increased PGC1α and FAK expression [ 51 ]. In the present study, vitiligo skin samples showed phospo-FAK expression stimulation compared to controls.…”

Section: Discussionmentioning

confidence: 99%

Differential Expression of Nitric Oxide Synthase Isoforms nNOS and iNOS in Patients with Non-Segmental Generalized Vitiligo

Vaccaro

Irrera

Cutroneo

et al. 2017

IJMS

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Nitric oxide (NO) is involved in several biological processes, but its role in human melanogenesis is still not well understood. Exposure to UVA and UVB induces nitric oxide production in keratinocytes and melanocytes through the activation of constitutive nitric oxide synthase, increasing tyrosinase activity and melanin synthesis, whereas inducible nitric oxide synthase over expression might be involved in hypopigmentary disorders. The aim of this study was to evaluate whether inducible nitric oxide synthase and neuronal nitric oxide synthase expression were modified in vitiligo skin compared to healthy controls. Skin biopsies were obtained from inflammatory/lesional and white/lesional skin in 12 patients with active, non-segmental vitiligo; site-matched biopsies of normal skin from eight patients were used as controls. Nitric oxide synthase isoforms expression was evaluated by confocal laser scanning microscopy and Western Blot analysis. Inducible nitric oxide synthase expression was significantly increased in inflammatory/lesional skin compared to healthy skin; melanocytes showed a moderate neuronal nitric oxide synthase expression in white/lesional skin, demonstrating that metabolic function still goes on. The obtained data demonstrated that vitiligo lesions were characterized by modifications of nitric oxide synthase isoforms, thus confirming the hypothesis that nitric oxide imbalance is involved in vitiligo and supporting the idea that nitric oxide synthase inhibitors might be used as a possible therapeutic approach for the management of vitiligo.

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Energetic mitochondrial failing in vitiligo and possible rescue by cardiolipin

Cited by 41 publications

References 65 publications

SIRT3-Dependent Mitochondrial Dynamics Remodeling Contributes to Oxidative Stress-Induced Melanocyte Degeneration in Vitiligo

SIRT3-Dependent Mitochondrial Dynamics Remodeling Contributes to Oxidative Stress-Induced Melanocyte Degeneration in Vitiligo

Mitochondria’s Role in Skin Ageing

Differential Expression of Nitric Oxide Synthase Isoforms nNOS and iNOS in Patients with Non-Segmental Generalized Vitiligo

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