Nuclear protein 1 promotes pancreatic cancer development and protects cells from stress by inhibiting apoptosis

Hamidi, Tewfik; Algül, Hana; Cano, Carla E.; Sandí, María José; Molejon, Maria Inés; Robinson‐Rechavi, Marc; Calvo, Ézéquiel; Lomberk, Gwen; Dagorn, Jean Charles; Weih, Falk; Urrutia, Raúl; Schmid, Roland M.; Iovanna, Juan

doi:10.1172/jci60144

Cited by 108 publications

(133 citation statements)

References 51 publications

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“…Therefore, due to their ability to regulate gene expression processes that determine cellular patterns of morphogenesis, Polycomb complexes are key regulators of cell development, maintain tissue homeostasis, and, when altered, give rise to cancer. NUPR1 plays a major role in pancreatic ductal adenocarcinoma (PDAC), because the oncogenic Kras G12D expression in the mouse pancreas is unable to promote precancerous lesions in the absence of NUPR1 expression (31,32,35). In addition, RING1B is weakly expressed in pancreatic intraepithelial neoplasias but strongly expressed in PDAC [as well as in hepatocellular carcinoma (14)].…”

Section: Structural Determinants Of the C-ring1b/nupr1 Interaction Inmentioning

confidence: 99%

“…Indeed, NUPR1 participates in the regulation of apoptosis by forming a complex with another IDP, prothymosin α (33), as well as being involved in DNA repair (34). In addition, NUPR1 plays key roles in pancreatic tumorigenesis, acting downstream of the Kras G12D oncogenes, which are critical for pancreatic carcinogenesis (35). Therefore, given the similarities in the physicochemical properties of RYBP and NUPR1 (namely, high isoelectric point, DNAbinding features, and an intrinsic disordered state), and the involvement of C-RING1B in some types of cancer, we hypothesize that this domain might also bind to NUPR1.…”

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confidence: 99%

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Intrinsically disordered chromatin protein NUPR1 binds to the C-terminal region of Polycomb RING1B

Santofimia‐Castaño

Rizzuti

Pey

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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Intrinsically disordered proteins (IDPs) are ubiquitous in eukaryotes, and they are often associated with diseases in humans. The protein NUPR1 is a multifunctional IDP involved in chromatin remodeling and in the development and progression of pancreatic cancer; however, the details of such functions are unknown. Polycomb proteins are involved in specific transcriptional cascades and gene silencing. One of the proteins of the Polycomb complex is the Ring finger protein 1 (RING1). RING1 is related to aggressive tumor features in multiple cancer types. In this work we characterized the interaction between NUPR1 and the paralogue RING1B in vitro, in silico, and in cellulo. The interaction occurred through the C-terminal region of RING1B (C-RING1B), with an affinity in the low micromolar range (∼10 μM). The binding region of NUPR1, mapped by NMR, was a hydrophobic polypeptide patch at the 30s region of its sequence, as pinpointed by computational results and site-directed mutagenesis at Ala33. The association between C-RING1B and wild-type NUPR1 also occurred in cellulo as tested by protein ligation assays; this interaction is inhibited by trifluoperazine, a drug known to hamper binding of wild-type NUPR1 with other proteins. Furthermore, the Thr68Gln and Ala33Gln/Thr68Gln mutants had a reduction in the binding toward C-RING1B as shown by in vitro, in silico, and in cellulo studies. This is an example of a well-folded partner of NUPR1, because its other interacting proteins are also unfolded. We hypothesize that NUPR1 plays an active role in chromatin remodeling and carcinogenesis, together with Polycomb proteins.G ene expression control occurs through the combined activities of transcription factors and chromatin regulators, considered as effectors of epigenetic mechanisms. Posttranslational modifications of nucleosomal histones, DNA methylation, local compaction, and long-range interactions determine a variety of chromatin structures that can affect the transcriptional output.A group of chromatin regulators are the Polycomb Repressive complexes (PRCs) (1, 2). These Polycomb group (PcG) proteins are encoded by genes initially discovered over 60 years ago as repressors of the Hox genes in Drosophila (3). The PcG proteins form two main silencing heteromeric complexes called PRC1 and PRC2; both are highly conserved in eukaryotes and either in isolation or synergistically can silence genes (4, 5). The catalytic functions of both complexes include ubiquitin-ligase (H3K119ub1) and methyltransferase activity (H3K27Me3), respectively. In mammals, the PRC2 core is formed by, at least, four heteromeric units, one of which is EZH2 (or its paralog, EZH1), the methyltransferase that catalyzes the trimethylation of histone H3 at Lys27 (5). This modification can act as an anchoring site of PRC1 complexes containing chromobox (CBX) proteins. These CBX proteins recruit PRC1 complex onto PRC2-enriched chromatin, facilitating the monoubiquitylation. The PRC1-dependent monoubiquitylation at Lys119 of histone H2A correlates with transc...

