Didier Peoc'h scite author profile

Didier Peoc'h

3Publications

90Citation Statements Received

71Citation Statements Given

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146

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Affiliations

University of Montpellier, Ionis Pharmaceuticals (United States), French National Centre for Scientific Research

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High-Field NMR and Restrained Molecular Modeling Studies on a DNA Heteroduplex Containing a Modified Apurinic Abasic Site in the Form of Covalently Linked 9-Aminoellipticine

Gc²,

Peoc'h³

et al. 1994

Biochemistry

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Two-dimensional NMR methods were used to model the possible solution structure of an intercalative complex of 9-aminoellipticine (Aell), a polycyclic pyridocarbazolamine, covalently bound to an apurinic ring-opened deoxyribose site of a duplex DNA fragment in the reduced Schiff base form. The required oligonucleotide single strand containing covalently attached aminoellipticine was obtained by reductive amination in the presence of sodium cyanoborohydride. The combined NMR-energy minimization methods were employed to refine the model structures of two distinct forms, intrahelical and extrahelical, of a control 9-mer duplex DNA, d(CGTG.dr.GTGC).d(GCACTCACG), which contains an apurinic site positioned opposite a dT residue on the complementary strand. The model structure of an aminoellipticine conjugate with the same DNA sequence, derivatized via the aforementioned covalent attachment, was also obtained by incorporating intermolecular drug-DNA and intra- and internucleotide NOE-derived proton-proton distance estimates as restraints in energy minimization routines. The indole ring system of aminoellipticine, which is inserted at the apurinic site, intercalates between and is parallel to flanking GC base pairs. The pyridinic ring of aminoellipticine, in protonated form, also stacks between cytidine and thymidine bases on the complementary strand, which is consistent with the observation that the normal sequential NOE connectivity at the 5'-C13-T14 step is broken and indeed diverted through the ellipticine moiety, e.g., C13-Aell-T14 connectivities through the Aell-H4/C5Me protons. Interestingly, the partial stacking of the pyridinic ring is observed only between the 5'-CT step vs an adjacent 5'-TC step, owing to inherently weak stacking interactions associated with the former. In the absence of any potential groups that can participate in electrostatic or hydrogen-bonding interactions with the nucleic acid, pi-pi stacking and hydrophobic contacts at the intercalation site appear to be the important factors in determining stability and conformation of the aminoellipticine-DNA conjugate. Stacking interactions in such a bistranded intercalative complexation of aminoellipticine apparently govern the formation of a single intrahelical form of a right-handed B-type DNA duplex. The overall structural features lead us to propose working models for an enzyme-like DNA cleavage activity of 9-aminoellipticine and the observed inhibition of the AP endonuclease-dependent DNA excision-repair pathway.

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Derivatization of Oligonucleotides Through Abasic Site Formation

Vasseur

Peoc'h

Rayner

et al. 1991

Nucleosides and Nucleotides

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Concept, Discovery and Development of MMI Linkage: Story of a Novel Linkage: for Antisense Constructs

Sanghvi

Swayze

Peoc'h

et al. 1997

Nucleosides and Nucleotides

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Methylene(_methylimino) or MMI linkage is a novel backbone modification that has enormous potential in the oligonucleotide-based antisense therapeutics as a replacement for the natural phosphodiester linkage. This presentation synopsis covers the rationale, detailed SAR on the optimization process of this linkage vs. others, various synthetic strategies to construct MMI linkage and a brief discussion on the biological properties of the modified oligonucleotides. INTRODUCTIONThe search for synthetic backbone surrogates of natural phosphodiester linkage has become one of the most actively pursued areas of research in antisense technology.' Our efforts in this area began in 1989, the year Isis was founded. At that time we knew that use of unmodified DNA or RNA as antisense molecules had significant limitations.' One of the major problems was associated with their nucleolytic degradation. Therefore,

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Didier Peoc'h

High-Field NMR and Restrained Molecular Modeling Studies on a DNA Heteroduplex Containing a Modified Apurinic Abasic Site in the Form of Covalently Linked 9-Aminoellipticine

Derivatization of Oligonucleotides Through Abasic Site Formation

Concept, Discovery and Development of MMI Linkage: Story of a Novel Linkage: for Antisense Constructs

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