Sequence specific peptidomimetic molecules inhibitors of a protein-protein interaction at the helix 1 level of c-Myc
- Creators
- NIEDDU, ERIKA
- Melchiori, A.
- Pescarolo, M. P.
- BAGNASCO, LUCA
- Biasotti, B.
- Licheri, B.
- Malacarne, D.
- TORTOLINA, LORENZO
- CASTAGNINO, NICOLETTA
- PASA, STEFANIA
- CIMOLI, GUIDO
- AVIGNOLO, CARLO
- PONASSI, RAFFAELLA
- Balbi, C.
- Patrone, E.
- D'Arrigo, C.
- Barboro, P.
- VASILE, FRANCESCA
- ORECCHIA, PAOLA
- Carnemolla, B.
- DAMONTE, GIANLUCA
- MILLO, ENRICO
- Palomba, D.
- Fassina, G.
- MAZZEI, MAURO
- PARODI, SILVIO
- Others:
- Nieddu, Erika
- Melchiori, A.
- Pescarolo, M. P.
- Bagnasco, Luca
- Biasotti, B.
- Licheri, B.
- Malacarne, D.
- Tortolina, Lorenzo
- Castagnino, Nicoletta
- Pasa, Stefania
- Cimoli, Guido
- Avignolo, Carlo
- Ponassi, Raffaella
- Balbi, C.
- Patrone, E.
- D'Arrigo, C.
- Barboro, P.
- Vasile, Francesca
- Orecchia, Paola
- Carnemolla, B.
- Damonte, Gianluca
- Millo, Enrico
- Palomba, D.
- Fassina, G.
- Mazzei, Mauro
- Parodi, Silvio
Description
Our work is focused in the broad area of strategies and efforts to inhibit protein-protein interactions. The possible strategies in this field are definitely much more varied than in the case of ATP-pocket inhibitors. In our previous work (10), we reported that a retro-inverso (RI) form of Helix1 (H1) of c-Myc, linked to an RI-internalization sequence arising from the third alpha-helix of Antennapedia (Int) was endowed with an antiproliferative and proapoptotic activity toward the cancer cell lines MCF-7 and HCT-116. The activity apparently was dependent upon the presence of the Myc motif. In this work, by ala-scan mapping of the H1 portion of our molecules with D-aa, we found two amino acids necessary for antiproliferative activity: D-Lys in 4 and D-Arg in 5 (numbers refer to L-forms). In the natural hetero-dimer, these two side chains project to the outside of the four alpha-helix bundle. Moreover, we were able to obtain three peptides more active than the original lead. They strongly reduced cell proliferation and survival (RI-Int-VV-H1-E2A,S6A,F8A; RI-Int-VV-H1-S6A,F8A,R11A; RI-Int-VV-H1-S6A,F8A,Q13A): after 8 days at 10 muM total cell number was approximately 1% of the number of cells initially seeded. In these more potent molecules, the ablated side chains project to the inside in the corresponding natural four alpha-helix bundle. In the present work, we also investigated the behavior of our molecules at the biochemical level. Using both a circular dichroism (CD) and a fluorescence anisotropy approach, we noted that side chains projecting at the interior of the four alpha-helix bundle are needed for inducing the partial unfolding of Myc-H2, without an opening of the leucine zipper. Side chains projecting at the outside are not required for this biochemical effect. However, antiproliferative activity had the opposite requirements: side chains projecting at the outside of the bundle were essential, and, on the contrary, ablation of one side chain at a time projecting at the inside increased rather than decreased biological activity. We conclude that our active molecules probably interfere at the level of a protein-protein interaction between Myc-Max and a third protein of the transcription complex. Finally, CD and nuclear magnetic resonance (NMR) data, plus dynamic simulations, suggest a prevalent random coil conformation of the H1 portion of our molecules, at least in diluted solutions. The introduction of a kink (substitution with proline in positions 5 or 7) led to an important reduction of biological activity. We have also synthesized a longer peptido-mimetic molecule (RI-Int-H1-S6A,F8A-loop-H2) with the intent of obtaining a wider zone of interaction and a stronger interference at the level of the higher-order structure (enhanceosome). RI-Int-H1-S6A,F8A-loop-H2 was less active rather than more active in respect to RI-Int-VV-H1-S6A,F8A, apparently because it has a clear bent to form a beta-sheet (CD and NMR data).
Additional details
- URL
- http://hdl.handle.net/11567/847098
- URN
- urn:oai:iris.unige.it:11567/847098
- Origin repository
- UNIGE