3 publications

3 publications

Coordination Chemistry Studies and Peroxidase Activity of a New Artificial Metalloenzyme Built by the “Trojan Horse” Strategy

Mahy, J.-P.

J. Mol. Catal. A: Chem. 2010, 317, 19-26, 10.1016/j.molcata.2009.10.016

In the general context of green chemistry, a considerable research effort is devoted to the elaboration of new artificial metalloproteins that catalyze, under mild conditions, the oxidation of a wide range of organic compounds, using cheap and environmentally friendly oxidants. A new artificial hemoprotein was obtained by the so-called “Trojan horse” strategy involving the non-covalent insertion of a cationic iron–porphyrin–estradiol cofactor into an anti-estradiol antibody. UV–vis titrations showed the formation of a 1/2 antibody/cofactor complex with a dissociation constant KD = 4.10−7 M. UV–vis determination of the Fe-imidazole binding constants showed that the protein provided a weak steric hindrance around the iron–porphyrin cofactor. The antibody–estradiol–iron–porphyrin complex displayed a peroxidase activity and catalyzed the oxidation of ABTS by H2O2 with about double the efficiency of the iron–porphyrin–estradiol alone. Kinetic studies revealed that this was due to a faster formation of the intermediate high valent iron–oxo species in the presence of the antibody protein. Consequently, the association of an anti-estradiol antibody with an iron–porphyrin–estradiol cofactor leads to a new artificial hemoprotein with an interesting peroxidase activity and the “Trojan horse” strategy appears as a valuable method to generate artificial metalloenzymes that could act as biocatalysts for selective oxidations.


Metal: Fe
Ligand type: Porphyrin
Host protein: Antibody 7A3
Anchoring strategy: Supramolecular
Optimization: ---
Max TON: ---
ee: ---
PDB: ---
Notes: k1 = 574 M-1 * min-1

Oxidation of Organic Molecules in Homogeneous Aqueous Solution Catalyzed by Hybrid Biocatalysts (Based on the Trojan Horse Strategy)

Mahy, J.-P.

Tetrahedron: Asymmetry 2010, 21, 1593-1600, 10.1016/j.tetasy.2010.03.050

New anionic metalloporphyrin–estradiol conjugates have been synthesized and fully characterized, and have been further associated to a monoclonal anti-estradiol antibody 7A3, to generate new artificial metalloenzymes following the so-called ‘Trojan Horse’ strategy. The spectroscopic characteristics and dissociation constants of these complexes were similar to those obtained for the artificial metalloproteins obtained by association of cationic metalloporphyrin–estradiol conjugates to 7A3. This demonstrates that the nature of the porphyrin substituents, anionic or cationic, had little influence on the association with the antibody that is mainly driven by the tight association of the estradiol anchor with the binding pocket of the antibody. These new biocatalysts appeared to have an interesting catalytic activity in oxidation reactions. The iron(III)–anionic-porphyrin–estradiol-antibody complexes were found able to catalyze the chemoselective and slightly enantioselective (ee = 10%) sulfoxidation of sulfides by H2O2. The Mn(III)–porphyrin–estradiol-antibody complexes were found to catalyze the oxidation of styrene by KHSO5, the Mn(III)–cationic-porphyrin–estradiol-antibody complexes even showing the highest yields so far reported for the oxidation of styrene catalyzed by artificial metalloproteins. However, a lack of chemoselectivity and enantioselectivity was observed, which was probably due to a weak interaction of the metalloporphyrin cofactor with the binding pocket of antibody 7A3, as suggested by the similar UV–visible characteristics and catalytic activities obtained with both anionic and cationic porphyrins.


Metal: Fe
Ligand type: Porphyrin
Host protein: Antibody 7A3
Anchoring strategy: Supramolecular
Optimization: ---
Reaction: Sulfoxidation
Max TON: 9
ee: 10
PDB: ---
Notes: ---

Metal: Mn
Ligand type: Porphyrin
Host protein: Antibody 7A3
Anchoring strategy: Supramolecular
Optimization: ---
Reaction: Epoxidation
Max TON: 105
ee: ---
PDB: ---
Notes: Imidazole as co-catalyst

Synthesis of a New Estradiol–Iron Metalloporphyrin Conjugate Used to Build up a New Hybrid Biocatalyst for Selective Oxidations by the ‘Trojan Horse’ Strategy

Mahy, J.-P.

Tetrahedron Lett. 2008, 49, 1865-1869, 10.1016/j.tetlet.2008.01.022

The synthesis of a new cationic iron metalloporphyrin–estradiol conjugate is reported. After a study of its association with the anti-estradiol antibody 7A3 by UV–visible spectroscopy, the influence of the antibody on the sulfoxidation of thioanisole by H2O2 catalyzed by the iron–metalloporphyrin has been investigated.


Metal: Fe
Ligand type: Porphyrin
Host protein: Antibody 7A3
Anchoring strategy: Supramolecular
Optimization: ---
Reaction: Sulfoxidation
Max TON: 12
ee: 8
PDB: ---
Notes: ---