Naturally-occurring rare mutations cause mild to catastrophic effects in the multifunctional and cancer-associated NQO1 protein

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Abstract

The functional and pathological implications of the enormous genetic diversity of the human genome are mostly unknown, primarily due to our unability to predict pathogenicity in a high-throughput manner. In this work, we characterized the phenotypic consequences of eight naturally-occurring missense variants on the multifunctional and disease-associated NQO1 protein using biophysical and structural analyses on several protein traits. Mutations found in both exome-sequencing initiatives and in cancer cell lines cause mild to catastrophic effects on NQO1 stability and function. Importantly, some mutations perturb functional features located structurally far from the mutated site. These effects are well rationalized by considering the nature of the mutation, its location in protein structure and the local stability of its environment. Using a set of 22 experimentally characterized mutations in NQO1, we generated experimental scores for pathogenicity that correlate reasonably well with bioinformatic scores derived from a set of commonly used algorithms, although the latter fail to semiquantitatively predict the phenotypic alterations caused by a significant fraction of mutations individually. These results provide insight into the propagation of mutational effects on multifunctional proteins, the implementation of in silico approaches for establishing genotype-phenotype correlations and the molecular determinants underlying loss-of-function in genetic diseases.

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Pacheco-García, J. L., Cano-Muñoz, M., Sánchez-Ramos, I., Salido, E., & Pey, A. L. (2020). Naturally-occurring rare mutations cause mild to catastrophic effects in the multifunctional and cancer-associated NQO1 protein. Journal of Personalized Medicine, 10(4), 1–31. https://doi.org/10.3390/jpm10040207

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