Evaluation and Clinical Analyses of Downstream Targets of the Akt Inhibitor GDC-0068

Overview

Journal Clin Cancer Res

Specialty Oncology

Date 2013 Oct 22

PMID 24141624

Citations 46

Authors

Yibing Yan

Violeta Serra

Ludmila Prudkin

Maurizio Scaltriti

Sumati Murli

Olga Rodriguez

Marta Guzman

Deepak Sampath

Michelle Nannini

Yuanyuan Xiao

Marie-Claire Wagle

Jenny Q Wu

Matthew Wongchenko

Garret Hampton

Vanitha Ramakrishnan

Mark R Lackner

Cristina Saura

Desamparados Roda

Andres Cervantes

Josep Tabernero

Premal Patel

Jose Baselga

Affiliations

Soon will be listed here.

Abstract

Purpose: The oncogenic PI3K/Akt/mTOR pathway is an attractive therapeutic target in cancer. However, it is unknown whether the pathway blockade required for tumor growth inhibition is clinically achievable. Therefore, we conducted pharmacodynamic studies with GDC-0068, an ATP competitive, selective Akt1/2/3 inhibitor, in preclinical models and in patients treated with this compound.

Experimental Design: We used a reverse phase protein array (RPPA) platform to identify a biomarker set indicative of Akt inhibition in cell lines and human-tumor xenografts, and correlated the degree of pathway inhibition with antitumor activity. Akt pathway activity was measured using this biomarker set in pre- and post-dose tumor biopsies from patients treated with GDC-0068 in the dose escalation clinical trial.

Results: The set of biomarkers of Akt inhibition is composed of 10 phosphoproteins, including Akt and PRAS40, and is modulated in a dose-dependent fashion, both in vitro and in vivo. In human-tumor xenografts, this dose dependency significantly correlated with tumor growth inhibition. Tumor biopsies from patients treated with GDC-0068 at clinically achievable doses attained a degree of biomarker inhibition that correlated with tumor growth inhibition in preclinical models. In these clinical samples, compensatory feedback activation of ERK and HER3 was observed, consistent with preclinical observations.

Conclusion: This study identified a set of biomarkers of Akt inhibition that can be used in the clinical setting to assess target engagement. Here, it was used to show that robust Akt inhibition in tumors from patients treated with GDC-0068 is achievable, supporting the clinical development of this compound in defined patient populations.

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