Epidithiodiketopiperazines (ETPs) exhibit in vitro antiangiogenic and in vivo antitumor activity by disrupting the HIF-1α/p300 complex in a preclinical model of prostate cancer

Reece, Kelie; Richardson, Emily D.; Cook, Kristina M.; Campbell, Tessa J; Pisle, Stephen T; Holly, Alesia; Venzon, David; Liewehr, David J.; Chau, Cindy H.; Price, Douglas K.; Figg, William D.

doi:10.1186/1476-4598-13-91

Cited by 80 publications

(60 citation statements)

References 35 publications

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“…Tumor cells must adapt to a hypoxic environment to survive and grow. This is mediated by hypoxia-inducible factor (HIF-1), whereby the O 2 -regulated HIF-1a subunit of the HIF-1 transcription factor is required for activation of multiple genes involved in tumor progression and angiogenesis [69]. Under hypoxic conditions, HIF-1a undergoes nuclear translocation where it interacts with HIF-1b and binds to target DNA sequences.…”

Section: Gliotoxin Impact On Animal Cellsmentioning

confidence: 99%

“…Indeed, Zn 2+ supplementation of ruminant diets is an effective prophylactic treatment for this disease [73]; it is tempting to speculate that this could be effected via disruption of the HIF-1a-p300 adaptive response. More recently it has been shown that gliotoxin, chaetocin, and chetomin could significantly decrease tumor growth in a prostate cancer xenograft model system [69]. Although gliotoxin exposure did not impact on the expression of HIF-1a regulated genes, these authors speculated that the antitumor activity of gliotoxin could be mediated via farnesyltransferase inhibition because inhibition of this enzyme can attenuate angiogenesis by interfering with endothelial cell migration [74].…”

Section: Gliotoxin Impact On Animal Cellsmentioning

confidence: 99%

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Resistance is not futile: gliotoxin biosynthesis, functionality and utility

Dolan¹,

O’Keeffe²,

Jones

et al. 2015

Trends in Microbiology

146

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Gliotoxin biosynthesis is encoded by the gli gene cluster in Aspergillus fumigatus. The biosynthesis of gliotoxin is influenced by a suite of transcriptionally-active regulatory proteins and a bis-thiomethyltransferase. A selfprotection system against gliotoxin is present in A. fumigatus. Several additional metabolites are also produced via the gliotoxin biosynthetic pathway. Moreover, the biosynthesis of unrelated natural products appears to be influenced either by gliotoxin or by the activity of specific reactions within the biosynthetic pathway. The activity of gliotoxin against animal cells and fungi, often mediated by interference with redox homeostasis or protein modification, is revealing new metabolic interactions within eukaryotic systems. Nature has provided a most useful natural product with which to reveal some of its many molecular secrets. Contextualizing and rethinking gliotoxinAspergillus fumigatus is an opportunistic fungal pathogen and primarily infects immunocompromised individuals where it can cause fatal invasive aspergillosis (IA) [1]. A. fumigatus exposure can also induce debilitating aspergillosis and allergy in immunocompetent individuals [2,3]. Selected secondary metabolites produced by A. fumigatus, in particular siderophores and the non-ribosomal peptide gliotoxin, are generally considered to be front-line virulence factors [4,5]. Gliotoxin is an epipolythiodioxopiperazine (ETP) of molecular mass 326 Da, and contains a disulfide bridge which can undergo repeating cleavage and reformation, thereby resulting in a potent intracellular redox activity (Figure 1) [6]. Indeed, the dithiol form of gliotoxin has also been posited to be responsible for the observed biological activities of gliotoxin [7]. Bisdethiobis(methylthio)gliotoxin (BmGT) and related gliotoxin metabolites (Figure 1) are also biosynthesized by A. fumigatus [8,9]. Incredibly, the gliotoxin biosynthetic pathway had remained elusive since the discovery of gliotoxin in 1936; however, recent studies have not only dissected this unusual molecular assembly system but have revealed the necessity for gliotoxin-producing fungi to possess an endogenous resistance system against gliotoxin [10,11]. Moreover, because gliotoxin can be considered as the prototype ETP, studies on gliotoxin can be instrumental in revealing the biosynthetic mechanisms of related ETPs which are biosynthesized by a range of fungi [12]. Amongst others, these include sirodesmin A, sporidesmin A, chaetocin, aranotin, and chetomin [13]. Studies on the biosynthetic mechanism of ETPs, particularly gliotoxin, are also serving to inspire new synthetic chemistry approaches for ETP synthesis and desulfurization, which are somewhat beyond the scope of the present review [13,14].In addition to studying how gliotoxin contributes to organismal virulence, it has also been deployed to explore and reveal novel biochemistry within both fungal and animal cells [15,16]. Thus, we contend that it is the ability of gliotoxin to interfere with so many cellular processes that makes it...

