Leber遗传性视神经病变研究进展和挑战

Leber遗传性视神经病变(Leber hereditary optic neuropathy, LHON; MIM535000)是最典型的线粒体遗传病之一, 主要由线粒体DNA (Mitochondrial DNA, mtDNA)3个原发突变(Primary mutation, m.11778G>A、m.3460G> A 和m.14484T>C)引起。患者表现为无痛性双侧视力下降或丧失, 主要易感人群为青壮年男性。不完全外显(Incomplete penetrance)和性别偏好(Gender bias)是该病亟待解决的两大难题, 目前尚无有效的预防及治疗措施。文章对近年来LHON 的分子发病机制、临床症状及特点、体外实验和动物模型研究、预防及治疗等方面的研究进展进行综述, 并集中介绍了我们近期对于我国LHON患者的研究结果。     

Cytochrome b mutations in Leber hereditary optic neuropathy.

New mutations were discovered in the apocytochrome b gene in Leber hereditary optic neuropathy probands who did not harbor either of the two known Complex I mutations (positions 3,460 and 11,778). A mutation at position 15,257 was found in eight independent probands which changed a highly conserved aspartate to asparagine, was not found in controls, and appears to be pathogenetically significant. The 15,257 mutation occurred in association with a known synergistic mutation at position 13,708 in 7/8 probands and in association with a new apocytochrome b mutation at position 15,812 in 4/8 probands. Mutations in Complex III genes may be involved in Leber hereditary optic neuropathy and multiple, simultaneous mutations occur frequently.     

Pedigree analysis in Leber hereditary optic neuropathy families with a pathogenic mtDNA mutation.

Eighty-nine index patients from 85 families were defined as having Leber hereditary optic neuropathy (LHON) by the presence of one of the mtDNA mutations at positions 11778 (66 families), 3460 (8 families), or 14484 (11 families). There were 62 secondary cases. Overall, 64% of index cases had a history of similarly affected relatives. The ratios of affected males to affected females were 3.7:1 (11778), 4.3:1 (3460), and 7.7:1 (14484). The 95th centile for age at onset of symptoms was close to 50 years in index, secondary, male, and female patients. There were no differences in the distributions of age at onset between different mutation groups, between index and secondary cases, or between males and females, apart from this being slightly later in all female patients than in male 11778 patients. There was no significant correlation between age at onset in index cases and that in their affected siblings or cousins. Heteroplasmy (< 96% mutant mtDNA) was detected in 4% of affected subjects (67%-90% mutant mtDNA) and in 13.6% of 140 unaffected relatives (< 5%-90% mutant mtDNA). Analysis of all pedigrees, excluding sibships < 50 years of age and index cases, indicated recurrence risks of 30%, 8%, 46%, 10%, 31%, and 6%, respectively, to the brothers, sisters, nephews, nieces, and male and female matrilineal first cousins of index cases. Affected females were more likely to have affected children, particularly daughters, than were unaffected female carriers. The pedigree data were entirely compatible with the previously proposed X-linked susceptibility locus, with a gene frequency of .08, penetrance of .11 in heterozygous females, and 40% of affected females being homozygous, the remainder being explained by heterozygosity and disadvantageous X inactivation.     

Pitfalls in the molecular genetic diagnosis of Leber hereditary optic neuropathy (LHON).

Pathogenetic mutations in mtDNA are found in the majority of patients with Leber hereditary optic neuropathy (LHON), and molecular genetic techniques to detect them are important for the diagnosis. A false-positive molecular genetic error has adverse consequences for the diagnosis of this maternally inherited disease. We found a number of mtDNA polymorphisms that occur adjacent to known LHON-associated mutations and that confound their molecular genetic detection. These transition mutations occur at mtDNA nt 11779 (SfaNI site loss, 11778 mutation), nt 3459 (BsaHI site loss, 3460 mutation), nt 15258 (AccI site loss, 15257 mutation), nt 14485 (mismatch primer Sau3AI site loss, 14484 mutation), and nt 13707 (BstNI site loss, 13708 mutation). Molecular genetic detection of the most common pathogenetic mtDNA mutations in LHON, using a single restriction enzyme, may be confounded by adjacent polymorphisms that occur with a false-positive rate of 2%-7%.     

