Encapsulation of a Radiolabeled Cluster Inside a Fullerene Cage, ¹⁷⁷Lu_xLu_(3−x)N@C₈₀: An Interleukin-13-Conjugated Radiolabeled Metallofullerene Platform

Abstract: In this communication, we describe the successful encapsulation of (177)Lu into the endohedral metallofullerene (177)Lu(x)Lu(3-x)N@C(80) (x = 1-3) starting with (177)LuCl(3) in a modified quartz Kraschmer-Huffman electric generator. We demonstrate that the (177)Lu (beta-emitter) in this fullerene cage is not significantly released for a period of up to at least one-half-life (6.7 days). We also demonstrate that this agent can be conjugated with an interleukin-13 peptide that is designed to target an overexpres… Show more

“…[5] Radioisotope 177 Lu has favorably long nuclear decay properties (t 1/2 = 6.65 d) and can be used to easily radiolabel av ariety of molecular carriers. [6] As such, 177 Lu promises to benefit nanoparticle-mediated combination therapy.Previous studies explored 177 Lu-labeled gold nanoparticles for preclinical nuclear medicine. [7] However,t he clinical translation of the reported nanosystem was impeded because of high and long-term accumulation in the reticuloendothelial system (RES) and low intratumor uptake.T hus,i tr emains ab ig challenge to integrate nanocarrier tumor-targeted delivery and multi-modal imaging using 177 Lu to obtain an anotheranostic agent with high efficiacy.…”

Efficient Uptake of ¹⁷⁷Lu‐Porphyrin‐PEG Nanocomplexes by Tumor Mitochondria for Multimodal‐Imaging‐Guided Combination Therapy

“…[5] Radioisotope 177 Lu has favorably long nuclear decay properties (t 1/2 = 6.65 d) and can be used to easily radiolabel av ariety of molecular carriers. [6] As such, 177 Lu promises to benefit nanoparticle-mediated combination therapy.Previous studies explored 177 Lu-labeled gold nanoparticles for preclinical nuclear medicine. [7] However,t he clinical translation of the reported nanosystem was impeded because of high and long-term accumulation in the reticuloendothelial system (RES) and low intratumor uptake.T hus,i tr emains ab ig challenge to integrate nanocarrier tumor-targeted delivery and multi-modal imaging using 177 Lu to obtain an anotheranostic agent with high efficiacy.…”

Efficient Uptake of ¹⁷⁷Lu‐Porphyrin‐PEG Nanocomplexes by Tumor Mitochondria for Multimodal‐Imaging‐Guided Combination Therapy

“…28). 164 The encapsulated 177 Lu(III) ions were not released for at least one half-life (6.7 177-Lu x Lu 3-x N@C 80 surface functionalisation for solubility, biocompatibility and targeting days) showing the robustness of the system, and the fullerene was surface tagged with an interleukin-13 peptide. The mechanism for the loss of 177 Lu from the cage beyond this timescale has not been postulated, but assumed to proceed via radiolytic damage.…”

Chelating agents for radiolanthanides: Applications to imaging and therapy

“…For the imaging capabilities of this theranostic agent, see Ref. 327. Regarding therapeutic efficacy in vivo, see Ref.…”

“…346 It was also shown that a conjugate of radiolabelled cluster 177 Lu x Lu (37x) N@C 80 with the 1L-13 peptide and a fluorescent tag (tetramethyl-6-carboxyrhodamine, TAMRA) can be used for radiotherapeutic and radiodiagnostic applications. 327 Endometallofullerenes and chemotherapeutic pharmaceuticals. Anticancer drugs can also be designed on the basis of EMFs containing no radioactive atoms.…”

Fullerene derivatives as nano-additives in polymer composites