Constitutively Active Akt1 Cooperates With KrasG12D To Accelerate In Vivo Pancreatic Tumor Onset And Progression

Abstract

BACKGROUND AND AIMS: Pancreatic adenocarcinoma is a deadly disease characterized by metastatic progression and resistance to conventional therapeutics. Mutation of KRAS is the most frequent early event in pancreatic tumor progression. AKT isoforms are frequently activated in pancreatic cancer, and reports have implicated hyperactivation of AKT1, as well as AKT2, in pancreatic tumor formation. The objective here is to delineate the role of AKT in facilitating in vivo pancreatic tumor progression in the context of KRAS mutation and predisposition to pancreatic cancer. METHODS: Mice with Akt1 and KRas mutant alleles expressed using the pancreas Pdx promoter were mated to characterize the incidence and frequency of histologic and genetic alterations known to occur commonly in human pancreatic ductal adenocarcinoma. RESULTS: Active Akt1 (Akt1Myr, containing a myristoylation sequence) cooperated with active mutant KRasG12D to accelerate pancreatic carcinoma onset and progression and increase phosphorylation of downstream effectors in the Akt pathway. Mucin and smooth muscle actin expression was found in and around pancreatic intraepithelial neoplasms (PanINs), and accelerated time to metastasis was found in Akt1Myr/KRasG12D mice. CONCLUSIONS: In contrast to prior reports of pancreatic KRas mutant mice mated with mice deficient for various tumor suppressor genes, which resulted in aggressive disease within a few months of age, Akt1Myr/KRasG12D mice enabled the study of PanINs and spontaneous pancreatic transformation more characteristic of human pancreatic progression in elderly individuals. The Akt1Myr/KRasG12D model holds promise for delineating the tumor biology and biomarkers critical for understanding their cooperation in cancer oncogenesis and future targeting in therapeutic strategies.

Publication Date

2-1-2015

Publication Title

Neoplasia (United States)

Volume

17

Issue

2

Number of Pages

175-182

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1016/j.neo.2014.12.006

Socpus ID

84989352553 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/84989352553

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