Synthesis and Structure-Activity Relationships of Amino Acid Conjugates of Cholanic Acid as Antagonists of the EphA2 Receptor

Alessio Lodola; Silvia Rivara; Elisabetta Barocelli; Francesca De Franco; Paola Vicini; Antimo Gioiello; Carmine Giorgio; Iftiin Hassan-Mohamed; Riccardo Castelli; Daniele Pala; Matteo Incerti; Marco Mor; Massimiliano Tognolini; Simonetta Russo

doi:10.3390/molecules181013043

Molecules (Oct 2013)

Synthesis and Structure-Activity Relationships of Amino Acid Conjugates of Cholanic Acid as Antagonists of the EphA2 Receptor

Alessio Lodola,
Silvia Rivara,
Elisabetta Barocelli,
Francesca De Franco,
Paola Vicini,
Antimo Gioiello,
Carmine Giorgio,
Iftiin Hassan-Mohamed,
Riccardo Castelli,
Daniele Pala,
Matteo Incerti,
Marco Mor,
Massimiliano Tognolini,
Simonetta Russo

Affiliations

Alessio Lodola
Silvia Rivara
Elisabetta Barocelli
Francesca De Franco
Paola Vicini
Antimo Gioiello
Carmine Giorgio
Iftiin Hassan-Mohamed
Riccardo Castelli
Daniele Pala
Matteo Incerti
Marco Mor
Massimiliano Tognolini
Simonetta Russo

DOI: https://doi.org/10.3390/molecules181013043
Journal volume & issue: Vol. 18, no. 10
pp. 13043 – 13060

Abstract

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The Eph–ephrin system plays a critical role in tumor growth and vascular functions during carcinogenesis. We had previously identified cholanic acid as a competitive and reversible EphA2 antagonist able to disrupt EphA2-ephrinA1 interaction and to inhibit EphA2 activation in prostate cancer cells. Herein, we report the synthesis and biological evaluation of a set of cholanic acid derivatives obtained by conjugation of its carboxyl group with a panel of naturally occurring amino acids with the aim to improve EphA2 receptor inhibition. Structure-activity relationships indicate that conjugation of cholanic acid with linear amino acids of small size leads to effective EphA2 antagonists whereas the introduction of aromatic amino acids reduces the potency in displacement studies. The b-alanine derivative 4 was able to disrupt EphA2-ephrinA1 interaction in the micromolar range and to dose-dependently inhibit EphA2 activation on PC3 cells. These findings may help the design of novel EphA2 antagonists active on cancer cell lines.

Published in Molecules

ISSN: 1420-3049 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Chemistry: Organic chemistry
Website: http://www.mdpi.com/journal/molecules

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