HDAC inhibition improves autophagic and lysosomal function to prevent loss of subcutaneous fat in a mouse model of Cockayne syndrome

Majora, Marc; Sondenheimer, Kevin; Knechten, M.; Uthe, I.; Esser, Charlotte; Schiavi, Alfonso; Ventura, Natascia; Krutmann, Jean

doi:10.1126/scitranslmed.aam7510

Cited by 40 publications

(23 citation statements)

References 75 publications

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“…CSB-deficient cells show increased ROS production, increased mitochondrial content and accumulation of damaged mitochondria, in line with impaired mitophagy (Scheibye-Knudsen et al, 2012). Further, CSB promotes acetylation of α-tubulin (Majora et al, 2018), which is a modification involved in cargo transport along microtubules to facilitate autophagosome/autolysosome fusion and aggresome clearance (Xie et al, 2010; Li et al, 2011). CSB deficiency abrogates autophagy and results in increased number of dilated lysosomes with impaired function (Majora et al, 2018).…”

Section: Nucleolar Stress and Autophagy: A Tight Regulation Between Hmentioning

confidence: 99%

“…Further, CSB promotes acetylation of α-tubulin (Majora et al, 2018), which is a modification involved in cargo transport along microtubules to facilitate autophagosome/autolysosome fusion and aggresome clearance (Xie et al, 2010; Li et al, 2011). CSB deficiency abrogates autophagy and results in increased number of dilated lysosomes with impaired function (Majora et al, 2018). In human CS cells, translational infidelity is observed, most likely due to accumulation of error-prone ribosomes as a consequence of impaired ribosome replacement.…”

Section: Nucleolar Stress and Autophagy: A Tight Regulation Between Hmentioning

confidence: 99%

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Emerging Role of the Nucleolar Stress Response in Autophagy

Pfister

2019

Front. Cell. Neurosci.

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Autophagy represents a conserved self-digestion program, which allows regulated degradation of cellular material. Autophagy is activated by cellular stress, serum starvation and nutrient deprivation. Several autophagic pathways have been uncovered, which either non-selectively or selectively target the cellular cargo for lysosomal degradation. Autophagy engages the coordinated action of various key regulators involved in the steps of autophagosome formation, cargo targeting and lysosomal fusion. While non-selective (macro)autophagy is required for removal of bulk material or recycling of nutrients, selective autophagy mediates specific targeting of damaged organelles or protein aggregates. By proper action of the autophagic machinery, cellular homeostasis is maintained. In contrast, failure of this fundamental process is accompanied by severe pathophysiological conditions. Hallmarks of neuropathological disorders are for instance accumulated, mis-folded protein aggregates and damaged mitochondria. The nucleolus has been recognized as central hub in the cellular stress response. It represents a sub-nuclear organelle essential for ribosome biogenesis and also functions as stress sensor by mediating cell cycle arrest or apoptosis. Thus, proper nucleolar function is mandatory for cell growth and survival. Here, I highlight the emerging role of nucleolar factors in the regulation of autophagy. Moreover, I discuss the nucleolar stress response as a novel signaling pathway in the context of autophagy, health and disease.

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Section: Nucleolar Stress and Autophagy: A Tight Regulation Between Hmentioning

confidence: 99%

Section: Nucleolar Stress and Autophagy: A Tight Regulation Between Hmentioning

confidence: 99%

Emerging Role of the Nucleolar Stress Response in Autophagy

Pfister

2019

Front. Cell. Neurosci.

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“…Another hereditary form of premature aging, Cockayne syndrome (CS), is caused by mutations in five different genes that encode proteins involved in nucleotide excision DNA repair, causing hypersensitivity to UV radiation and loss of subcutaneous fat (Majora et al , ). Across CSB ‐deficient human fibroblasts, Caenorhabditis elegans , and mice, treatment with SAHA enhanced alpha‐tubulin acetylation and improved autophagic function, and even rescued the skin phenotype observed in mice, suggesting it may provide a therapeutic option for CS (Majora et al , ). Together, these findings not only suggest that HDAC inhibitors can provide treatment for diseases of premature aging, but also provide further evidence of HDAC inhibitor efficacy as a geroprotective compound.…”

Section: Benefits Of Hdac Inhibitors In Preclinical Age‐related Diseamentioning

confidence: 99%

From molecular promise to preclinical results: HDAC inhibitors in the race for healthy aging drugs

et al. 2019

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Reversing or slowing the aging process brings great promise to treat or prevent age‐related disease, and targeting the hallmarks of aging is a strategy to achieve this. Epigenetics affects several if not all of the hallmarks of aging and has therefore emerged as a central target for intervention. One component of epigenetic regulation involves histone deacetylases (HDAC), which include the “classical” histone deacetylases (of class I, II, and IV) and sirtuin deacetylases (of class III). While targeting sirtuins for healthy aging has been extensively reviewed elsewhere, this review focuses on pharmacologically inhibiting the classical HDACs to promote health and longevity. We describe the theories of how classical HDAC inhibitors may operate to increase lifespan, supported by studies in model organisms. Furthermore, we explore potential mechanisms of how HDAC inhibitors may have such a strong grasp on health and longevity, summarizing their links to other hallmarks of aging. Finally, we show the wide range of age‐related preclinical disease models, ranging from neurodegeneration to heart disease, diabetes to sarcopenia, which show improvement upon HDAC inhibition.

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“…Fibroblasts from patients deficient in Cockayne syndrome B (CSB) protein display impaired autophagy due to interaction of CSB with HDAC6 and cytoskeletal components. Importantly, the restoration of autophagic function could revert the premature aging and photosensitivity phenotype in a CSB mouse model (Majora et al, 2018). The movement of the autophagic-lysosomal components along cytoskeletal components through motor proteins was demonstrated in a study in mouse fibroblasts.…”

Section: Autophagy In Epithelial Cells Of the Skinmentioning

confidence: 99%

Autophagic Control of Skin Aging

Eckhart

Tschachler

Грубер

2019

Front. Cell Dev. Biol.

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The skin forms the barrier to the environment. Maintenance of this barrier during aging requires orchestrated responses to variable types of stress, the continuous renewal of the epithelial compartment, and the homeostasis of long-lived cell types. Recent experimental evidence suggests that autophagy is critically involved in skin homeostasis and skin aging is associated with and partially caused by defects of autophagy. In the outer skin epithelium, autophagy is constitutively active during cornification of keratinocytes and increases the resistance to environmental stress. Experimental suppression of autophagy in the absence of stress is tolerated by the rapidly renewing epidermal epithelium, whereas long-lived skin cells such as melanocytes, Merkel cells and secretory cells of sweat glands depend on autophagy for cellular homeostasis and normal execution of their functions during aging. Yet other important roles of autophagy have been identified in the dermis where senescence of mesenchymal cells and alterations of the extracellular matrix (ECM) are hallmarks of aging. Here, we review the evidence for cell type-specific roles of autophagy in the skin and their differential contributions to aging.

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HDAC inhibition improves autophagic and lysosomal function to prevent loss of subcutaneous fat in a mouse model of Cockayne syndrome

Cited by 40 publications

References 75 publications

Emerging Role of the Nucleolar Stress Response in Autophagy

Emerging Role of the Nucleolar Stress Response in Autophagy

From molecular promise to preclinical results: HDAC inhibitors in the race for healthy aging drugs

Autophagic Control of Skin Aging

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