Dual-inhibition of NAMPT and PAK4 induces anti-tumor effects in 3D-spheroids model of platinum-resistant ovarian cancer.
Kei KudoYoshimi Endo GreerTeruhiko YoshidaBrittney S HarringtonSoumya KorrapatiYusuke ShibuyaLeah HenegarJeffrey B KoppTakeo FujiiStanley LipkowitzChristina M AnnunziataPublished in: Cancer gene therapy (2024)
Ovarian cancer follows a characteristic progression pattern, forming multiple tumor masses enriched with cancer stem cells (CSCs) within the abdomen. Most patients develop resistance to standard platinum-based drugs, necessitating better treatment approaches. Targeting CSCs by inhibiting NAD+ synthesis has been previously explored. Nicotinamide phosphoribosyltransferase (NAMPT), which is the rate limiting enzyme in the salvage pathway for NAD+ synthesis is an attractive drug target in this pathway. KPT-9274 is an innovative drug targeting both NAMPT and p21 activated kinase 4 (PAK4). However, its effectiveness against ovarian cancer has not been validated. Here, we show the efficacy and mechanisms of KPT-9274 in treating 3D-cultured spheroids that are resistant to platinum-based drugs. In these spheroids, KPT-9274 not only inhibited NAD+ production in NAMPT-dependent cell lines, but also suppressed NADPH and ATP production, indicating reduced mitochondrial function. It also downregulated of inflammation and DNA repair-related genes. Moreover, the compound reduced PAK4 activity by altering its mostly cytoplasmic localization, leading to NAD+-dependent decreases in phosphorylation of S6 Ribosomal protein, AKT, and β-Catenin in the cytoplasm. These findings suggest that KPT-9274 could be a promising treatment for ovarian cancer patients who are resistant to platinum drugs, emphasizing the need for precision medicine to identify the specific NAD+ producing pathway that a tumor relies upon before treatment.
Keyphrases
- dna repair
- cancer stem cells
- randomized controlled trial
- cell proliferation
- systematic review
- end stage renal disease
- newly diagnosed
- magnetic resonance imaging
- cancer therapy
- ejection fraction
- emergency department
- epithelial mesenchymal transition
- magnetic resonance
- drug induced
- small molecule
- ultrasound guided
- tyrosine kinase
- adverse drug
- patient reported outcomes