RESUMO
Leber's hereditary optic neuropathy (LHON) is a mitochondrial complex I disorder and causes inexorable painless vision loss. Recent studies from India reported that a significant proportion of LHON patients lack primary mitochondrial DNA mutations, suggesting that alternative genetic factors contribute to disease development. Therefore, this study investigated the genetic profile of LHON-affected individuals in order to understand the role of mito-nuclear genetic factors in LHON. A total of thirty probands displaying symptoms consistent with LHON have undergone whole mitochondrial and whole exome sequencing. Interestingly, whole mtDNA sequencing revealed primary mtDNA mutations in 30 % of the probands (n=9), secondary mtDNA mutations in 40 % of the probands (n=12) and no mitochondrial changes in 30 % of individuals (n=9). Further, WES analysis determined pathogenic mutations in 11 different nuclear genes, especially in cases with secondary mtDNA mutations (n=6) or no mtDNA mutations (n=6). These findings provide valuable insight into LHON genetic predisposition, particularly in cases lacking primary mtDNA mutations. See also Figure 1(Fig. 1).
RESUMO
BACKGROUND: Leber's Hereditary Optic Neuropathy (LHON) is a rare mitochondriopathy causing retinal ganglion cell degeneration resulting in central vision loss. It is caused by mitochondrial DNA (mtDNA) mutations and thus follows maternal inheritance pattern. METHODS: We analysed the whole mitochondrial genome in 100 South Indian LHON patients by utilizing Sanger and Next Generation Sequencing approaches. Haplogroup analysis was performed using HaploGrep2 to predict the risk group. Methylation changes in the mtDNA D-loop region were investigated by performing methylation-specific polymerase chain reaction (MSP). RESULTS: LHON associated mutations were detected in 55% of the patients of which 42% harboured the primary mutations and 13% harboured potentially pathogenic variants that were previously reported to cause LHON. The candidate mutations identified with confirmed pathogenicity are: m.11778G > A (38%), m.14484 T > C (3%), m.4171C > A (1%) and m.11696G > A (1%). MSP results demonstrated that the D-loop region was unmethylated in all the study subjects including mutation-positive patients, mutation-negative patients, asymptomatic carriers, and controls. Haplogroup-M was prevalent (69%) in the study cohort followed by R (14%), U (9%), N (3%), HV (2%), G (2%), and W (1%). The frequency of the predominant mutation m.11778G > A was found lower (Ì´ 11%) in haplogroup-U. CONCLUSIONS: South Indian LHON cohort shows a unique profile of mtDNA mutations and haplogroup association presumably with no role of D-loop methylation. MT-ND4, MT-ND5, and MT-ND1 serve as the hotspot genes in this cohort. The presence of LHON associated mutations in patients lacking the common primary mutations insists on the necessity of mitochondrial genome sequencing in individuals suspected with LHON.