Sequence analysis of the mitochondrial genomes from Dutch pedigrees with Leber hereditary optic neuropathy

The complete mitochondrial DNA (mtDNA) sequences for 63 Dutch pedigrees with Leber hereditary optic neuropathy (LHON) were determined, 56 of which carried one of the classic LHON mutations at nucleotide (nt) 3460, 11778, or 14484. Analysis of these sequences indicated that there were several instances in which the mtDNAs were either identical or related by descent. The most striking example was a haplogroup J mtDNA that carried the 14484 LHON mutation. Four different but related mitochondrial genotypes were identified in seven of the Dutch pedigrees with LHON, including six of those described by van Senus. The control region of the founder sequence for these Dutch pedigrees with LHON matches the control-region sequence that Macmillan and colleagues identified in the founder mtDNA of French Canadian pedigrees with LHON. In addition, we obtained a perfect match between the Dutch 14484 founder sequence and the complete mtDNA sequences of two Canadian pedigrees with LHON. Those results indicate that these Dutch and French Canadian 14484 pedigrees with LHON share a common ancestor, that the single origin of the 14484 mutation in this megalineage occurred before the year 1600, and that there is a 14484/haplogroup J founder effect. We estimate that this lineage--including the 14484 LHON mutation--arose 900-1,800 years ago. Overall, the phylogenetic analyses of these mtDNA sequences conservatively indicate that a LHON mutation has arisen at least 42 times in the Dutch population. Finally, analysis of the mtDNA sequences from those pedigrees that did not carry classic LHON mutations suggested candidate pathogenic mutations at nts 9804, 13051, and 14325.     

An ND-6 mitochondrial DNA mutation associated with Leber hereditary optic neuropathy.

A mitochondrial DNA mutation at nucleotide position 14,484 was found in 14 independent probands with Leber hereditary optic neuropathy and in 0/250 controls. The 14,484 mutation, which changes methionine-64 to valine in a conserved domain of the ND-6 gene, occurred in association with a mitochondrial DNA haplotype that includes the 13,708 secondary mutation in 10/14 probands. An associated mutation at nucleotide position 3,394, which changes conserved tyrosine-30 to histidine in the ND-1 gene, was observed in 5/14 probands positive for the 14,484 mutation, all of whom harbored the same mitochondrial DNA haplotype. Multiple mitochondrial DNA mutations may interact in the pathogenesis of Leber hereditary optic neuropathy and the 13,708 secondary mutation appears to play a central role in this process.     

Longitudinal study of a heteroplasmic 3460 Leber hereditary optic neuropathy family by multiplexed primer-extension analysis and nucleotide sequencing.

Nucleotide-sequencing and multiplexed primer-extension assays have been used to quantitate the mutant-allele frequency in 14 maternal relatives, spanning three generations, from a family that is heteroplasmic for the primary Leber hereditary optic neuropathy (LHON) mutation at nucleotide 3460 of the mitochondrial genome. There was excellent agreement between the values that were obtained with the two different methods. The longitudinal study shows that the mutant-allele frequency was constant within individual family members over a sampling period of 3.5 years. Second, although there was an overall increase in the mutant-allele frequency in successive generations, segregation in the direction of the mutant allele was not invariant, and there was one instance in which there was a significant decrease in the frequency from parent to offspring. From these two sets of results, and from previous studies of heteroplasmic LHON families, we conclude that there is no evidence for a marked selective pressure that determines the replication, segregation, or transmission of primary LHON mutations to white blood cells and platelets. Instead, the mtDNA molecules are most likely to replicate and segregate under conditions of random drift at the cellular level. Finally, the pattern of transmission in this maternal lineage is compatible with a developmental bottleneck model in which the number of mitochondrial units of segregation in the female germ line is relatively small in relation to the number of mtDNA molecules within a cell. However, this is not an invariant pattern for humans, and simple models of mitochondrial gene transmission are inappropriate at the present time.     

