Advanced Science (Apr 2024)

OptiMo‐LDLr: An Integrated In Silico Model with Enhanced Predictive Power for LDL Receptor Variants, Unraveling Hot Spot Pathogenic Residues

  • Asier Larrea‐Sebal,
  • Iñaki Sasiain,
  • Shifa Jebari‐Benslaiman,
  • Unai Galicia‐Garcia,
  • Kepa B. Uribe,
  • Asier Benito‐Vicente,
  • Irene Gracia‐Rubio,
  • Harbil Bediaga‐Bañeres,
  • Sonia Arrasate,
  • Ana Cenarro,
  • Fernando Civeira,
  • Humberto González‐Díaz,
  • Cesar Martín

DOI
https://doi.org/10.1002/advs.202305177
Journal volume & issue
Vol. 11, no. 13
pp. n/a – n/a

Abstract

Read online

Abstract Familial hypercholesterolemia (FH) is an inherited metabolic disease affecting cholesterol metabolism, with 90% of cases caused by mutations in the LDL receptor gene (LDLR), primarily missense mutations. This study aims to integrate six commonly used predictive software to create a new model for predicting LDLR mutation pathogenicity and mapping hot spot residues. Six predictive‐software are selected: Polyphen‐2, SIFT, MutationTaster, REVEL, VARITY, and MLb‐LDLr. Software accuracy is tested with the characterized variants annotated in ClinVar and, by bioinformatic and machine learning techniques all models are integrated into a more accurate one. The resulting optimized model presents a specificity of 96.71% and a sensitivity of 98.36%. Hot spot residues with high potential of pathogenicity appear across all domains except for the signal peptide and the O‐linked domain. In addition, translating this information into 3D structure of the LDLr highlights potentially pathogenic clusters within the different domains, which may be related to specific biological function. The results of this work provide a powerful tool to classify LDLR pathogenic variants. Moreover, an open‐access guide user interface (OptiMo‐LDLr) is provided to the scientific community. This study shows that combination of several predictive software results in a more accurate prediction to help clinicians in FH diagnosis.

Keywords