Development of a radioiodinated triazolopyrimidine probe for nuclear medical imaging of fatty acid binding protein 4.

Development of a radioiodinated triazolopyrimidine probe for nuclear medical imaging of fatty acid binding protein 4.

Fatty acid binding protein 4 (FABP4) is the most well-characterized FABP isoform. FABP4 regulates inflammatory pathways in adipocytes and macrophages and is involved in both inflammatory diseases and tumor formation. FABP4 expression was recently reported for glioblastoma, where it may participate i...

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Main Authors: Kantaro Nishigori, Takashi Temma, Satoru Onoe, Sotaro Sampei, Ikuo Kimura, Masahiro Ono, Hideo Saji
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2014-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3986099?pdf=render
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spelling doaj-2e7b7fe7a6cd4fdea6b0a332eab734b02020-11-25T01:26:50ZengPublic Library of Science (PLoS)PLoS ONE1932-62032014-01-0194e9466810.1371/journal.pone.0094668Development of a radioiodinated triazolopyrimidine probe for nuclear medical imaging of fatty acid binding protein 4.Kantaro NishigoriTakashi TemmaSatoru OnoeSotaro SampeiIkuo KimuraMasahiro OnoHideo SajiFatty acid binding protein 4 (FABP4) is the most well-characterized FABP isoform. FABP4 regulates inflammatory pathways in adipocytes and macrophages and is involved in both inflammatory diseases and tumor formation. FABP4 expression was recently reported for glioblastoma, where it may participate in disease malignancy. While FABP4 is a potential molecular imaging target, with the exception of a tritium labeled probe there are no reports of other nuclear imaging probes that target this protein. Here we designed and synthesized a nuclear imaging probe, [123I]TAP1, and evaluated its potential as a FABP4 targeting probe in in vitro and in vivo assays. We focused on the unique structure of a triazolopyrimidine scaffold that lacks a carboxylic acid to design the TAP1 probe that can undergo facilitated delivery across cell membranes. The affinity of synthesized TAP1 was measured using FABP4 and 8-anilino-1-naphthalene sulfonic acid. [125I]TAP1 was synthesized by iododestannylation of a precursor, followed by affinity and selectivity measurements using immobilized FABPs. Biodistributions in normal and C6 glioblastoma-bearing mice were evaluated, and excised tumors were subjected to autoradiography and immunohistochemistry. TAP1 and [125I]TAP1 showed high affinity for FABP4 (Ki = 44.5±9.8 nM, Kd = 69.1±12.3 nM). The FABP4 binding affinity of [125I]TAP1 was 11.5- and 35.5-fold higher than for FABP3 and FABP5, respectively. In an in vivo study [125I]TAP1 displayed high stability against deiodination and degradation, and moderate radioactivity accumulation in C6 tumors (1.37±0.24% dose/g 3 hr after injection). The radioactivity distribution profile in tumors partially corresponded to the FABP4 positive area and was also affected by perfusion. The results indicate that [125I]TAP1 could detect FABP4 in vitro and partly in vivo. As such, [125I]TAP1 is a promising lead compound for further refinement for use in in vivo FABP4 imaging.http://europepmc.org/articles/PMC3986099?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Kantaro Nishigori
Takashi Temma
Satoru Onoe
Sotaro Sampei
Ikuo Kimura
Masahiro Ono
Hideo Saji
spellingShingle Kantaro Nishigori
Takashi Temma
Satoru Onoe
Sotaro Sampei
Ikuo Kimura
Masahiro Ono
Hideo Saji
Development of a radioiodinated triazolopyrimidine probe for nuclear medical imaging of fatty acid binding protein 4.
PLoS ONE
author_facet Kantaro Nishigori
Takashi Temma
Satoru Onoe
Sotaro Sampei
Ikuo Kimura
Masahiro Ono
Hideo Saji
author_sort Kantaro Nishigori
title Development of a radioiodinated triazolopyrimidine probe for nuclear medical imaging of fatty acid binding protein 4.
title_short Development of a radioiodinated triazolopyrimidine probe for nuclear medical imaging of fatty acid binding protein 4.
title_full Development of a radioiodinated triazolopyrimidine probe for nuclear medical imaging of fatty acid binding protein 4.
title_fullStr Development of a radioiodinated triazolopyrimidine probe for nuclear medical imaging of fatty acid binding protein 4.
title_full_unstemmed Development of a radioiodinated triazolopyrimidine probe for nuclear medical imaging of fatty acid binding protein 4.
title_sort development of a radioiodinated triazolopyrimidine probe for nuclear medical imaging of fatty acid binding protein 4.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2014-01-01
description Fatty acid binding protein 4 (FABP4) is the most well-characterized FABP isoform. FABP4 regulates inflammatory pathways in adipocytes and macrophages and is involved in both inflammatory diseases and tumor formation. FABP4 expression was recently reported for glioblastoma, where it may participate in disease malignancy. While FABP4 is a potential molecular imaging target, with the exception of a tritium labeled probe there are no reports of other nuclear imaging probes that target this protein. Here we designed and synthesized a nuclear imaging probe, [123I]TAP1, and evaluated its potential as a FABP4 targeting probe in in vitro and in vivo assays. We focused on the unique structure of a triazolopyrimidine scaffold that lacks a carboxylic acid to design the TAP1 probe that can undergo facilitated delivery across cell membranes. The affinity of synthesized TAP1 was measured using FABP4 and 8-anilino-1-naphthalene sulfonic acid. [125I]TAP1 was synthesized by iododestannylation of a precursor, followed by affinity and selectivity measurements using immobilized FABPs. Biodistributions in normal and C6 glioblastoma-bearing mice were evaluated, and excised tumors were subjected to autoradiography and immunohistochemistry. TAP1 and [125I]TAP1 showed high affinity for FABP4 (Ki = 44.5±9.8 nM, Kd = 69.1±12.3 nM). The FABP4 binding affinity of [125I]TAP1 was 11.5- and 35.5-fold higher than for FABP3 and FABP5, respectively. In an in vivo study [125I]TAP1 displayed high stability against deiodination and degradation, and moderate radioactivity accumulation in C6 tumors (1.37±0.24% dose/g 3 hr after injection). The radioactivity distribution profile in tumors partially corresponded to the FABP4 positive area and was also affected by perfusion. The results indicate that [125I]TAP1 could detect FABP4 in vitro and partly in vivo. As such, [125I]TAP1 is a promising lead compound for further refinement for use in in vivo FABP4 imaging.
url http://europepmc.org/articles/PMC3986099?pdf=render
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