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Section: Structural Determinants Of the C-ring1b/nupr1 Interaction Inmentioning

confidence: 99%

mentioning

confidence: 99%

Intrinsically disordered chromatin protein NUPR1 binds to the C-terminal region of Polycomb RING1B

Santofimia‐Castaño

Rizzuti

Pey

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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“…9 P8 participates in a wide range of biological functions in tumorigenesis, including anti-inflammatory, 10 cell cycle regulation, 11 autophagy, 12 and apoptosis inhibition. 13 Accumulating studies have shown that p8 is overexpressed in various cancer cells including pancreatic cancer, 14 colorectal carcinoma 15 and brain tumors. 16 Moreover, it has been reported that p8 is involved in the resistance of cancer cells to gemcitabine and adriamycin.…”

Section: Introductionmentioning

confidence: 99%

p8 attenuates the apoptosis induced by dihydroartemisinin in cancer cells through promoting autophagy

Chen

Zeng

et al. 2015

Cancer Biology & Therapy

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Dihydroartemisinin (DHA) exhibits anticancer activities in a variety of cancer cells, but DHA alone are not effective enough for cancer therapy. In this study we found the stress-regulated protein p8 was obviously increased after DHA treatment in several cancer cells, which further to induce autophagy by the upregulation of endoplasmic reticulum stress-related protein ATF4 and CHOP. Furthermore, when we silenced p8 by siRNA in cancer cells, the apoptosis induced by DHA were notably increased, whereas the overexpression of p8 in cancer cells leaded to the resistance to DHA-induced apoptosis. Moreover, we found the inhibition of autophagy with chloroquine (CQ) can enhance the anticancer effect of DHA both in vitro and in vivo. In conclusion, we found that p8-mediated autophagy attenuates DHA-induced apoptosis in cancer cells, which provides evidence to support the use p8 as a cancer therapeutic target, and suggests that the combination treatment with DHA and autophagy inhibitor might be an effective cancer therapeutic strategy.

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“…Several genetic and epigenetic factors (regulating senescence, autophagy, cell cycle, and apoptosis) may positively or negatively modulate the transforming activity of mutant KRAS in pancreatic cells, thereby modulating PanIN development. Among these factors, we recently described a novel intracellular pathway essential for KRAS transforming activity in the pancreas controlled by the pancreatitis-activated protein NUPR1 (also known as p8 or COM1), which involved RELB, but not RELA (6). We demonstrated that genetic deletion of Nupr1 in mice inhibits Kras-dependent PanIN development in a Relbdependent manner.…”

Section: Introductionmentioning

confidence: 97%

“…Consequently, pancreatic-specific deletion of Relb in a Kras G12D background resulted in delayed PanIN development. In addition, we found that disruption of this novel NUPR1-RELB transcriptional pathway affects the expression of genes encoding proteins that can serve as effectors of their function, such as immediate early response 3 (IER3) (6). Thus, efficient PanIN formation is dependent on Nupr1 and Relb expression, with likely involvement of Ier3.…”

Section: Introductionmentioning

confidence: 99%

IER3 supports KRASG12D-dependent pancreatic cancer development by sustaining ERK1/2 phosphorylation

García¹,

Grasso²,

López-Millán³

et al. 2014

J. Clin. Invest.

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Nuclear protein 1 promotes pancreatic cancer development and protects cells from stress by inhibiting apoptosis

Cited by 108 publications

References 51 publications

Intrinsically disordered chromatin protein NUPR1 binds to the C-terminal region of Polycomb RING1B

Intrinsically disordered chromatin protein NUPR1 binds to the C-terminal region of Polycomb RING1B

p8 attenuates the apoptosis induced by dihydroartemisinin in cancer cells through promoting autophagy

IER3 supports KRASG12D-dependent pancreatic cancer development by sustaining ERK1/2 phosphorylation

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