Our understanding of the genetic landscape of inherited optic neuropathies has grown significantly over the past decades, and it is now known to involve many genes found in both the nuclear and mitochondrial genomes, exhibiting all possible inheritance patterns. Furthermore, pathogenic variants in nuclear genes of mitochondrial respiratory Complex I (CI) subunits have been identified in some cases of ION, in addition to the more common severe presentation of CI deficiencies, usually with early onset.

We conducted NGS screening of CI genes to identify potential causative variants in patients with optic atrophy, also performing comprehensive clinical assessments, including neuroimaging studies (MRI) and neurological evaluations. Detailed molecular structure modeling was performed to better evaluate the damaging effects of both novel and previously reported variants in the relevant CI subunits.

We identified and characterized candidate causative variants in 31 patients from 23 unrelated families, with biallelic or hemizygous variants in 11 different nuclear CI-related genes encoding polypeptides involved in the structure of CI, including 3 core subunits (NDUFS7, NDUFV1, NDUFV2), 4 accessory subunits (NDUFA1, NDUFA10, NDUFA12, NDUFB11), and 4 assembly factors (NDUFAF2, NDUFAF3, NDUFAF4, NDUFAF8). Notably, defects in core CI subunits in this cohort lead to isolated optic atrophy, while defects in accessory CI subunits and assembly factors resulted in a spectrum of phenotypes, from isolated to syndromic optic atrophy. For 12 cases, the subacute onset of vision loss enabled us to associate or confirm novel genes (NDUFS7, NDUFV1, NDUFAF2, NDUFAF4, NDUFAF8) with the autosomal recessive Leber Hereditary Optic Neuropathy (arLHON) phenotype. Moreover, in the NDUFS7 subunit a partial spatial segregation was noted for missense variants causing either Leigh syndrome or isolated optic atrophy, hinting at possible disease-specific molecular defects.

Our case series broadens the genetic spectrum of inherited optic neuropathies, emphasizing the crucial role of nuclear CI genes in its pathogenesis. The arLHON phenotype emerges as linked to numerous nuclear CI genes for which an insidious onset of optic atrophy is also reported, and in some cases the same variant may underlie both phenotypes. Overall, we highlight the possibly so far underestimated prevalence of CI nuclear subunits in the molecular diagnosis of ION, prompting to include all CI-related genes in the standard diagnostic screening.