Literature DB >> 35861867

Preclinical Development of [211At]meta- astatobenzylguanidine ([211At]MABG) as an Alpha Particle Radiopharmaceutical Therapy for Neuroblastoma.

Vandana Batra1,2, Minu Samanta1, Mehran Makvandi3, David Groff1, Paul Martorano3, Jimmy Elias1, Pietro Ranieri1, Matthew Tsang1, Catherine Hou3, Yimei Li2,4, Bruce Pawel5, Daniel Martinez6, Ganesan Vaidyanathan7, Sean Carlin3, Daniel A Pryma2,3, John M Maris1,2.   

Abstract

PURPOSE: [131I]meta-iodobenzylguanidine ([131I]MIBG) is a targeted radiotherapeutic administered systemically to deliver beta particle radiation in neuroblastoma. However, relapses in the bone marrow are common. [211At]meta-astatobenzylguanidine ([211At] MABG) is an alpha particle emitter with higher biological effectiveness and short path length which effectively sterilizes microscopic residual disease. Here we investigated the safety and antitumor activity [211At]MABG in preclinical models of neuroblastoma. EXPERIMENTAL
DESIGN: We defined the maximum tolerated dose (MTD), biodistribution, and toxicity of [211At]MABG in immunodeficient mice in comparison with [131I]MIBG. We compared the antitumor efficacy of [211At]MABG with [131I]MIBG in three murine xenograft models. Finally, we explored the efficacy of [211At]MABG after tail vein xenografting designed to model disseminated neuroblastoma.
RESULTS: The MTD of [211At]MABG was 66.7 MBq/kg (1.8 mCi/kg) in CB17SC scid-/- mice and 51.8 MBq/kg (1.4 mCi/kg) in NOD.Cg-Prkdcscid Il2rgtm1Wjl/SzJ (NSG) mice. Biodistribution of [211At]MABG was similar to [131I]MIBG. Long-term toxicity studies on mice administered with doses up to 41.5 MBq/kg (1.12 mCi/kg) showed the radiotherapeutic to be well tolerated. Both 66.7 MBq/kg (1.8 mCi/kg) single dose and fractionated dosing 16.6 MBq/kg/fraction (0.45 mCi/kg) × 4 over 11 days induced marked tumor regression in two of the three models studied. Survival was significantly prolonged for mice treated with 12.9 MBq/kg/fraction (0.35 mCi/kg) × 4 doses over 11 days [211At]MABG in the disseminated disease (IMR-05NET/GFP/LUC) model (P = 0.003) suggesting eradication of microscopic disease.
CONCLUSIONS: [211At]MABG has significant survival advantage in disseminated models of neuroblastoma. An alpha particle emitting radiopharmaceutical may be effective against microscopic disseminated disease, warranting clinical development. ©2022 The Authors; Published by the American Association for Cancer Research.

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Year:  2022        PMID: 35861867      PMCID: PMC9475242          DOI: 10.1158/1078-0432.CCR-22-0400

Source DB:  PubMed          Journal:  Clin Cancer Res        ISSN: 1078-0432            Impact factor:   13.801


  49 in total

1.  Safety and efficacy of tandem 131I-metaiodobenzylguanidine infusions in relapsed/refractory neuroblastoma.

Authors:  Kelsey Johnson; Barbara McGlynn; Jennifer Saggio; Diane Baniewicz; Hongming Zhuang; John M Maris; Yael P Mosse
Journal:  Pediatr Blood Cancer       Date:  2011-04-14       Impact factor: 3.167

2.  Tumor dosimetry using [124I]m-iodobenzylguanidine microPET/CT for [131I]m-iodobenzylguanidine treatment of neuroblastoma in a murine xenograft model.

Authors:  Youngho Seo; W Clay Gustafson; Shorouk F Dannoon; Erin A Nekritz; Chang-Lae Lee; Stephanie T Murphy; Henry F VanBrocklin; Miguel Hernandez-Pampaloni; Daphne A Haas-Kogan; William A Weiss; Katherine K Matthay
Journal:  Mol Imaging Biol       Date:  2012-12       Impact factor: 3.488

3.  Astatine Radiopharmaceuticals: Prospects and Problems.

Authors:  Ganesan Vaidyanathan; Michael R Zalutsky
Journal:  Curr Radiopharm       Date:  2008-09-01

Review 4.  Recent advances in neuroblastoma.

