Luke Wharton , Scott W. McNeil , Chengcheng Zhang , Gokce Engudar , Michiel Van de Voorde , Jutta Zeisler , Helena Koniar , Sathiya Sekar , Zheliang Yuan , Paul Schaffer , Valery Radchenko , Maarten Ooms , Peter Kunz , François Bénard , Hua Yang
{"title":"MC1R靶向治疗剂[155Tb]Tb-crown-αMSH和[161Tb]Tb-crown-αMSH的临床前评估","authors":"Luke Wharton , Scott W. McNeil , Chengcheng Zhang , Gokce Engudar , Michiel Van de Voorde , Jutta Zeisler , Helena Koniar , Sathiya Sekar , Zheliang Yuan , Paul Schaffer , Valery Radchenko , Maarten Ooms , Peter Kunz , François Bénard , Hua Yang","doi":"10.1016/j.nucmedbio.2024.108925","DOIUrl":null,"url":null,"abstract":"<div><h3>Background</h3><p>Targeted radionuclide therapy is established as a highly effective strategy for the treatment of metastatic tumors; however, the co-development of suitable imaging companions to therapy remains significant challenge. Theranostic isotopes of terbium (<sup>149</sup>Tb, <sup>152</sup>Tb, <sup>155</sup>Tb, <sup>161</sup>Tb) have the potential to provide chemically identical radionuclidic pairs, which collectively encompass all modes of nuclear decay relevant to nuclear medicine. Herein, we report the first radiochemistry and preclinical studies involving <sup>155</sup>Tb- and <sup>161</sup>Tb-labeled crown-αMSH, a small peptide-based bioconjugate suitable for targeting melanoma.</p></div><div><h3>Methods</h3><p><sup>155</sup>Tb was produced via proton induced spallation of Ta targets using the isotope separation and acceleration facility at TRIUMF with isotope separation on-line (ISAC/ISOL). The radiolabeling characteristics of crown-αMSH with <sup>155</sup>Tb and/or <sup>161</sup>Tb were evaluated by concentration-dependence radiolabeling studies, and radio-HPLC stability studies. Log<em>D</em><sub>7.4</sub> measurements were obtained for [<sup>161</sup>Tb]Tb-crown-αMSH. Competitive binding assays were undertaken to determine the inhibition constant for [<sup>nat</sup>Tb]Tb-crown-αMSH in B16-F10 cells. Pre-clinical biodistribution and SPECT/CT imaging studies of <sup>155</sup>Tb and <sup>161</sup>Tb labeled crown-αMSH were undertaken in male C57Bl/6 J mice bearing B16-F10 melanoma tumors to evaluate tumor specific uptake and imaging potential for each radionuclide.</p></div><div><h3>Results</h3><p>Quantitative radiolabeling of crown-αMSH with [<sup>155</sup>Tb]Tb<sup>3+</sup> and [<sup>161</sup>Tb]Tb<sup>3+</sup> was demonstrated under mild conditions (RT, 10 min) and low chelator concentrations; achieving high molar activities (23–29 MBq/nmol). Radio-HPLC studies showed [<sup>161</sup>Tb]Tb-crown-αMSH maintains excellent radiochemical purity in human serum, while gradual metabolic degradation is observed in mouse serum. Competitive binding assays showed the high affinity of [<sup>nat</sup>Tb]Tb-crown-αMSH toward MC1R. Two different methods for preparation of the [<sup>155</sup>Tb]Tb-crown-αMSH radiotracer were investigated and the impacts on the biodistribution profile in tumor bearing mice is compared. Preclinical in vivo studies of <sup>155</sup>Tb- and <sup>161</sup>Tb- labeled crown-αMSH were performed in parallel, in mice bearing B16-F10 tumors; where the biodistribution results showed similar tumor specific uptake (6.06–7.44 %IA/g at 2 h pi) and very low uptake in nontarget organs. These results were further corroborated through a series of single-photon emission computed tomography (SPECT) studies, with [<sup>155</sup>Tb]Tb-crown-αMSH and [<sup>161</sup>Tb]Tb-crown-αMSH showing comparable uptake profiles and excellent image contrast.</p></div><div><h3>Conclusions</h3><p>Collectively, our studies highlight the promising characteristics of [<sup>155</sup>Tb]Tb-crown-αMSH and [<sup>161</sup>Tb]Tb-crown-αMSH as theranostic pair for nuclear imaging (<sup>155</sup>Tb) and radionuclide therapy (<sup>161</sup>Tb).</p></div>","PeriodicalId":19363,"journal":{"name":"Nuclear medicine and biology","volume":"136 ","pages":"Article 108925"},"PeriodicalIF":3.6000,"publicationDate":"2024-05-16","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Preclinical evaluation of MC1R targeting theranostic pair [155Tb]Tb-crown-αMSH and [161Tb]Tb-crown-αMSH\",\"authors\":\"Luke Wharton , Scott W. McNeil , Chengcheng Zhang , Gokce Engudar , Michiel Van de Voorde , Jutta Zeisler , Helena Koniar , Sathiya Sekar , Zheliang Yuan , Paul Schaffer , Valery Radchenko , Maarten Ooms , Peter Kunz , François Bénard , Hua Yang\",\"doi\":\"10.1016/j.nucmedbio.2024.108925\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><h3>Background</h3><p>Targeted radionuclide therapy is established as a highly effective strategy for the treatment of metastatic tumors; however, the co-development of suitable imaging companions to therapy remains significant challenge. Theranostic isotopes of terbium (<sup>149</sup>Tb, <sup>152</sup>Tb, <sup>155</sup>Tb, <sup>161</sup>Tb) have the potential to provide chemically identical radionuclidic pairs, which collectively encompass all modes of nuclear decay relevant to nuclear medicine. Herein, we report the first radiochemistry and preclinical studies involving <sup>155</sup>Tb- and <sup>161</sup>Tb-labeled crown-αMSH, a small peptide-based bioconjugate suitable for targeting melanoma.