Abstract 4183

The oncogenic NRAS mutations are frequently identified in myeloid diseases but rare in lymphoid diseases. They occur in 4% of acute T-cell lymphoblastic leukemia/lymphoma (T-ALL) patients and 22% of human T-ALL cell lines. Its differential roles in myeloid versus lymphoid disease development remain unclear. Here we examine the tumorigenic potential of oncogenic Nras in T-cells using two conditional Nras G12D murine knock-in models that either hypomorphically (NrasG12D Hypo) or normally (NrasG12D Norm) expresses oncogenic Nras G12D from its endogenous locus. Mice expressing monoallelic or biallelic NrasG12D Hypo develop normally and are tumor free. However, NrasG12D Norm leads to acute T-cell leukemia/lymphoma (TAL/L) in a bone marrow transplantation model, with a low incidence (∼8%) when expressing one allele (TAL/L-het) and a complete penetrance when expressing two alleles (TAL/L-homo). TAL/L-het tumors are associated with spontaneous up-regulation of oncogenic Nras in ∼67% of animals, and tumor cells are TdT positive, suggesting that they are transformed at an immature stage. In contrast, TAL/L-homo tumors express comparable levels of Nras to control thymocytes, and tumor cells are TdT negative, suggesting that they are transformed at a more mature stage. Both TAL/L-het and TAL/L-homo tumors are oligoclonal or polyclonal. Above 70% of these tumors contain clonal Notch1 mutations and are sensitive to gamma-secretase inhibitor. These data indicate that Notch1 mutations are acquired at an early stage and play an important role in the development of TAL/L-het and TAL/L-homo tumors. Together, our results show that engdogenous oncogenic Nras mutation leads to TAL/L in a dose-dependent manner, and thus explain the low incidence of oncogenic NRAS mutations in human T-cell diseases.

Disclosures:

No relevant conflicts of interest to declare.

Author notes

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Asterisk with author names denotes non-ASH members.

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