PKCα interagit avec la sous-unité catalytique de la m1A58 ARNt méthyltransférase Trm6-Trm61 / PKCα interacts with the catalytic subunit of the tRNA m1A58 methyltransferase Trm6-Trm61.

El Houfi, Younas

23 March 2011

La protéine kinase C alpha (PKCα) est une sérine/thréonine kinase ubiquitaire. Elle intervient dans la régulation de différentes fonctions cellulaires en interagissant avec de nombreuses protéines. Parmi ces dernières, nous avons réussi à identifier Trm61, la sous-unité catalytique de la m1A58 ARNt méthyltransférase qui joue un rôle essentiel dans la stabilité de l'ARNtiMet. Les études de localisation de PKCα et des deux sous-unités Trm6 et Trm61 ont permis de démonter que ces deux sous-unités ne partagent pas toujours les mêmes compartiments cellulaires : si la sous-unité Trm6 est toujours nucléaire, la Trm61 est pancellulaire et se co-localise avec PKCα dans le cytoplasme. Nous avons apporté la preuve que l'augmentation de l'expression de PKCα entraîne une diminution de Trm61, alors que la diminution de l'expression de PKCα s'accompagne d'une augmentation aussi bien de Trm61 que d'ARNtiMet et se traduit par une importante augmentation de la prolifération à forte densité cellulaire. Ce travail a permis également de démontrer que la sous-unité Trm61 est essentielle pour la survie des cellules C6. La surexpression de Trm6 et/ou de Trm61 a permis de pointer la Trm6 comme le déterminant essentiel du niveau de la m1A58 ARNt méthyltransférase fonctionnelle et de suggérer un rôle secondaire de Trm61 cytoplasmique dans la régulation de la prolifération de façon indépendante de l'action du complexe Trm6-Trm61. De façon intéressante, les gliomes de bas grade présentent des taux plus élevés d'ARNm PKCα que les glioblastomes et inversement pour les taux des ARNm TRM6 et TRM61, apportant un argument en faveur de la relevance de nos observations dans la tumorigenèse gliale humaine. / Protein kinase C alpha (PKCα) is a ubiquitous serine/threonine kinase. It is involved in the regulation of various cellular functions by interacting with many intracellular proteins. Among these, we were able to identify Trm61, the catalytic subunit of the tRNA m1A58 methyltransferase which plays an essential role in the stability of the tRNAiMet. Localization studies of PKCα, Trm6 and Trm61 demonstrated that these two subunits do not always share the same subcellular compartment: while Trm6 is strictly nuclear, Trm61 is both in the nucleus and in the cytoplasm where it co-localizes with PKCα. We also provided the evidence that the increased expression of PKCα induces a decrease in that of Trm61, while reduced PKCα expression is accompanied by an increase in both Trm61 and tRNAiMet levels. These changes in expression are accompanied by a significant increase in cell proliferation at high-density. This work has also shown that Trm61 subunit is essential for the survival of the C6 glioma cell line. Our results suggest that Trm6 is the essential determinant of functional tRNA m1A58 methyltransferase level and we discuss the possibility of a secondary role for cytoplasmic Trm61 in the regulation of the proliferation independently of Trm6-Trm61 action. Interestingly, human grade II and III gliomas expressed higher levels of PKCα mRNA than glioblastomas and inversely for TRM6 and TRM61 mRNA levels, arguing for a relevance of our observations for human gliomagenesis.

