Zongsheng He scite author profile

Mutations in KRAS and/or BRAF that activate the ERK kinase are frequently found in colorectal cancer (CRC) and drive resistance to targeted therapies. Therefore, the identification of therapeutic targets that affect multiple signaling pathways simultaneously is crucial for improving the treatment of patients with KRAS or BRAF mutations. The proprotein convertase furin activates several oncogenic protein precursors involved in the ERK-MAPK pathway by endoproteolytic cleavage. Here we show that genetic inactivation of furin suppresses tumorigenic growth, proliferation, and migration in KRAS or BRAF mutant CRC cell lines but not in wild-type KRAS and BRAF cells. In a mouse xenograft model, these KRAS or BRAF mutant cells lacking furin displayed reduced growth and angiogenesis, and increased apoptosis. Mechanistically, furin inactivation prevents the processing of various protein pecursors including proIGF1R, proIR, proc-MET, proTGF-β1 and NOTCH1 leading to potent and durable ERK-MAPK pathway suppression in KRAS or BRAF mutant cells. Furthermore, we identified genes involved in activating the ERK-MAPK pathway, such as PTGS2, which are downregulated in the KRAS or BRAF mutant cells after furin inactivation but upregulated in wild-type KRAS and BRAF cells. Analysis of human colorectal tumor samples reveals a positive correlation between enhanced furin expression and KRAS or BRAF expression. These results indicate that furin plays an important role in KRAS or BRAF-associated ERK-MAPK pathway activation and tumorigenesis, providing a potential target for personalized treatment. 23 36 with both MAPK and PI3K signaling pathways and reduces 37 the risk of progression of metastatic CRC [4]. Like many 38 other drugs, however, single targeting of these signaling 39 pathways always have limited effects, as CRC often harbors 40 mutations in multiple signaling pathways. This highlights 41 the urgent need for new therapeutic targets that can interfere 42 in multiple signaling pathways related to tumor progression. Q1 ÀQ2 ÀQ3 ÀQ4

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The proprotein convertase furin in cancer: more than an oncogene

Khatib

Creemers

2022

Oncogene

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Loss of the proprotein convertase Furin in T cells represses mammary tumorigenesis in oncogene-driven triple negative breast cancer

Khatib

Creemers

2020

Cancer Letters

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Zongsheng He

The proprotein convertase furin is a pro-oncogenic driver in KRAS and BRAF driven colorectal cancer

The proprotein convertase furin in cancer: more than an oncogene

Loss of the proprotein convertase Furin in T cells represses mammary tumorigenesis in oncogene-driven triple negative breast cancer

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