Pierre Potìer scite author profile

The plausible biogenetic mechanism proposed in this communication clarifies the chemical pathway leading to over 60 polycyclic pyrrole‐imidazole marine alkaloids isolated from more than 20 different species of various genera (Agelas, Hymeniacidon, Axinella, Acanthella, Cymbastella, Phakellia...) of sponges. The tautomerism and ambivalent reactivity of 2‐aminoimidazole precursors provide a consistent chemical pathway explaining the intriguing formation of all the compounds of this class. The mechanistic proposal proposed here for the first time is unique in the sense that the chemical pathway is universal and therefore provides fertile intellectual ground for the study of the enzymatic mechanism involved in this system.

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Taxol and taxotere: discovery, chemistry, and structure-activity relationships

Guénard¹,

Guéritte-Voegelein²,

Potìer³

1993

Acc. Chem. Res.

435

196

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Relationships between the structure of taxol analogs and their antimitotic activity

Guéritte-Voegelein

Guénard²,

Lavelle³

et al. 1991

J. Med. Chem.

526

192

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A variety of synthetic analogues of taxol, a naturally occurring antitumor diterpene, were examined for their potency to inhibit microtubule disassembly. For some of the compounds, the in vitro cytotoxic properties showed a good correlation with the tubulin assay. This structure-activity relationship study shows that inhibition of microtubule disassembly is quite sensitive to the configuration at C-2' and C-3'. A correlation between the conformation of the side chain at C-13 and the activity is suggested. Of all the compounds examined, one of the most potent in inhibiting microtubule disassembly and in inhibiting murine P388 leukemic cells, N-debenzoyl-N-tert-(butoxycarbonyl)-10-deacetyltaxol, named taxotere, was selected for evaluation as a potential anticancer agent.

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Allele-Selective Inhibition of Mutant Huntingtin Expression with Antisense Oligonucleotides Targeting the Expanded CAG Repeat

et al. 2010

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Huntington's disease (HD) is a currently incurable neurodegenerative disease caused by the expansion of a CAG trinucleotide repeat within the huntingtin (HTT) gene. Therapeutic approaches include selectively inhibiting the expression of the mutated HTT allele while conserving function of the normal allele. We have evaluated a series of antisense oligonucleotides (ASOs) targeted to the expanded CAG repeat within HTT mRNA for their ability to selectively inhibit expression of mutant HTT protein. Several ASOs incorporating a variety of modifications, including bridged nucleic acids and phosphorothioate internucleotide linkages, exhibited allele-selective silencing in patient-derived fibroblasts. Allele-selective ASOs did not affect the expression of other CAG repeat-containing genes and selectivity was observed in cell lines containing minimal CAG repeat lengths representative of most HD patients. Allele-selective ASOs left HTT mRNA intact and did not support ribonuclease H activity in vitro. We observed cooperative binding of multiple ASO molecules to CAG repeat-containing HTT mRNA transcripts in vitro. These results are consistent with a mechanism involving inhibition at the level of translation. ASOs targeted to the CAG repeat of HTT provide a starting point for the development of oligonucleotide-based therapeutics that can inhibit gene expression with allelic discrimination in patients with HD.

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Structure of a synthetic taxol precursor: N-tert-butoxycarbonyl-10-deacetyl-N-debenzoyltaxol

Guéritte-Voegelein¹,

Guénard²,

Mangatal³

et al. 1990

Acta Crystallogr C

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Pierre Potìer

Sponge's Molecular Diversity Through the Ambivalent Reactivity of 2-Aminoimidazole: A Universal Chemical Pathway to the Oroidin-Based Pyrrole-Imidazole Alkaloids and Their Palau'amine Congeners

Taxol and taxotere: discovery, chemistry, and structure-activity relationships

Relationships between the structure of taxol analogs and their antimitotic activity

Allele-Selective Inhibition of Mutant Huntingtin Expression with Antisense Oligonucleotides Targeting the Expanded CAG Repeat

Structure of a synthetic taxol precursor: N-tert-butoxycarbonyl-10-deacetyl-N-debenzoyltaxol

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