Abstract #0696

Genetically functionalized magnetosomes as MRI contrast agent suitable for molecular imaging

Marianne Boucher ¹ , Nicolas Ginet ² , Franoise Geffroy ¹ , Sandra Prveral ² , Graldine Adryanczyk-Perrier ² , Michel Pean ² , Christopher T Lefvre ² , Daniel Garcia ² , David Pignol ² , and Sbastien Mriaux ¹

¹ UNIRS, CEA/DSV/I2BM/NeuroSpin, Saclay, France, ² LBC, CEA/DSV/IBEB/SBVME, Saint-Paul-lez-Durance, France

Magnetosomes are iron nanocrystals embedded in a lipid bilayer which are produced by magnetotactic bacteria. We propose to demonstrate the efficiency of magnetosomes as T ₂ contrast agent for MRI, and the feasibility of harvesting functionalized magnetosomes from genetically modified bacteria. RGD peptide, known for targeting α _ν β ₃ integrins, has been chosen for functionalization and the affinity of targeting magnetosomes is demonstrated with U87 cells. The contrasting properties of magnetosomes are assessed by acquiring T ₂ *w images prior and after injection and comparing number of detected hypointense voxels. Thus, magnetosomes possess MRI sensitivity and α _ν β ₃ specificity required for future molecular imaging experiments.

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