Loss of wild-type Kras promotes activation of all Ras isoforms in oncogenic Kras-induced leukemogenesis.

Despite the well-established role of oncogenic RAS in promoting tumor formation, whether and how wild-type (WT) Ras inhibits tumorigenesis under physiological conditions remains controversial. Here, we show that in a fraction of endogenous oncogenic Kras-induced hematopoietic malignancies, including acute T-cell lymphoblastic leukemia/lymphoma (T-ALL) and myeloproliferative neoplasm (MPN), WT Kras expression is lost through epigenetic or genetic mechanisms. Using conditional Kras(G12D/-) mice, we find that WT Kras deficiency promotes oncogenic Kras-induced MPN, but not T-ALL, in a cell-autonomous manner. Loss of WT Kras rescues oncogenic Kras-mediated hematopoietic stem cell depletion and further enhances granulocyte-macrophage colony-stimulating factor signaling in myeloid cells expressing oncogenic Kras. Quantitative signaling studies reveal that oncogenic Kras but not oncogenic Nras leads to cross-activation of WT Ras, whereas loss of WT Kras further promotes the activation of all Ras isoforms. Our results demonstrate the tumor suppressor function of WT Kras in oncogenic Kras-induced leukemogenesis and elucidate its underlying cellular and signaling mechanisms.

Loss of Dnmt3a and endogenous Kras(G12D/+) cooperate to regulate hematopoietic stem and progenitor cell functions in leukemogenesis.

Oncogenic NRAS and KRAS mutations are prevalent in human juvenile and chronic myelomonocytic leukemia (JMML/CMML). However, additional genetic mutations cooperating with oncogenic RAS in JMML/ CMML progression and/or their transformation to acute myeloid leukemia (AML) remain largely unknown. Here we tested the potential genetic interaction of DNMT3A mutations and oncogenic RAS mutations in leukemogenesis. We found that Dnmt3a(-/-) induces multiple hematopoietic phenotypes after a prolonged latency, including T-cell expansion in the peripheral blood, stress erythropoiesis in the spleen and myeloid malignancies in the liver. Dnmt3a(-/-) significantly promoted JMML/CMML progression and shortened the survival of Kras(G12D/+) mice in a cell-autonomous manner. Similarly, downregulating Dnmt3a also promoted myeloid malignancies in Nras(G12D/+) mice. Further studies show that Dnmt3a deficiency rescues Kras(G12D/+)-mediated depletion of hematopoietic stem cells and increases self-renewal of Kras(G12D/+) myeloid progenitors (MPs). Moreover, ~33% of animals developed an AML-like disease, which is driven by Kras(G12D/+); Dnmt3a(-/-) MPs. Consistent with our result, COSMIC database mining demonstrates that the combination of oncogenic RAS and DNMT3A mutations exclusively occurred in patients with JMML, CMML or AML. Our results suggest that DNMT3A mutations and oncogenic RAS cooperate to regulate hematopoietic stem and progenitor cells and promote myeloid malignancies.

RAF kinase inhibitor-independent constitutive activation of Yes-associated protein 1 promotes tumor progression in thyroid cancer.

The transcription coactivator Yes-associated protein 1 (YAP1) is regulated by the Hippo tumor suppressor pathway. However, the role of YAP1 in thyroid cancer, which is frequently associated with the BRAF(V600E) mutation, remains unknown. This study aimed to investigate the role of YAP1 in thyroid cancer. YAP1 was overexpressed in papillary (PTC) and anaplastic thyroid cancer, and nuclear YAP1 was more frequently detected in BRAF(V600E) (+) PTC. In the thyroid cancer cell lines TPC-1 and HTH7, which do not have the BRAF(V600E) mutation, YAP1 was cytosolic and inactive at high cell densities. In contrast, YAP1 was retained in the nucleus and its target genes were expressed in the thyroid cancer cells 8505C and K1, which harbor the BRAF(V600E) mutation, regardless of cell density. Furthermore, the nuclear activation of YAP1 in 8505C was not inhibited by RAF or MEK inhibitor. In vitro experiments, YAP1 silencing or overexpression affected migratory capacities of 8505C and TPC-1 cells. YAP1 knockdown resulted in marked decrease of tumor volume, invasion and distant metastasis in orthotopic tumor xenograft mouse models using the 8505C thyroid cancer cell line. Taken together, YAP1 is involved in the tumor progression of thyroid cancer and YAP1-mediated effects might not be affected by the currently used RAF kinase inhibitors.