Pierre-Yves Renard

Water-Soluble BODIPY Derivatives

New, water-soluble BODIPY dyes have been readily obtained from various BODIPY cores by reactions involving the introduction of novel sulfonated peptide chains by either coupling or substitution to give dimethylpropargylamine derivatives subsequently quaternized by reaction with propanesultone.

Crystal structures of human cholinesterases in complex with huprine W and tacrine: elements of specificity for anti-Alzheimer's drugs targeting acetyl- and butyryl-cholinesterase

The multifunctional nature of Alzheimers disease calls for MTDLs (multitarget-directed ligands) to act on different components of the pathology, like the cholinergic dysfunction and amyloid aggregation. Such MTDLs are usually on the basis of cholinesterase inhibitors (e.g. tacrine or huprine) coupled with another active molecule aimed at a different target. To aid in the design of these MTDLs, we report the crystal structures of hAChE (human acetylcholinesterase) in complex with FAS-2 (fasciculin 2) and a hydroxylated derivative of huprine (huprine W), and of hBChE (human butyrylcholinesterase) in complex with tacrine. Huprine W in hAChE and tacrine in hBChE reside in strikingly similar positions highlighting the conservation of key interactions, namely, π-π/cation-π interactions with Trp86 (Trp82), and hydrogen bonding with the main chain carbonyl of the catalytic histidine residue. Huprine W forms additional interactions with hAChE, which explains its superior affinity: the isoquinoline moiety is associated with a group of aromatic residues (Tyr337, Phe338 and Phe295 not present in hBChE) in addition to Trp86; the hydroxyl group is hydrogen bonded to both the catalytic serine residue and residues in the oxyanion hole; and the chlorine substituent is nested in a hydrophobic pocket interacting strongly with Trp439. There is no pocket in hBChE that is able to accommodate the chlorine substituent.

7-hydroxycoumarin-hemicyanine hybrids: a new class of far-red emitting fluorogenic dyes.

The design and synthesis of novel water-soluble far-red emitting phenol-based fluorophores derived from 7-hydroxycoumarin are described. These hemicyanine-coumarin hybrids display promising spectroscopic features such as large apparent Stokes shift (ranging from 60 to 140 nm) and fluorescence emission maxima between 620 and 720 nm in physiological conditions. Their utility was then illustrated by the preparation of an original fluorogenic probe of penicillin G acylase (PGA) whose fluorescence is unveiled through an enzyme-initiated domino reaction.

Water-soluble red-emitting distyryl-borondipyrromethene (BODIPY) dyes for biolabeling.

A series of water-soluble red-emitting distyryl-borondipyrromethene (BODIPY) dyes were designed and synthesized by using three complementary approaches aimed at introducing water-solubilizing groups on opposite faces of the fluorescent core to reduce or completely suppress self-aggregation. An additional carboxylic acid functional group was introduced at the pseudo-meso position of the BODIPY scaffold for conjugation to amine-containing biomolecules/biopolymers. The optical properties of these dyes were evaluated under simulated physiological conditions (i.e., phosphate-buffered saline (PBS), pH 7.5) or in pure water. The emission wavelength (λ(max)) of these labels was found in the 640-660 nm range with quantum yields from modest to unprecedentedly high values (4 to 38%). The bioconjugation of these distyryl-BODIPY dyes with bovine serum albumin (BSA) and the monoclonal antibody (mAb) 12A5 was successfully performed under mild aqueous conditions.

Development of a New Nonpeptidic Self-Immolative Spacer. Application to the Design of Protease Sensing Fluorogenic Probes

The design and synthesis of novel self-immolative spacer systems aiming at the release of phenol-containing compounds are described. The newly designed traceless linkers proved to be conveniently stable under physiological conditions and operate through spontaneous decomposition of an hemithioaminal intermediate under neutral aqueous conditions. Their utility was then illustrated by the preparation of original fluorogenic substrates of penicillin amidase whose strong fluorescence is unveiled through enzyme-initiated domino reactions.

Human butyrylcholinesterase produced in insect cells: Huprine-based affinity purification and crystal structure

Butyrylcholinesterase (BChE) is a serine hydrolase that is present in all mammalian tissues. It can accommodate larger substrates or inhibitors than acetylcholinesterase (AChE), the enzyme responsible for hydrolysis of the neurotransmitter acetylcholine in the central nervous system and neuromuscular junctions. AChE is the specific target of organophosphorous pesticides and warfare nerve agents, and BChE is a stoichiometric bioscavenger. Conversion of BChE into a catalytic bioscavenger by rational design or designing reactivators specific to BChE required structural data obtained using a recombinant low‐glycosylated human BChE expressed in Chinese hamster ovary cells. This expression system yields ∼ 1 mg of pure enzyme per litre of cell culture. Here, we report an improved expression system using insect cells with a fourfold higher yield for truncated human BChE with all glycosylation sites present. We developed a fast purification protocol for the recombinant protein using huprine‐based affinity chromatography, which is superior to the classical procainamide‐based affinity. The purified BChE crystallized under different conditions and space group than the recombinant low‐glycosylated protein produced in Chinese hamster ovary cells. The crystals diffracted to 2.5 Å. The overall monomer structure is similar to the low‐glycosylated structure except for the presence of the additional glycans. Remarkably, the carboxylic acid molecule systematically bound to the catalytic serine in the low‐glycosylated structure is also present in this new structure, despite the different expression system, purification protocol and crystallization conditions.

