Targeting of eEF1A with<i>Amaryllidaceae</i>isocarbostyrils as a strategy to combat melanomas

Goietsenoven, Gwendoline Van; Hutton, Jenna L.; Becker, Jean-Paul; Lallemand, Benjamin; Robert, Françis; Lefranc, Florence; Pirker, Christine; Vandenbussche, Guy; Antwerpen, Pierre Van; Evidente, Antonio; Berger, Walter; Prévost, Martine; Pelletier, Jerry; Kiss, Róbert; Kinzy, Terri Goss; Kornienko, Alexander; Mathieu, Véronique

doi:10.1096/fj.10-162263

Cited by 117 publications

(122 citation statements)

References 47 publications

(84 reference statements)

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“…The key role for Gcn2 in regulating protein synthesis and many additional key processes in higher eukaryotes, such as memory formation and the immune system (34,35), together with protein synthesis being central to life, underscore the importance of further elucidating the connections between translation elongation factors and GAAC. Interestingly, eEF1A has been linked to many diseases, including cancer (36,37), and Gcn2 has been implicated in the cell cycle (38). Furthermore, eEF1A is known to have many additional functions outside of protein synthesis, such as regulating the actin cytoskeleton, apoptosis, and protein degradation (26), raising the intriguing possibility that eEF1A may be involved in fine-tuning Gcn2 activity to various cellular conditions.…”

Section: Discussionmentioning

confidence: 99%

Evidence That Eukaryotic Translation Elongation Factor 1A (eEF1A) Binds the Gcn2 Protein C Terminus and Inhibits Gcn2 Activity*

Visweswaraiah¹,

Sebastien²,

Castilho³

et al. 2011

Journal of Biological Chemistry

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The eukaryotic elongation factor 1A (eEF1A) delivers aminoacyl-tRNAs to the ribosomal A-site during protein synthesis. To ensure a continuous supply of amino acids, cells harbor the kinase Gcn2 and its effector protein Gcn1. The ultimate signal for amino acid shortage is uncharged tRNAs. We have proposed a model for sensing starvation, in which Gcn1 and Gcn2 are tethered to the ribosome, and Gcn1 is directly involved in delivering uncharged tRNAs from the A-site to Gcn2 for its subsequent activation. Gcn1 and Gcn2 are large proteins, and these proteins as well as eEF1A access the A-site, leading us to investigate whether there is a functional or physical link between these proteins. Using Saccharomyces cerevisiae cells expressing His 6 -eEF1A and affinity purification, we found that eEF1A coeluted with Gcn2. Furthermore, Gcn2 co-immunoprecipitated with eEF1A, suggesting that they reside in the same complex. The purified GST-tagged Gcn2 C-terminal domain (CTD) was sufficient for precipitating eEF1A from whole cell extracts generated from gcn2⌬ cells, independently of ribosomes. Purified GST-Gcn2-CTD and purified His 6 -eEF1A interacted with each other, and this was largely independent of the Lys residues in Gcn2-CTD known to be required for tRNA binding and ribosome association. Interestingly, Gcn2-eEF1A interaction was diminished in amino acid-starved cells and by uncharged tRNAs in vitro, suggesting that eEF1A functions as a Gcn2 inhibitor. Consistent with this possibility, purified eEF1A reduced the ability of Gcn2 to phosphorylate its substrate, eIF2␣, but did not diminish Gcn2 autophosphorylation. These findings implicate eEF1A in the intricate regulation of Gcn2 and amino acid homeostasis.

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Section: Discussionmentioning

confidence: 99%

Evidence That Eukaryotic Translation Elongation Factor 1A (eEF1A) Binds the Gcn2 Protein C Terminus and Inhibits Gcn2 Activity*

Visweswaraiah¹,

Sebastien²,

Castilho³

et al. 2011

Journal of Biological Chemistry

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“…Narciclasine is a small drug-like molecule that binds eEF1A and inhibits its actin bundling activity (39). Lat B binds actin monomers, triggering F-actin depolymerization (40).…”

Section: Tef1pmentioning

confidence: 99%

Yeast Translation Elongation Factor-1A Binds Vacuole-localized Rho1p to Facilitate Membrane Integrity through F-actin Remodeling

Bodman¹,

Yang

Logan

et al. 2015

Journal of Biological Chemistry

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“…1), are of interest due to their promising anticancer properties [21]. Thus, narciclasine and lycorine have been actively investigated for their potent anti-tumor effects, both in vitro and in vivo , in various pre-clinical models of human cancers by many research groups [22–30], including their evaluation as cytostatic agents active against apoptosis-resistant cancers by us [31–37]. The anti-proliferative activity of the crinine-type alkaloids has also been reported by natural product chemists on numerous occasions [38–44].…”

Section: Introductionmentioning

confidence: 99%

5,10b-Ethanophenanthridine amaryllidaceae alkaloids inspire the discovery of novel bicyclic ring systems with activity against drug resistant cancer cells

Henry

Kidner

Reisenauer

et al. 2016

European Journal of Medicinal Chemistry

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Plants of the Amaryllidaceae family produce a large variety of alkaloids and non-basic secondary metabolites, many of which are investigated for their promising anticancer activities. Of these, crinine-type alkaloids based on the 5,10b-ethanophenanthridine ring system were recently shown to be effective at inhibiting proliferation of cancer cells resistant to various pro-apoptotic stimuli and representing tumors with dismal prognoses refractory to current chemotherapy, such as glioma, melanoma, non-small-cell lung, esophageal, head and neck cancers, among others. Using this discovery as a starting point and taking advantage of a concise biomimetic route to the crinine skeleton, a collection of crinine analogues were synthetically prepared and evaluated against cancer cells. The compounds exhibited single-digit micromolar activities and retained this activity in a variety of drug-resistant cancer cell cultures. This investigation resulted in the discovery of new bicyclic ring systems with significant potential in the development of effective clinical cancer drugs capable of overcoming cancer chemotherapy resistance.

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Targeting of eEF1A withAmaryllidaceaeisocarbostyrils as a strategy to combat melanomas

Cited by 117 publications

References 47 publications

Evidence That Eukaryotic Translation Elongation Factor 1A (eEF1A) Binds the Gcn2 Protein C Terminus and Inhibits Gcn2 Activity*

Evidence That Eukaryotic Translation Elongation Factor 1A (eEF1A) Binds the Gcn2 Protein C Terminus and Inhibits Gcn2 Activity*

Yeast Translation Elongation Factor-1A Binds Vacuole-localized Rho1p to Facilitate Membrane Integrity through F-actin Remodeling

5,10b-Ethanophenanthridine amaryllidaceae alkaloids inspire the discovery of novel bicyclic ring systems with activity against drug resistant cancer cells

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