</p></div><div><h3>Methods</h3><p><sup>155</sup>Tb was produced via proton induced spallation of Ta targets using the isotope separation and acceleration facility at TRIUMF with isotope separation on-line (ISAC/ISOL). The radiolabeling characteristics of crown-αMSH with <sup>155</sup>Tb and/or <sup>161</sup>Tb were evaluated by concentration-dependence radiolabeling studies, and radio-HPLC stability studies. Log<em>D</em><sub>7.4</sub> measurements were obtained for [<sup>161</sup>Tb]Tb-crown-αMSH. Competitive binding assays were undertaken to determine the inhibition constant for [<sup>nat</sup>Tb]Tb-crown-αMSH in B16-F10 cells. Pre-clinical biodistribution and SPECT/CT imaging studies of <sup>155</sup>Tb and <sup>161</sup>Tb labeled crown-αMSH were undertaken in male C57Bl/6 J mice bearing B16-F10 melanoma tumors to evaluate tumor specific uptake and imaging potential for each radionuclide.</p></div><div><h3>Results</h3><p>Quantitative radiolabeling of crown-αMSH with [<sup>155</sup>Tb]Tb<sup>3+</sup> and [<sup>161</sup>Tb]Tb<sup>3+</sup> was demonstrated under mild conditions (RT, 10 min) and low chelator concentrations; achieving high molar activities (23–29 MBq/nmol). Radio-HPLC studies showed [<sup>161</sup>Tb]Tb-crown-αMSH maintains excellent radiochemical purity in human serum, while gradual metabolic degradation is observed in mouse serum. Competitive binding assays showed the high affinity of [<sup>nat</sup>Tb]Tb-crown-αMSH toward MC1R. Two different methods for preparation of the [<sup>155</sup>Tb]Tb-crown-αMSH radiotracer were investigated and the impacts on the biodistribution profile in tumor bearing mice is compared. Preclinical in vivo studies of <sup>155</sup>Tb- and <sup>161</sup>Tb- labeled crown-αMSH were performed in parallel, in mice bearing B16-F10 tumors; where the biodistribution results showed similar tumor specific uptake (6.06–7.44 %IA/g at 2 h pi) and very low uptake in nontarget organs. These results were further corroborated through a series of single-photon emission computed tomography (SPECT) studies, with [<sup>155</sup>Tb]Tb-crown-αMSH and [<sup>161</sup>Tb]Tb-crown-αMSH showing comparable uptake profiles and excellent image contrast.</p></div><div><h3>Conclusions</h3><p>Collectively, our studies highlight the promising characteristics of [<sup>155</sup>Tb]Tb-crown-αMSH and [<sup>161</sup>Tb]Tb-crown-αMSH as theranostic pair for nuclear imaging (<sup>155</sup>Tb) and radionuclide therapy (<sup>161</sup>Tb).</p></div>\",\"PeriodicalId\":19363,\"journal\":{\"name\":\"Nuclear medicine and biology\",\"volume\":\"136 \",\"pages\":\"Article 108925\"},\"PeriodicalIF\":3.6000,\"publicationDate\":\"2024-05-16\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Nuclear medicine and biology\",\"FirstCategoryId\":\"3\",\"ListUrlMain\":\"https://www.sciencedirect.com/science/article/pii/S0969805124000519\",\"RegionNum\":4,\"RegionCategory\":\"医学\",\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"Q1\",\"JCRName\":\"RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"Nuclear medicine and biology","FirstCategoryId":"3","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S0969805124000519","RegionNum":4,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING","Score":null,"Total":0}
Preclinical evaluation of MC1R targeting theranostic pair [155Tb]Tb-crown-αMSH and [161Tb]Tb-crown-αMSH
Background
Targeted radionuclide therapy is established as a highly effective strategy for the treatment of metastatic tumors; however, the co-development of suitable imaging companions to therapy remains significant challenge. Theranostic isotopes of terbium (149Tb, 152Tb, 155Tb, 161Tb) have the potential to provide chemically identical radionuclidic pairs, which collectively encompass all modes of nuclear decay relevant to nuclear medicine. Herein, we report the first radiochemistry and preclinical studies involving 155Tb- and 161Tb-labeled crown-αMSH, a small peptide-based bioconjugate suitable for targeting melanoma.