Latent Fluorophores Based on a Self-Immolative Linker Strategy and Suitable for Protease Sensing†

The self-immolative spacer para-aminobenzyl alcohol (PABA) was used as a key component in the design of new protease-sensitive fluorogenic probes whose parent phenol-based fluorophore is released through an enzyme-initiated domino reaction. First, the conjugation of the phenylacetyl moiety to 7-hydroxycoumarin (umbelliferone) and 7-hydroxy-9 H-(9,9-dimethylacridin-2-one) (DAO) by means of the heterobifunctional PABA linker has led to pro-fluorophores 6a and 6d whose enzyme activation by penicillin amidase was demonstrated. The second part of this study was devoted to the extension of this latent fluorophore strategy to the caspase-3 protease, a key mediator of apoptosis in mammalian cells. Fluorogenic caspase-3 substrates 11 and 13 derived from umbelliferone and DAO, respectively, were prepared. It was demonstrated that pro-fluorophore 11 is a sensitive fluorimetric reagent for the detection of this cysteine protease. Furthermore, in vitro assays with fluorogenic probe 13 showed a deleterious effect of biological thiols on fluorescence of the released acridinone fluorophore DAO that, to our knowledge, had not been reported until now.

Synthesis and structure–activity relationship of Huprine derivatives as human acetylcholinesterase inhibitors

New series of Huprine (12-amino-6,7,10,11-tetrahydro-7,11-methanocycloocta[b]quinolines) derivatives have been synthesized and their inhibiting activities toward recombinant human acetylcholinesterase (rh-AChE) are reported. We have synthesized two series of Huprine analogues; in the first one, the benzene ring of the quinoline moiety has been replaced by different heterocycles or electron-withdrawing or electron-donating substituted phenyl group. The second one has been designed in order to evaluate the influence of modification at position 12 where different short linkers have been introduced on the Huprine X, Y skeletons. All these molecules have been prepared from ethyl- or methyl-bicyclo[3.3.1]non-6-en-3-one via Friedländer reaction involving selected o-aminocyano aromatic compounds. The synthesis of two heterodimers based on these Huprines has been also reported. Activities from moderate to same range than the most active Huprines X and Y taken as references have been obtained, the most potent analogue being about three times less active than parent Huprines X and Y. Topologic data have been inferred from molecular dockings and variations of activity between the different linkers suggest future structural modifications for activity improvement.

Phenyltetrahydroisoquinoline-pyridinaldoxime conjugates as efficient uncharged reactivators for the dephosphylation of inhibited human acetylcholinesterase.

Pyridinium and bis-pyridinium aldoximes are used as antidotes to reactivate acetylcholinesterase (AChE) inhibited by organophosphorus nerve agents. Herein, we described a series of nine nonquaternary phenyltetrahydroisoquinoline-pyridinaldoxime conjugates more efficient than or as efficient as pyridinium oximes to reactivate VX-, tabun- and ethyl paraoxon-inhibited human AChE. This study explores the structure-activity relationships of this new family of reactivators and shows that 1b-d are uncharged hAChE reactivators with a broad spectrum.

A highly sensitive competitive enzyme immunoassay of broad specificity quantifying microcystins and nodularins in water samples

Microcystins (MCs) form a group of cyclic heptapeptides produced by common cyanobacteria (blue green algae) and cause both acute and chronic toxicity. For immunization purposes, an amino derivative of MC-LR was prepared before coupling to BSA. Among the different monoclonal antibodies produced, mAb MC159 was selected due to its broad specificity to develop a sensitive enzyme immunoassay (EIA). This method measures MC-LR, MC-YR, MC-LA, nodularins in a similar way and exhibits an important recognition (cross reactivity up to 69%) for Adda analogues. Using MC-LR as standard, the present EIA proved to be very sensitive with a limit of detection close to 10 fmol/ml, largely below the provisional guideline level for drinking water proposed by the WHO (1 pmol/ml for MC-LR). This assay showed a high accuracy (CV% < 12) and a high recovery rate for MC-LR in spiked surface water (up to 96.5%). Moreover due to its broad spectrum of recognition, this method allows a real quantification of the sum of MCs in water bloom and cyanobacteria culture samples. Indeed, in parallel analysis of these samples using HPLC, EIA shows a good relationship between both measurements while LC-MS/MS demonstrates the presence of different variants of MCs whose heterogeneity did not impair EIA measurement.