Conditional expression of oncogenic K-ras from its endogenous promoter induces a myeloproliferative disease
Iris T. Chan, … , Tyler Jacks, D. Gary Gilliland
Iris T. Chan, … , Tyler Jacks, D. Gary Gilliland
Published February 15, 2004
Citation Information: J Clin Invest. 2004;113(4):528-538. https://doi.org/10.1172/JCI20476.
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Article Oncology

Conditional expression of oncogenic K-ras from its endogenous promoter induces a myeloproliferative disease

Abstract

Oncogenic ras alleles are among the most common mutations found in patients with acute myeloid leukemia (AML). Previously, the role of oncogenic ras in cancer was assessed in model systems overexpressing oncogenic ras from heterologous promoters. However, there is increasing evidence that subtle differences in gene dosage and regulation of gene expression from endogenous promoters play critical roles in cancer pathogenesis. We characterized the role of oncogenic K-ras expressed from its endogenous promoter in the hematopoietic system using a conditional allele and IFN-inducible, Cre-mediated recombination. Mice developed a completely penetrant myeloproliferative syndrome characterized by leukocytosis with normal maturation of myeloid lineage cells; myeloid hyperplasia in bone marrow; and extramedullary hematopoiesis in the spleen and liver. Flow cytometry confirmed the myeloproliferative phenotype. Genotypic and Western blot analysis demonstrated Cre-mediated excision and expression, respectively, of the oncogenic K-ras allele. Bone marrow cells formed growth factor–independent colonies in methylcellulose cultures, but the myeloproliferative disease was not transplantable into secondary recipients. Thus, oncogenic K-ras induces a myeloproliferative disorder but not AML, indicating that additional mutations are required for AML development. This model system will be useful for assessing the contribution of cooperating mutations in AML and testing ras inhibitors in vivo.

Authors

Iris T. Chan, Jeffery L. Kutok, Ifor R. Williams, Sarah Cohen, Lauren Kelly, Hirokazu Shigematsu, Leisa Johnson, Koichi Akashi, David A. Tuveson, Tyler Jacks, D. Gary Gilliland

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Figure 1

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Lethal myeloproliferative disease in mice expressing a conditional oncog...
Lethal myeloproliferative disease in mice expressing a conditional oncogenic K-ras allele. (a) Schematic of wild-type (top), floxed (middle), and activated (bottom) K-ras alleles. K-ras exons 0, 1, and 2 are depicted. Gene targeting to the endogenous K-ras locus generated the floxed LSL–K-ras G12D allele (38) containing a transcriptional termination codon flanked by loxP sites upstream of a mutation of glycine to aspartic acid in codon 12 in exon 1. Excision of the stop cassette by Cre recombinase allows expression of the oncogenic K-ras allele. Asterisk indicates G12D mutation in exon 1. (b) Breeding schematic of LSL–K-ras G12D and Mx1-Cre mice, with subsequent pI-pC treatment of progeny to generate KM+, KM–, K+, M+, and WT+ littermate mice. K, LSL–K-ras G12D; M, Mx1-Cre. + or – indicates presence or absence of pI-pC treatment. (c) Kaplan-Meier comparative survival analysis of KM+, KM– and negative control mice. Cumulative survival was plotted against days after treatment with pI-pC. For KM– mice, cumulative survival was plotted against days after their littermates received pI-pC treatment. KM+ (n = 25) and KM– (n = 8) mice developed a lethal myeloproliferative disease with median latencies of 35 and 58 days, respectively. K+ (n = 11), M+ (n = 8), and WT+ (n = 10) mice were healthy during an observation period of more than 200 days. (d) Splenomegaly in mice expressing oncogenic K-ras. Spleen weights (left to right): K+, 70 mg; M+, 130 mg; KM+, 560 mg; and KM+, 2,200 mg.