PKCα

Trm6-Trm61

ARNtiMet

Traduction

Gliome

Prolifération

PKCα

Trm6-Trm61

TRNAiMet

Translation

Glioma

Proliferation

Functional aspects of modified nucleosides in tRNA

Xu, Hao

January 2015

Transfer ribonucleic acids (tRNAs) are extensively modified, especially their anticodon loops. Modifications at position 34 (wobble base) and 37 in these loops affect the tRNAs’ decoding ability, while modifications outside the anticodon loops, e.g. m1A58 of tRNAMeti, may be crucial for tRNA structure or stability. A number of gene products are required for the formation of modified nucleosides, e.g. at least 26 proteins (including Elongator complex) are needed for U34 modifications in yeast, and methyl transferase activity of the Trm6/61p complex is needed to form m1A58. The aim of the studies which this thesis is based upon was to investigate the functional aspects of tRNA modifications and regulation of the modifying enzymes’ activity. First, the hypothesis that ncm5U34, mcm5U34, or mcm5s2U34 modifications may be essential for reading frame maintenance was investigated. The results show that mcm5 and s2 group of mcm5s2U play a vital role in reading frame maintenance. Subsequent experiments showed that the +1 frameshifting event at Lys AAA codon occurs via peptidyl-tRNA slippage due to a slow entry of the hypomodified tRNA-Lys. Moreover, the hypothesis that Elp1p N-terminal truncation may regulate Elongator activity was investigated. Cleavage of Elp1p was found to occur between residue 203 (Lys) and 204 (Ala) and to depend on the vacuolar protease Prb1p. However, including trichloroacetic acid (TCA) during protein extraction abolished the appearance of truncated Elp1p, showing that its truncation is a preparation artifact. Finally, in glioma cell line C6, PKCα was found to interact with TRM61. RNA silencing of TRM6/61 causes a growth defect that can be partially suppressed by tRNAMeti overexpression. PKCα overexpression reduces the nuclear level of TRM61, likely resulting in reduced level of TRM6/61 complex in the nucleus. Furthermore, lower expression of PKCα in the highly aggressive GBM (relative to its expression in less aggressive Grade II/III glioblastomas) is accompanied by increased expression of TRM6/61 mRNAs and tRNAMeti, highlighting the clinical relevance of the studies.

tRNA modification

frameshifting

Elongator complex

Elp1p

Prb1p

proteolysis

glioma

TRM6/61

PKCα

Analýza vlivu PKC alfa na invazivitu nádorových buněk. / Analysis of PKCα Influence on Cancer Cell Invasion.

Szabadosová, Emília

January 2014

7 Abstract Protein kinase C alpha (PKCα) is a serine/threonine protein kinase. PKCα is an important protein regulating cell polarity, protein secretion, apoptosis, cell proliferation and differentiation and tumorogenesis. Previous research has shown a role of PKCα also in a cancer cell migration and cancer cell invasion. The aim of this study was to investigate the role of protein kinase C alpha (PKCα) played in amoeboid mode of cancer cell invasion. We showed that higher expression of PKCα resulted in mesenchymal-amoeboid transition of K2 and MDA mesenchymal cancer cell lines, which was accompanied with decreased cancer cell invasive capability in 3D collage matrix. PKCα overexpression had no effect on the cell morphology of A375m2, however, the results showed a trend in increased invasive potential of A375m2 cells. Conversely, the expression of dominant-negative PKCα resulted in amoeboid-mesenchymal transition of A375m2 cells, and it was associated with decreased invasive potential of K2 and MDA cell lines. Furthermore, a linkage between PKCα and phosphatidylinositol 3-kinase (PI3K) was tested. The results revealed that increased activity of PKCα was accompanied with decreased level of active Akt in K2 cell line. To summarize, our results suggest a probable role of PKCα in regulation of amoeboid...

Studium úlohy proteinkinázy C alfa v améboidní invazivitě nádorových buněk / Studium úlohy proteinkinázy C alfa v améboidní invazivitě nádorových buněk

Vaškovičová, Katarína

January 2012

1. Abstract Protein kinase C α (PKCα) is a serine/threonine protein kinase regulating many different signaling pathways. The aim of this study was to investigate the potential role of PKCα in amoeboid morphology and invasion of cancer cells. It was observed, that expression of PKCα as well as its phosphorylation on Thr497 remained unchanged upon amoeboid-mesenchymal transition of A375m2 cells (induced by inhibition of ROCK kinase) both in 3D and in 2D environment. However, activation of PKCα by PKC activator treatment resulted in mesenchymal- amoeboid transition of K2 and MDA-MB-231 mesenchymal cell lines, although it did not change overall invasivity ability of cells to invade 3D collagen. Notably, PKCα activation significantly reduced matrix degrading abilities of A375m2 cells. Conversely, inhibition of PKCα by PKCα inhibitor treatment caused amoeboid-mesenchymal transition of amoeboid A375m2 cells and it was associated with decreased invasiveness of all three cell lines used. PKCα inhibitor did not have any effect on gelatin degradation area of A375m2 cells. Consistently, specific siRNA mediated downregulation of PKCα lead to transition from amoeboid to mesenchymal morphology of A375m2 cells and reduced invasiveness of cells into 3D collagen. Moreover, gelatin degrading abilities of A375m2 cells were...