posted on 2024-02-09, 17:08authored bySergio Algar, Henar Vázquez-Villa, Pedro Aguilar-Garrido, Miguel Ángel Navarro-Aguadero, María Velasco-Estévez, Anabel Sánchez-Merino, Iván Arribas-Álvarez, Alberto Paradela, Rafael L. Giner-Arroyo, Joaquín Tamargo-Azpilicueta, Irene Díaz-Moreno, Joaquín Martínez-López, Miguel Gallardo, María L. López-Rodríguez, Bellinda Benhamú
The human microbiota
plays an important role in human health and
disease, through the secretion of metabolites that regulate key biological
functions. We propose that microbiota metabolites represent an unexplored
chemical space of small drug-like molecules in the search of new hits
for drug discovery. Here, we describe the generation of a set of complex
chemotypes inspired on selected microbiota metabolites, which have
been synthesized using asymmetric organocatalytic reactions. Following
a primary screening in CSC models, we identified the novel compound
UCM-13369 (4b) whose cytotoxicity was mediated by NPM1.
This protein is one of the most frequent mutations of AML, and NPM1-mutated
AML is recognized by the WHO as a distinct hematopoietic malignancy.
UCM-13369 inhibits NPM1 expression, downregulates the pathway associated
with mutant NPM1 C+, and specifically recognizes the C-end DNA-binding
domain of NPM1 C+, avoiding the nucleus-cytoplasm translocation involved
in the AML tumorological process. The new NPM1 inhibitor triggers
apoptosis in AML cell lines and primary cells from AML patients and
reduces tumor infiltration in a mouse model of AML with NPM1 C+ mutation.
The disclosed phenotype-guided discovery of UCM-13369, a novel small
molecule inspired on microbiota metabolites, confirms that CSC death
induced by NPM1 inhibition represents a promising therapeutic opportunity
for NPM1-mutated AML, a high-mortality disease.