α-Amino acid N-thiocarboxyanhydrides (NTAs)
are promising cyclic monomers to synthesize polypeptides and polypeptoids
via controlled ring-opening polymerizations. Superior to N-carboxyanhydrides requiring protection on hydroxyl groups, NTAs
are able to tolerate such nucleophiles. In this work, we report the
synthesis of NTA monomers containing unprotected phenolic hydroxyl
groups of 3,4-dihydroxy-l-phenylalanine (DOPA) and l-tyrosine (Tyr). Their controlled ROPs and sequential copolymerizations
with polysarcosine (PSar) yield PDOPA, PTyr, and PDOPA-b-polysarcosine (PDOPA-b-PSar) products quantitatively
with designable degrees of polymerization. Micellar nanoparticles
of Fe3+@PDOPA-b-PSar have been prepared
thanks to the strong chelation of iron(III) cation by catechol ligands
that act as T1-weighted magnetic resonance imaging (MRI) contrast
agents. For instance, Fe3+@PDOPA10-b-PSar50 exhibits higher longitudinal relaxivity (r
1 = 5.6 mM–1 s–1) than commercial Gd3+-based compounds. Effective MRI
contrast enhancement in vivo of nude mice with a moderate duration
(150 min) and 3D magnetic resonance angiography in rabbit illustrated
by using volume rendering and maximal intensity projection techniques
ignite the clinical application of Fe3+-based polypept(o)ides
in diagnostic radiology as Gd-free MRI contrast agents.
Fluorescent and biocompatible polymersomes based on the amphiphilic block copolypeptoid P(TPE-NAG)-b-PSar are promising for bio-imaging and drug delivery applications.
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