Synthesis and Relaxivity Studies of a DOTA-Based Nanomolecular Chelator Assembly Supported by an Icosahedral Closo-B122− -Core for MRI: A Click Chemistry Approach

Satish S. Jalisatgi; M. Frederick Hawthorne; Peter J. Kueffer; Lixin Ma; Lalit N. Goswami

doi:10.3390/molecules18089034

Molecules (Jul 2013)

Synthesis and Relaxivity Studies of a DOTA-Based Nanomolecular Chelator Assembly Supported by an Icosahedral Closo-B122− -Core for MRI: A Click Chemistry Approach

Satish S. Jalisatgi,
M. Frederick Hawthorne,
Peter J. Kueffer,
Lixin Ma,
Lalit N. Goswami

Affiliations

Satish S. Jalisatgi
M. Frederick Hawthorne
Peter J. Kueffer
Lixin Ma
Lalit N. Goswami

DOI: https://doi.org/10.3390/molecules18089034
Journal volume & issue: Vol. 18, no. 8
pp. 9034 – 9048

Abstract

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An icosahedral closo-B122− scaffold based nano-sized assembly capable of carrying a high payload of Gd3+-chelates in a sterically crowded configuration is developed by employing the azide-alkyne click reaction. The twelve copies of DO3A-t-Bu-ester ligands were covalently attached to an icosahedral closo-B122− core via suitable linkers through click reaction. This nanomolecular structure supporting a high payload of Gd3+-chelate is a new member of the closomer MRI contrast agents that we are currently developing in our laboratory. The per Gd ion relaxivity (r1) of the newly synthesized MRI contrast agent was obtained in PBS, 2% tween/PBS and bovine calf serum using a 7 Tesla micro MRI instrument and was found to be slightly higher (r1 = 4.7 in PBS at 25 °C) compared to the clinically used MRI contrast agents Omniscan (r1 = 4.2 in PBS at 25 °C) and ProHance (r1 = 3.1 in PBS at 25 °C).

Published in Molecules

ISSN: 1420-3049 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Chemistry: Organic chemistry
Website: http://www.mdpi.com/journal/molecules

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