Evidence against an X-linked visual loss susceptibility locus in Leber hereditary optic neuropathy.

Pedigree analysis of British families with Leber hereditary optic neuropathy (LHON) closely fits a model in which a pathogenic mtDNA mutation interacts with an X-linked visual loss susceptibility locus (VLSL). This model predicts that 60% of affected females will show marked skewing of X inactivation. Linkage analysis in British and Italian families with genetically proven LHON has excluded the presence of such a VLSL over 169 cM of the X chromosome both when all families were analyzed together and when only families with the bp 11778 mutation were studied. Further, there was no excess skewing of X inactivation in affected females. There was no evidence for close linkage to three markers in the pseudoautosomal region of the sex chromosomes. The mechanism of incomplete penetrance and male predominance in LHON remains unclear.     

A variant of Leber hereditary optic neuropathy characterized by recovery of vision and by an unusual mitochondrial genetic etiology.

The Tas2 and Vic2 Australian families are affected with a variant of Leber hereditary optic neuropathy (LHON). The risk of developing the optic neuropathy shows strict maternal inheritance, and the ophthalmological changes in affected family members are characteristic of LHON. However, in contrast to the common form of the disease, members of these two families show a high frequency of vision recovery. To ascertain the mitochondrial genetic etiology of the LHON in these families, both (a) the the nucleotide sequences of the seven mitochondrial genes encoding subunits of respiratory-chain complex I and (b) the mitochondrial cytochrome b gene were determined for representatives of both families. Neither family carries any of the previously identified primary mitochondrial LHON mutations: ND4/11778, ND1/3460, or ND1/4160. Instead, both LHON families carry multiple nucleotide changes in the mitochondrial complex I genes, which produce conservative amino acid changes. From the available sequence data, it is inferred that the Vic2 and Tas2 LHON families are phylogenetically related to each other and to a cluster of LHON families in which mutations in the mitochondrial cytochrome b gene have been hypothesized to play a primary etiological role. However, sequencing analysis establishes that the Vic2 and Tas2 LHON families do not carry these cytochrome b mutations. There are two hypotheses to account for the unusual mitochondrial genetic etiology of the LHON in the Tas2 and Vic2 LHON families. One possibility is that there is a primary LHON mutation within the mitochondrial genome but that it is at a site that was not included in the sequencing analyses. Alternatively, the disease in these families may result from the cumulative effects of multiple secondary LHON mutations that have less severe phenotypic consequences.     

Mitochondrial DNA mutation in an Italian family with Leber hereditary optic neuropathy

Summary Mitochondrial (mt) DNA from a Southern Italian family with Leber hereditary optic neuropathy was analyzed for the presence of the reported mutation at position 11778 of the ND4 subunit gene. The point mutation was found in mt DNA extracted from peripheral blood in all members of the family with the exclusion of the father, and was present in a homoplasmic fashion, despite the phenotypic heterogeneity of disease presentation among family members.     

Patients with Leber hereditary optic neuropathy fail to compensate impaired oxidative phosphorylation

Ninety-five percent of Leber hereditary optic neuropathy (LHON) patients carry a mutation in one out of three mtDNA-encoded ND subunits of complex I. Penetrance is reduced and more male than female carriers are affected. To assess if a consistent biochemical phenotype is associated with LHON expression, complex I- and complex II-dependent adenosine triphosphate synthesis rates (CI-ATP, CII-ATP) were determined in digitonin-permeabilized peripheral blood mononuclear cells (PBMCs) of thirteen healthy controls and for each primary mutation of a minimum of three unrelated patients and of three unrelated carriers with normal vision and were normalized per mitochondrion (citrate synthase activity) or per cell (protein content). We found that in mitochondria, CI-ATP and CII-ATP were impaired irrespective of the primary LHON mutation and clinical expression. An increase in mitochondrial density per cell compensated for the dysfunctional mitochondria in LHON carriers but was insufficient to result in a normal biochemical phenotype in early-onset LHON patients.