A Novel G88S Mutation in POR Leads to Severe PORD

Context: P450 oxidoreductase (POR) deficiency is a rare congenital adrenal hyperplasia with variable severity. The mechanisms of severe mutations and their full metabolic consequences, including drug metabolism, are not fully characterized. Objective: To define the clinical, biochemical, and molecular consequences of a novel homozygous POR missense mutation, p.Gly88Ser (G88S), identified in four unrelated Argentine families. Design: A translational study combining clinical case series analysis with comprehensive in vitro molecular and functional characterization of the novel protein variant. Setting: Tertiary pediatric endocrine centers in Argentina and Switzerland. Patients: Five individuals (four 46,XY; one 46,XX) from four unrelated families presenting with disorders of sex development and adrenal dysfunction. Main Outcome Measures: Clinical phenotypes, hormonal profiles, and POR gene sequencing. In vitro analysis of recombinant POR measured flavin content, reductase activity, and support of steroidogenic and drug-metabolizing P450s. Results: All patients were homozygous for the c.262G>A (p.G88S) mutation. This FMN-binding domain variant caused protein instability with severe loss of FMN (<30%) and FAD (<15%) cofactors. Steroidogenic activities were virtually abolished (CYP21A2: 1.3%; CYP17A1 17,20-lyase: 5.5% of wild-type), explaining the clinical phenotype. Activities of major drug-metabolizing enzymes were also severely impaired (3-9% of wild-type), establishing a “ poor metabolizer” phenotype. Conclusions: The POR G88S mutation causes one of the most severe forms of PORD described, driven by dynamic protein instability and cofactor loss. It is a critical pharmacogenomic marker, and its recurrence in Argentina suggests a potential screening target.