TY  - JOUR
A1  - Sanges, C.
A1  - Scheuermann, C.
A1  - Zahedi, R. P.
A1  - Sickmann, A.
A1  - Lamberti, A.
A1  - Migliaccio, N.
A1  - Baljuls, A.
A1  - Marra, M.
A1  - Zappavigna, S.
A1  - Reinders, J.
A1  - Rapp, U.
A1  - Abbruzzese, A.
A1  - Caraglia, M.
A1  - Arcari, P.
T1  - Raf kinases mediate the phosphorylation of eukaryotic translation elongation factor 1A and regulate its stability in eukaryotic cells
JF  - Cell Death and Disease
N2  - We identified eukaryotic translation elongation factor 1A (eEF1A) Raf-mediated phosphorylation sites and defined their role in the regulation of eEF1A half-life and of apoptosis of human cancer cells. Mass spectrometry identified in vitro S21 and T88 as phosphorylation sites mediated by B-Raf but not C-Raf on eEF1A1 whereas S21 was phosphorylated on eEF1A2 by both B- and C-Raf. Interestingly, S21 belongs to the first eEF1A GTP/GDP-binding consensus sequence. Phosphorylation of S21 was strongly enhanced when both eEF1A isoforms were preincubated prior the assay with C-Raf, suggesting that the eEF1A isoforms can heterodimerize thus increasing the accessibility of S21 to the phosphate. Overexpression of eEF1A1 in COS 7 cells confirmed the phosphorylation of T88 also in vivo. Compared with wt, in COS 7 cells overexpressed phosphodeficient (A) and phospho-mimicking (D) mutants of eEF1A1 (S21A/D and T88A/D) and of eEF1A2 (S21A/D), resulted less stable and more rapidly proteasome degraded. Transfection of S21 A/D eEF1A mutants in H1355 cells increased apoptosis in comparison with the wt isoforms. It indicates that the blockage of S21 interferes with or even supports C-Raf induced apoptosis rather than cell survival. Raf-mediated regulation of this site could be a crucial mechanism involved in the functional switching of eEF1A between its role in protein biosynthesis and its participation in other cellular processes.
KW  - EF-1A
KW  - Raf kinases
KW  - signal transduction
KW  - apoptosis
KW  - ubiquitin
KW  - mass spectrometry
Y1  - 2012
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-124149
VL  - 3
IS  - e276
ER  - 
TY  - JOUR
A1  - Sanges, C.
A1  - Scheuermann, C.
A1  - Zahedi, R. P.
A1  - Sickmann, A.
A1  - Lamberti, A.
A1  - Migliaccio, N.
A1  - Baljuls, A.
A1  - Marra, M.
A1  - Zappavigna, S.
A1  - Rapp, U.
A1  - Abbruzzese, A.
A1  - Caraglia, M.
A1  - Arcari, P.
T1  - Raf kinases mediate the phosphorylation of eukaryotic translation elongation factor 1A and regulate its stability in eukaryotic cells
JF  - Cell Death & Disease
N2  - We identified eukaryotic translation elongation factor 1A (eEF1A) Raf-mediated phosphorylation sites and defined their role in the regulation of eEF1A half-life and of apoptosis of human cancer cells. Mass spectrometry identified in vitro S21 and T88 as phosphorylation sites mediated by B-Raf but not C-Raf on eEF1A1 whereas S21 was phosphorylated on eEF1A2 by both B-and C-Raf. Interestingly, S21 belongs to the first eEF1A GTP/GDP-binding consensus sequence. Phosphorylation of S21 was strongly enhanced when both eEF1A isoforms were preincubated prior the assay with C-Raf, suggesting that the eEF1A isoforms can heterodimerize thus increasing the accessibility of S21 to the phosphate. Overexpression of eEF1A1 in COS 7 cells confirmed the phosphorylation of T88 also in vivo. Compared with wt, in COS 7 cells overexpressed phosphodeficient (A) and phospho-mimicking (D) mutants of eEF1A1 (S21A/D and T88A/D) and of eEF1A2 (S21A/D), resulted less stable and more rapidly proteasome degraded. Transfection of S21 A/D eEF1A mutants in H1355 cells increased apoptosis in comparison with the wt isoforms. It indicates that the blockage of S21 interferes with or even supports C-Raf induced apoptosis rather than cell survival. Raf-mediated regulation of this site could be a crucial mechanism involved in the functional switching of eEF1A between its role in protein biosynthesis and its participation in other cellular processes.
KW  - signal transduction
KW  - mass spectrometry
KW  - elongation
KW  - protein docking
KW  - factor EEF1A2
KW  - cancer-cells
KW  - lung cancer
KW  - EF-1A
KW  - Raf kinases
KW  - aminoacyl-transfer-RNA
KW  - tyrosine phosphorylation
KW  - factor 1-alpha
KW  - nucleotide exchange
KW  - polyarcylamide gels
KW  - chain
KW  - apoptosis
KW  - ubiquitin
Y1  - 2012
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-134673
VL  - 3
IS  - e276
ER  - 
TY  - JOUR
A1  - Makoah Nigel, Animake
A1  - Arndt, Hans-Dieter
A1  - Pradel, Gabriele
T1  - The proteasome of malaria parasites: A multi-stage drug target for chemotherapeutic intervention?
JF  - International Journal for Parasitology: Drugs and Drug Resistance
N2  - The ubiquitin/proteasome system serves as a regulated protein degradation pathway in eukaryotes, and is involved in many cellular processes featuring high protein turnover rates, such as cell cycle control, stress response and signal transduction. In malaria parasites, protein quality control is potentially important because of the high replication rate and the rapid transformations of the parasite during life cycle progression. The proteasome is the core of the degradation pathway, and is a major proteolytic complex responsible for the degradation and recycling of non-functional ubiquitinated proteins. Annotation of the genome for Plasmodium falciparum, the causative agent of malaria tropica, revealed proteins with similarity to human 26S proteasome subunits. In addition, a bacterial ClpQ/hslV threonine peptidase-like protein was identified. In recent years several independent studies indicated an essential function of the parasite proteasome for the liver, blood and transmission stages. In this review, we compile evidence for protein recycling in Plasmodium parasites and discuss the role of the 26S proteasome as a prospective multi-stage target for antimalarial drug discovery programs.
KW  - plasmodium falciparum
KW  - proteasome
KW  - ubiquitin
KW  - inhibitor
Y1  - 2012
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-137777
VL  - 2
ER  -