Sequential Modification of NEMO/IKKγ by SUMO-1 and Ubiquitin Mediates NF-κB Activation by Genotoxic Stress

Huang, Tony T.; Wuerzberger-Davis, Shelly M.; Wu, Zhao-Hui; Miyamoto, Shigeki

doi:10.1016/s0092-8674(03)00895-x

Cited by 524 publications

(592 citation statements)

References 56 publications

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“…Furthermore, explorative network analysis identified AS genes involved in RNA post‐transcriptional modifications in direct relation with histone H3 and RNA polymerase II and the NF‐κB complex as a major upstream and central node. Interestingly, the IKK/NF‐κB signaling pathway has been proposed to be one of the key mediators of aging (Huang et al ., 2003; Wu et al ., 2006). …”

Section: Discussionmentioning

confidence: 99%

Global genome splicing analysis reveals an increased number of alternatively spliced genes with aging

et al. 2015

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SummaryAlternative splicing (AS) is a key regulatory mechanism for the development of different tissues; however, not much is known about changes to alternative splicing during aging. Splicing events may become more frequent and widespread genome‐wide as tissues age and the splicing machinery stringency decreases. Using skin, skeletal muscle, bone, thymus, and white adipose tissue from wild‐type C57BL6/J male mice (4 and 18 months old), we examined the effect of age on splicing by AS analysis of the differential exon usage of the genome. The results identified a considerable number of AS genes in skeletal muscle, thymus, bone, and white adipose tissue between the different age groups (ranging from 27 to 246 AS genes corresponding to 0.3–3.2% of the total number of genes analyzed). For skin, skeletal muscle, and bone, we included a later age group (28 months old) that showed that the number of alternatively spliced genes increased with age in all three tissues (P < 0.01). Analysis of alternatively spliced genes across all tissues by gene ontology and pathway analysis identified 158 genes involved in RNA processing. Additional analysis of AS in a mouse model for the premature aging disease Hutchinson–Gilford progeria syndrome was performed. The results show that expression of the mutant protein, progerin, is associated with an impaired developmental splicing. As progerin accumulates, the number of genes with AS increases compared to in wild‐type skin. Our results indicate the existence of a mechanism for increased AS during aging in several tissues, emphasizing that AS has a more important role in the aging process than previously known.

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Section: Discussionmentioning

confidence: 99%

Global genome splicing analysis reveals an increased number of alternatively spliced genes with aging

et al. 2015

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“…Protein ubiquitylation has been previously reported as a critical step for NF-kB activation either through proteolytic or non-proteolytic mechanisms. ATM-dependent ubiquitylation of IKK-g mediates NF-kB activation by genotoxic stress (Huang et al, 2003) and the deubiquitylation enzyme CYLD negatively regulates NF-kB signaling (Kovalenko et al, 2003). K63-poly-ubiquitylation of TRAF6 mediates IKK activation by interleukin-1 (Deng et al, 2000).…”

Section: Discussionmentioning

confidence: 99%

Ubiquitylated Tax targets and binds the IKK signalosome at the centrosome

et al. 2007

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“…Moreover, treatment of human embryonic kidney (HEK) 293T cells that stably express PIDD isoforms with etoposide resulted in increased NF-kB, as assessed by a luciferase assay (Figure 4c). In the course of a response to DNA damage, NEMO is sequentially sumoylated, phosphorylated and ubiquitinated to activate NF-kB (Huang et al, 2003;Hay, 2004). PIDD isoform 1 is essential for NEMO sumoylation and its overexpression increases SUMO-NEMO levels (Janssens et al, 2005).…”

Section: Pidd Isoforms 1 2 and 3 Activate Nf-kbmentioning

confidence: 99%

“…Activation of NF-kB in response to DSB depends on two parallel signaling cascades, namely those orchestrated by the PI3 kinase like ataxia-telangectasia mutated (ATM), which is activated by DSB or higher order chromatin changes (Bakkenist and Kastan, 2003) and those regulated by PIDD, which is activated by an as yet unknown signal (Janssens et al, 2005). In response to DSB, NEMO (also known as IKKg) is sumoylated on K277 and K309 by PIASg in a PIDD-dependent fashion, and SUMO-NEMO accumulates in the nucleus (Huang et al, 2003;Janssens et al, 2005;Mabb et al, 2006). Activated ATM phosphorylates SUMO-NEMO to allow its desumoylation and subsequent monoubiquitination on the same lysine residues (Huang et al, 2003).…”

Section: Introductionmentioning

confidence: 99%

“…In response to DSB, NEMO (also known as IKKg) is sumoylated on K277 and K309 by PIASg in a PIDD-dependent fashion, and SUMO-NEMO accumulates in the nucleus (Huang et al, 2003;Janssens et al, 2005;Mabb et al, 2006). Activated ATM phosphorylates SUMO-NEMO to allow its desumoylation and subsequent monoubiquitination on the same lysine residues (Huang et al, 2003). NEMO then shuttles back to the cytoplasm where it can associate with IKKa and IKKb to form an active IKK complex that will lead to NF-kB activation and cell survival.…”

Section: Introductionmentioning

confidence: 99%

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p53-induced protein with a death domain (PIDD) isoforms differentially activate nuclear factor-kappaB and caspase-2 in response to genotoxic stress

et al. 2007

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Cellsres pond to DNA damage in a complex way and the fate of damaged cells depends on the balance between pro-and antiapoptotic signals. This is of crucial importance in cancer as genotoxic stress is implied both in oncogenesis and in classical tumor therapies. p53-induced protein with a death domain (PIDD), initially described as a p53-inducible gene, is one of the molecular switches able to activate a survival or apoptotic program. Two isoforms of PIDD, PIDD ( isoform 1) and LRDD ( isoform 2), have already been reported and we describe here a third isoform. These three isoforms are differentially expressed in tissues and cell lines. Genotoxic stress only affects PIDD isoform 3 mRNA levels, whereas isoforms 1 and 2 mRNA levels remain unchanged. All isoforms are capable of activating nuclear factor-kappaB in response to genotoxic stress, but only isoform 1 interacts with RIP-associated ICH-1/CED-3 homologous protein with a death domain and activates caspase-2. Isoform 2 counteracts the pro-apoptotic function of isoform 1, whereas isoform 3 enhances it. Thus, the differential splicing of PIDD mRNA leads to the formation of at least three proteins with antagonizing/agonizing functions, thereby regulating cell fate in response to DNA damage

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Sequential Modification of NEMO/IKKγ by SUMO-1 and Ubiquitin Mediates NF-κB Activation by Genotoxic Stress

Cited by 524 publications

References 56 publications

Global genome splicing analysis reveals an increased number of alternatively spliced genes with aging

Global genome splicing analysis reveals an increased number of alternatively spliced genes with aging

Ubiquitylated Tax targets and binds the IKK signalosome at the centrosome

p53-induced protein with a death domain (PIDD) isoforms differentially activate nuclear factor-kappaB and caspase-2 in response to genotoxic stress

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