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Review

[111In-Diethylenetriamine pentaacetic acid-ACMpip5,Tha6,βAla11,Tha13,NIe14]bombesin(5-14)

Kenneth T. Cheng  1
In: Molecular Imaging and Contrast Agent Database (MICAD) [Internet]. Bethesda (MD): National Center for Biotechnology Information (US); 2004.
[updated ].
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Review

[111In-Diethylenetriamine pentaacetic acid-ACMpip5,Tha6,βAla11,Tha13,NIe14]bombesin(5-14)

Kenneth T. Cheng.
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Excerpt

[111In-Diethylenetriamine pentaacetic acid-ACMpip5,Tha6,βAla11,Tha13,NIe14]-bombesin(5-14) ([111In-DTPA-ACMpip5,Tha6,βAla11,Tha13,NIe14]-BN(5-14)) is a peptide analog of the human gastrin-releasing peptide (GRP) conjugated with 111In, and it was developed for single-photon emission computed tomography (SPECT) imaging of tumors with overexpressed GRP receptors (GRP-R) (1). 111In is a gamma emitter with a physical half-life (t½) of 2.8 days.

The amphibian bombesin (BN or BBN), a peptide of 14 amino acids, is an analog of human GRP, a peptide of 27 amino acids, which binds to GRP-R with high affinity and specificity (2, 3). Both GRP and BN share an amidated C-terminus sequence homology of seven amino acids, -Trp-Ala-Val-Gly-His-Leu-Met-NH2. BN-Like peptides have been shown to induce various biological responses in diverse tissues, including the central nervous system (CNS) and the gastrointestinal (GI) system (4, 5). They also act as potential growth factors for both normal and neoplastic tissues. Specific BN receptors (BN-R) have been identified in CNS and GI tissues and in a number of tumor cell lines. The BN-R superfamily includes at least four different subtypes, namely the GRP-R subtype (BB2), the neuromedin B receptor subtype (BB1), the BB3 subtype, and the BB4 subtype (8). Overexpression of GRP-R in various human tumors (e.g., breast, prostate, lung, colon, ovarian, and pancreatic cancers) provides opportunities to image tumors with the use of specific molecular imaging agents designed to target the GRP-R (3, 6-9).

There have been varying degrees of success in the development of GRP-R–targeted radiopharmaceuticals for diagnostic or therapeutic applications (9). Various BN analogs have been labeled with 99mTc and 111In for SPECT imaging (13, 14). Despite some concern about the possible tumor growth–stimulatory effect of BN, Breeman et al. (10) synthesized the BN-R agonist [111In-DTPA-Pro1,Tyr4]BN. The study reported that this agonist had a high specific localization in GRP-R–positive tissues and tumors. [111In-DTPA-Pro1,Tyr4]BN differs from native BN in that pGlu1 is replaced with DTPA-Pro1 and Leu4 is replaced with Tyr4. Breeman et al. (10) showed that this agonist was internalized by GRP-R–expressing cells, whereas the antagonist ([111In-DTPA-Tyr5,d-Phe6]BN(5-13)NHEt) was not. On the basis of this finding, de Visser et al. (1) developed new DTPA-couple BN analogs with shortened amino acid sequences containing non-natural amino acid derivatives to improve the receptor binding affinity of the compounds. [111In-DTPA-ACMpip5,Tha6,βAla11,Tha13,NIe14]-BN(5-14) is one of the tested radioactive probes that appears to be a promising candidate for use in molecular imaging of tumors expressing GRP-R (1).

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