Authors:  John M Maris
Journal:  N Engl J Med       Date:  2010-06-10       Impact factor: 91.245

5.  Dual CDK4/CDK6 inhibition induces cell-cycle arrest and senescence in neuroblastoma.

Authors:  Julieann Rader; Mike R Russell; Lori S Hart; Michael S Nakazawa; Lili T Belcastro; Daniel Martinez; Yimei Li; Erica L Carpenter; Edward F Attiyeh; Sharon J Diskin; Sunkyu Kim; Sudha Parasuraman; Giordano Caponigro; Robert W Schnepp; Andrew C Wood; Bruce Pawel; Kristina A Cole; John M Maris
Journal:  Clin Cancer Res       Date:  2013-09-17       Impact factor: 12.531

6.  Cytotoxicity of alpha-particle-emitting m-[211At]astatobenzylguanidine on human neuroblastoma cells.

Authors:  D K Strickland; G Vaidyanathan; M R Zalutsky
Journal:  Cancer Res       Date:  1994-10-15       Impact factor: 12.701

7.  In vivo bioluminescence imaging for early detection and monitoring of disease progression in a murine model of neuroblastoma.

Authors:  Paxton V Dickson; Blair Hamner; Catherine Y C Ng; Marshall M Hall; Junfang Zhou; Phillip W Hargrove; M Beth McCarville; Andrew M Davidoff
Journal:  J Pediatr Surg       Date:  2007-07       Impact factor: 2.545

Review 8.  Radiopharmaceutical therapy in cancer: clinical advances and challenges.

Authors:  George Sgouros; Lisa Bodei; Michael R McDevitt; Jessie R Nedrow
Journal:  Nat Rev Drug Discov       Date:  2020-07-29       Impact factor: 84.694

9.  Genomic Profiling of Childhood Tumor Patient-Derived Xenograft Models to Enable Rational Clinical Trial Design.

Authors:  Jo Lynne Rokita; Komal S Rathi; Maria F Cardenas; Kristen A Upton; Joy Jayaseelan; Katherine L Cross; Jacob Pfeil; Laura E Egolf; Gregory P Way; Alvin Farrel; Nathan M Kendsersky; Khushbu Patel; Krutika S Gaonkar; Apexa Modi; Esther R Berko; Gonzalo Lopez; Zalman Vaksman; Chelsea Mayoh; Jonas Nance; Kristyn McCoy; Michelle Haber; Kathryn Evans; Hannah McCalmont; Katerina Bendak; Julia W Böhm; Glenn M Marshall; Vanessa Tyrrell; Karthik Kalletla; Frank K Braun; Lin Qi; Yunchen Du; Huiyuan Zhang; Holly B Lindsay; Sibo Zhao; Jack Shu; Patricia Baxter; Christopher Morton; Dias Kurmashev; Siyuan Zheng; Yidong Chen; Jay Bowen; Anthony C Bryan; Kristen M Leraas; Sara E Coppens; HarshaVardhan Doddapaneni; Zeineen Momin; Wendong Zhang; Gregory I Sacks; Lori S Hart; Kateryna Krytska; Yael P Mosse; Gregory J Gatto; Yolanda Sanchez; Casey S Greene; Sharon J Diskin; Olena Morozova Vaske; David Haussler; Julie M Gastier-Foster; E Anders Kolb; Richard Gorlick; Xiao-Nan Li; C Patrick Reynolds; Raushan T Kurmasheva; Peter J Houghton; Malcolm A Smith; Richard B Lock; Pichai Raman; David A Wheeler; John M Maris
Journal:  Cell Rep       Date:  2019-11-05       Impact factor: 9.423

10.  A Radiotracer Strategy to Quantify PARP-1 Expression In Vivo Provides a Biomarker That Can Enable Patient Selection for PARP Inhibitor Therapy.

Authors:  Mehran Makvandi; Kuiying Xu; Brian P Lieberman; Redmond-Craig Anderson; Samuel Sander Effron; Harrison D Winters; Chenbo Zeng; Elizabeth S McDonald; Daniel A Pryma; Roger A Greenberg; Robert H Mach
Journal:  Cancer Res       Date:  2016-06-03       Impact factor: 13.312
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