Methods
155Tb was produced via proton induced spallation of Ta targets using the isotope separation and acceleration facility at TRIUMF with isotope separation on-line (ISAC/ISOL). The radiolabeling characteristics of crown-αMSH with 155Tb and/or 161Tb were evaluated by concentration-dependence radiolabeling studies, and radio-HPLC stability studies. LogD7.4 measurements were obtained for [161Tb]Tb-crown-αMSH. Competitive binding assays were undertaken to determine the inhibition constant for [natTb]Tb-crown-αMSH in B16-F10 cells. Pre-clinical biodistribution and SPECT/CT imaging studies of 155Tb and 161Tb labeled crown-αMSH were undertaken in male C57Bl/6 J mice bearing B16-F10 melanoma tumors to evaluate tumor specific uptake and imaging potential for each radionuclide.
Results
Quantitative radiolabeling of crown-αMSH with [155Tb]Tb3+ and [161Tb]Tb3+ was demonstrated under mild conditions (RT, 10 min) and low chelator concentrations; achieving high molar activities (23–29 MBq/nmol). Radio-HPLC studies showed [161Tb]Tb-crown-αMSH maintains excellent radiochemical purity in human serum, while gradual metabolic degradation is observed in mouse serum. Competitive binding assays showed the high affinity of [natTb]Tb-crown-αMSH toward MC1R. Two different methods for preparation of the [155Tb]Tb-crown-αMSH radiotracer were investigated and the impacts on the biodistribution profile in tumor bearing mice is compared. Preclinical in vivo studies of 155Tb- and 161Tb- labeled crown-αMSH were performed in parallel, in mice bearing B16-F10 tumors; where the biodistribution results showed similar tumor specific uptake (6.06–7.44 %IA/g at 2 h pi) and very low uptake in nontarget organs. These results were further corroborated through a series of single-photon emission computed tomography (SPECT) studies, with [155Tb]Tb-crown-αMSH and [161Tb]Tb-crown-αMSH showing comparable uptake profiles and excellent image contrast.
Conclusions
Collectively, our studies highlight the promising characteristics of [155Tb]Tb-crown-αMSH and [161Tb]Tb-crown-αMSH as theranostic pair for nuclear imaging (155Tb) and radionuclide therapy (161Tb).
期刊介绍:
Nuclear Medicine and Biology publishes original research addressing all aspects of radiopharmaceutical science: synthesis, in vitro and ex vivo studies, in vivo biodistribution by dissection or imaging, radiopharmacology, radiopharmacy, and translational clinical studies of new targeted radiotracers. The importance of the target to an unmet clinical need should be the first consideration. If the synthesis of a new radiopharmaceutical is submitted without in vitro or in vivo data, then the uniqueness of the chemistry must be emphasized.
These multidisciplinary studies should validate the mechanism of localization whether the probe is based on binding to a receptor, enzyme, tumor antigen, or another well-defined target. The studies should be aimed at evaluating how the chemical and radiopharmaceutical properties affect pharmacokinetics, pharmacodynamics, or therapeutic efficacy. Ideally, the study would address the sensitivity of the probe to changes in disease or treatment, although studies validating mechanism alone are acceptable. Radiopharmacy practice, addressing the issues of preparation, automation, quality control, dispensing, and regulations applicable to qualification and administration of radiopharmaceuticals to humans, is an important aspect of the developmental process, but only if the study has a significant impact on the field.
Contributions on the subject of therapeutic radiopharmaceuticals also are appropriate provided that the specificity of labeled compound localization and therapeutic effect have been addressed.
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