Literature DB >> 23019125

Nuclear lamina defects cause ATM-dependent NF-κB activation and link accelerated aging to a systemic inflammatory response.

Fernando G Osorio1, Clea Bárcena, Clara Soria-Valles, Andrew J Ramsay, Félix de Carlos, Juan Cobo, Antonio Fueyo, José M P Freije, Carlos López-Otín.   

Abstract

Alterations in the architecture and dynamics of the nuclear lamina have a causal role in normal and accelerated aging through both cell-autonomous and systemic mechanisms. However, the precise nature of the molecular cues involved in this process remains incompletely defined. Here we report that the accumulation of prelamin A isoforms at the nuclear lamina triggers an ATM- and NEMO-dependent signaling pathway that leads to NF-κB activation and secretion of high levels of proinflammatory cytokines in two different mouse models of accelerated aging (Zmpste24(-/-) and Lmna(G609G/G609G) mice). Causal involvement of NF-κB in accelerated aging was demonstrated by the fact that both genetic and pharmacological inhibition of NF-κB signaling prevents age-associated features in these animal models, significantly extending their longevity. Our findings provide in vivo proof of principle for the feasibility of pharmacological modulation of the NF-κB pathway to slow down the progression of physiological and pathological aging.

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Year:  2012        PMID: 23019125      PMCID: PMC3475803          DOI: 10.1101/gad.197954.112

Source DB:  PubMed          Journal:  Genes Dev        ISSN: 0890-9369            Impact factor:   11.361


  73 in total

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Review 5.  Beyond ATM: the protein kinase landscape of the DNA damage response.

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  114 in total

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Review 6.  Human T cell immunosenescence and inflammation in aging.

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Review 7.  Nuclear lamins and oxidative stress in cell proliferation and longevity.

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Review 8.  An expanding GSK3 network: implications for aging research.

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9.  Bile acid-induced inflammatory signaling in mice lacking Foxa2 in the liver leads to activation of mTOR and age-onset obesity.

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Review 10.  When lamins go bad: nuclear structure and disease.

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