Inhibition of the NOTCH and mTOR pathways by nelfinavir as a novel treatment for T cell acute lymphoblastic leukemia

T cell acute lymphoblastic leukemia (T-ALL), a neoplasm derived from T cell lineage-committed lymphoblasts, is characterized by genetic alterations that result in activation of oncogenic transcription factors and the NOTCH1 pathway activation. The NOTCH is a transmembrane receptor protein activated by gamma-secretase. gamma-secretase inhibitors (GSIs) are a NOTCH-targeted therapy for T-ALL. However, their clinical application has not been successful due to adverse events (primarily gastrointestinal toxicity), limited efficacy, and drug resistance caused by several mechanisms, including activation of the AKT/mTOR pathway. Nelfinavir is an human immunodeficiency virus 1 aspartic protease inhibitor and has been repurposed as an anticancer drug. It acts by inducing endoplasmic reticulum (ER) stress and inhibiting the AKT/mTOR pathway. Thus, it was hypothesized that nelfinavir might inhibit the NOTCH pathway via gamma-secretase inhibition and blockade of aspartic protease presenilin, which would make nelfinavir effective against NOTCH-associated T-ALL. The present study assessed the efficacy of nelfinavir against T-ALL cells and investigated mechanisms of action in vitro and in preclinical treatment studies using a SCL-LMO1 transgenic mouse model. Nelfinavir blocks presenilin 1 processing and inhibits gamma-secretase activity as well as the NOTCH1 pathway, thus suppressing T-ALL cell viability. Additionally, microarray analysis of nelfinavir-treated T-ALL cells showed that nelfinavir upregulated mRNA levels of CHAC1 (glutathione-specific gamma-glutamylcyclotransferase 1, a negative regulator of NOTCH) and sestrin 2 (SESN2; a negative regulator of mTOR). As both factors are upregulated by ER stress, this confirmed that nelfinavir induced ER stress in T-ALL cells. Moreover, nelfinavir suppressed NOTCH1 mRNA expression in microarray analyses. These findings suggest that nelfinavir inhibited the NOTCH1 pathway by downregulating NOTCH1 mRNA expression, upregulating CHAC1 and suppressing gamma-secretase via presenilin 1 inhibition and the mTOR pathway by upregulating SESN2 via ER stress induction. Further, nelfinavir exhibited therapeutic efficacy against T-ALL in an SCL-LMO1 transgenic mouse model. Collectively, these findings highlight the potential of nelfinavir as a novel therapeutic candidate for treatment of patients with T-ALL.

Automated summary

The study found that nelfinavir inhibits the NOTCH1 pathway and the AKT/mTOR pathway, induces endoplasmic reticulum (ER) stress, and suppresses the viability of T-ALL cells. Additionally, nelfinavir upregulates the expression of CHAC1 and SESN2, which negatively regulate the NOTCH and mTOR pathways, respectively. Nelfinavir also exhibits therapeutic efficacy against T-ALL in an SCL-LMO1 transgenic mouse model.