2009
DOI: 10.1016/j.peptides.2009.09.012
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Bioactivity of analogs of the N-terminal region of gastrin-17

Abstract: Gastrin-17-Gly (G17-Gly) has been shown to bind to non-CCK nanomolar and micromolar affinity sites on DLD-1 and HT-29 human colonic carcinoma cells and to stimulate cellular proliferation. However, in previous studies, we showed that C-terminal truncation of the gastrin-17 (G17) to the G17 analog G17(1–12) and then to G17(1–6)-NH2 did not remove the ability to bind to DLD-1 cells or to activate proliferation. This implies that residues and/or structural motifs required for bioactivity at these receptors rest i… Show more

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Cited by 3 publications
(8 citation statements)
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“…However, this does not explain the inability of the G17(1-6) analog to activate the receptor. Results from studies both of biological activity and structure of the two peptides are similar aside from the results of proliferation assays and ECD studies [13, 15]. The slightly greater tendency of G17(1-6)-NH 2 to form helix/turn structure (as seen in the ECD studies) may be due to stabilization of the peptide structure by the C-terminal amide, and this structural difference, though not detectable by qualitative review of the VCD/IR spectra or REMD simulations, may account for the difference in activity.…”
Section: Discussionmentioning
confidence: 89%
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“…However, this does not explain the inability of the G17(1-6) analog to activate the receptor. Results from studies both of biological activity and structure of the two peptides are similar aside from the results of proliferation assays and ECD studies [13, 15]. The slightly greater tendency of G17(1-6)-NH 2 to form helix/turn structure (as seen in the ECD studies) may be due to stabilization of the peptide structure by the C-terminal amide, and this structural difference, though not detectable by qualitative review of the VCD/IR spectra or REMD simulations, may account for the difference in activity.…”
Section: Discussionmentioning
confidence: 89%
“…The CDSSTR results, however, show that G17(1-6)-NH 2 has a greater percentage of helix/turn structure in these solvents than does G17(1-6) (Table 2). In lieu of other structural and binding differences, if indeed these conformational features represent the bioactive conformation of G17(1-6)-NH 2 , then they may be why G17(1-6)-NH 2 stimulates proliferation while G17(1-6) does not [13, 15]. …”
Section: Discussionmentioning
confidence: 99%
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