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Section: Gliotoxin Impact On Animal Cellsmentioning

confidence: 99%

Section: Gliotoxin Impact On Animal Cellsmentioning

confidence: 99%

Resistance is not futile: gliotoxin biosynthesis, functionality and utility

Dolan¹,

O’Keeffe²,

Jones

et al. 2015

Trends in Microbiology

146

View full text Add to dashboard Cite

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“…Several compounds have been reported to inhibit activity of HIF-1. Kwon et al, 2012; In particular, natural products such as Chetomin, (Kung et al, 2004) and other epidithioketopiperazine (ETP)-containing small molecules (Reece et al, 2014) have been reported to be potent HIF-1α:p300 inhibitors. However, the ETP motif has been shown to chelate one of the structurally important zinc atoms in p300/CBP, so this class of molecules are unlikely to be selective inhibitors.…”

Section: -The Hif-1:p300/cbp Interactionmentioning

confidence: 99%

Targeting protein–protein interactions (PPIs) of transcription factors: Challenges of intrinsically disordered proteins (IDPs) and regions (IDRs)

Sammak

Zinzalla

2015

Progress in Biophysics and Molecular Biology

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“…In fact, studies have effectively demonstrated inhibitors of this interaction in different cancers. 116,158,187,207 In several glioma cell lines, the inhibitor arylsulfonamide interfered with HIF-1 signaling and disrupted HIF-1a interaction with the nuclear cofactors CBP/p300, inhibiting in vivo glioma growth, 247 further suggesting the potential of the HIF-1a/CBP/p300 interaction as a therapeutic target in GBM.…”

Section: Cbp/p300mentioning

confidence: 99%

Hypoxia-inducible factor–1 and associated upstream and downstream proteins in the pathophysiology and management of glioblastoma

Womeldorff¹,

Gillespie²,

Jensen³

2014

FOC

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Glioblastoma multiforme (GBM) is a highly aggressive brain tumor with an exceptionally poor patient outcome despite aggressive therapy including surgery, radiation, and chemotherapy. This aggressive phenotype may be associated with intratumoral hypoxia, which probably plays a key role in GBM tumor growth, development, and angiogenesis. A key regulator of cellular response to hypoxia is the protein hypoxia-inducible factor–1 (HIF-1). An examination of upstream hypoxic and nonhypoxic regulation of HIF-1 as well as a review of the downstream HIF-1–regulated proteins may provide further insight into the role of this transcription factor in GBM pathophysiology. Recent insights into upstream regulators that intimately interact with HIF-1 could provide potential therapeutic targets for treatment of this tumor. The same is potentially true for HIF-1–mediated pathways of glycolysis-, angiogenesis-, and invasion-promoting proteins. Thus, an understanding of the relationship between HIF-1, its upstream protein regulators, and its downstream transcribed genes in GBM pathogenesis could provide future treatment options for the care of patients with these tumors.

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Epidithiodiketopiperazines (ETPs) exhibit in vitro antiangiogenic and in vivo antitumor activity by disrupting the HIF-1α/p300 complex in a preclinical model of prostate cancer

Cited by 80 publications

References 35 publications

Resistance is not futile: gliotoxin biosynthesis, functionality and utility

Resistance is not futile: gliotoxin biosynthesis, functionality and utility

Targeting protein–protein interactions (PPIs) of transcription factors: Challenges of intrinsically disordered proteins (IDPs) and regions (IDRs)

Hypoxia-inducible factor–1 and associated upstream and downstream proteins in the pathophysiology and management of glioblastoma

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