Targeting Chelatable Iron as a Therapeutic Modality in Parkinson's Disease

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Devos, David | Moreau, Caroline | Devedjian, Jean Christophe | Kluza, Jérome | Petrault, Maud | Laloux, Charlotte | Jonneaux, Aurélie | Ryckewaert, Gilles | Garçon, Guillaume | Rouaix, Nathalie | Duhamel, Alain | Jissendi, Patrice | Dujardin, Kathy | Auger, Florent | Ravasi, Laura | Hopes, Lucie | Grolez, Guillaume | Firdaus, Wance | Sablonnière, Bernard | Strubi-Vuillaume, Isabelle | Zahr, Noel | Destée, Alain | Corvol, Jean-Christophe | Pöltl, Dominik | Leist, Marcel | Rose, Christian | Defebvre, Luc | Marchetti, Philippe | Cabantchik, Z Ioav | Bordet, Régis

Edité par CCSD ; Mary Ann Liebert -

International audience. AIMS : The pathophysiological role of iron in Parkinson's disease (PD) was assessed by a chelation strategy aimed at reducing oxidative damage associated with regional iron deposition without affecting circulating metals. Translational cell and animal models provided concept proofs and a delayed-start (DS) treatment paradigm, the basis for preliminary clinical assessments. RESULTS : For translational studies, we assessed the effect of oxidative insults in mice systemically prechelated with deferiprone (DFP) by following motor functions, striatal dopamine (HPLC and MRI-PET), and brain iron deposition (relaxation-R2*-MRI) aided by spectroscopic measurements of neuronal labile iron (with fluorescence-sensitive iron sensors) and oxidative damage by markers of protein, lipid, and DNA modification. DFP significantly reduced labile iron and biological damage in oxidation-stressed cells and animals, improving motor functions while raising striatal dopamine. For a pilot, double-blind, placebo-controlled randomized clinical trial, early-stage Parkinson's patients on stabilized dopamine regimens enrolled in a 12-month single-center study with DFP (30 mg/kg/day). Based on a 6-month DS paradigm, early-start patients (n=19) compared to DS patients (n=18) (37/40 completed) responded significantly earlier and sustainably to treatment in both substantia nigra iron deposits (R2* MRI) and Unified Parkinson's Disease Rating Scale motor indicators of disease progression (p<0.03 and p<0.04, respectively). Apart from three rapidly resolved neutropenia cases, safety was maintained throughout the trial. INNOVATION : A moderate iron chelation regimen that avoids changes in systemic iron levels may constitute a novel therapeutic modality for PD. CONCLUSIONS : The therapeutic features of a chelation modality established in translational models and in pilot clinical trials warrant comprehensive evaluation of symptomatic and/or disease-modifying potential of chelation in PD.

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