A null mutation in the photoreceptor guanylate cyclase gene causes the retinal degeneration chicken phenotype

The retinas of the retinal degeneration (rd) chicken are fully developed and possess normal morphology at hatching but fail to respond to light stimulation. Analyses of retinal cGMP, the internal messenger of phototransduction, show that the amount of cGMP in predegenerate, fully developed rd/rd photoreceptors is 5-10 times less than that seen in normal photoreceptor cells. We show that the low levels of cGMP in rd chicken retina are a consequence of a null mutation in the photoreceptor guanylate cyclase (GC1) gene. Thus, the rd chicken is a model for human Leber's congenital amaurosis. Absence of GC1 in rd retina prevents phototransduction and affects survival of rods and cones but does not interfere with normal photoreceptor development.

Pedigree analysis of French Canadian families with T14484C Leber's hereditary optic neuropathy

We analyzed the clinical phenotype and determined the recurrence risks to relatives of patients with T14484C Leber's hereditary optic neuropathy (LHON). LHON is a maternally inherited optic neuropathy that primarily affects adolescent males. It is usually associated with one of three mtDNA mutations: G3460A, G11778A, or T14484C. Definition of recurrence risks for the T14484C mutation previously has not been possible due to the relative scarcity of families with this mutation. We obtained blood samples from index patients and their consenting family members, all of whom were of French Canadian ancestry and screened for LHON mutations in mtDNA. Referring ophthalmologists furnished clinical summaries and patients provided pedigree data. T14484C was the most common mutation in the pedigrees analyzed and was always homoplasmic. In these pedigrees, the ratio of affected males to females was 8:1. Median age at onset for males was 19 years (95th percentile, 40.8 years; range, 6 to 48 years). Some improvement of vision was observed in 58% of patients. Recurrence risks to brothers were 28%, sisters 5%, nephews 30%, nieces 3%, male matrilineal first cousins 19%, and female matrilineal first cousins 4%. Recurrence risks to brothers and nephews were not different; however, recurrence risks to brothers and male cousins and to nephews and male cousins were significantly different. There were no differences in recurrence risks to sisters and nieces or to either group compared with their female cousins. Affected females did not have more affected children than unaffected females. The clinical characteristics of French Canadian patients with T14484C LHON were strikingly similar to those in previous reports, suggesting that recurrence risks are generalizable to other T14484C LHON populations for genetic counseling of T14484C LHON families.

Detection of mitochondrial DNA nucleotide 11778 point mutation of Leber hereditary optic neuropathy from archival stained histopathological preparations

PURPOSE

We evaluated the availability of archival histopathological preparations for genetic diagnosis of Leber hereditary optic neuropathy (LHON).

METHODS

Preparations of various tissues of an autopsied case of LHON, and of the optochiasmal arachnoidea of nine cases of bilateral optic neuropathy (BON) were studied to determine the presence of a point mutation of the mitochondrial DNA nucleotide (nt) 11778 using PCR method.

RESULTS

An nt11778 point mutation was detected in all preparations of the autopsied case. Five preparations out of six BON cases who were diagnosed as LHON based on positive family history, revealed this point mutation. This mutation was also detected in two of three BON patients with no family history of the disease.

CONCLUSION

The archival preparations were found to be available as materials of genetic diagnosis for LHON, which indicated that it would be capable to reevaluate retrospectively the pedigree of LHON and BON cases.

Orbital high resolution magnetic resonance imaging with fast spin echo in the acute stage of Leber's hereditary optic neuropathy

Some evidence suggests that the primary locus of the lesion in Leber's hereditary optic neuropathy (LHON) may be intraocular rather than retrobulbar. To clarify this issue, the condition of the retrobulbar portion of the optic nerve was evaluated in patients with the acute stage of LHON. High resolution MRI with fast spin echo sequences of the optic nerve complex in the orbit was carried out. Five patients with acute stage LHON were compared with seven patients with acute stage optic neuritis. On T2 weighted fast spin echo MRI, signal changes did not appear in the retrobulbar optic nerve complex in acute stage LHON. By comparison, patients with optic neuritis showed pronounced high signals in the optic nerve. Subsequent orbital MRI in the atrophic stages of the same patients with LHON showed an increase in signal intensity in the optic nerve toward the orbital apex in both eyes. The present results support the hypothesis that a primary lesion in LHON may be intraocular.

Demonstration of a founder effect and fine mapping of dominant optic atrophy locus on 3q28-qter by linkage disequilibrium method: a study of 38 British Isles pedigrees

Dominant optic atrophy, a hereditary optic neuropathy causing decreased visual acuity, colour vision deficits, a centro-caecal scotoma and optic nerve pallor, has been mapped to a genetic interval of 1.4 cM between loci D3S3669 and D3S3562 on chromosome 3q28-qter. In order to further refine the critical disease interval, and to test the power of haplotype analysis and linkage disequilibrium mapping, we identified a total of 38 families with dominant optic atrophy, unrelated on the basis of genealogy, from a data base of genetic eye disease families originating from the British Isles. They were studied with 12 highly polymorphic microsatellite markers spanning a region of 12 cM around the dominant optic atrophy locus (OPA1). Allelic frequency analysis [chi-squared test, likelihood ratio test (LRT) and P values] and haplotype parsimony analysis showed evidence of a founder effect in 36 of the 38 pedigrees. Six markers (D3S3669, D3S1523, D3S3642, D3S2305, D3S3590 and D3S3562), spanning 1.4 cM across the disease-associated region, demonstrated significant linkage disequilibrium by LRT (P < 0.05). A peak LRT value of 10.86 (P < 0.0005, lambda = 0.4) occurred at D3S3669. On linkage disequilibrium multipoint analysis the maximum lod score of 8.01 is achieved at D3S1523, and 95% confidence intervals suggest that OPA1 lies within ca. 400 kb of D3S1523.

The polymerase chain reaction in the study of mitochondrial genetics

Since its development in the late 1980's, the polymerase chain reaction (PCR) has revolutionised molecular genetic studies. It has provided direct access to genetic material in quantities sufficient for meaningful analyses to be performed. Adaptations to the basic technique have resulted in a wide range of applications from basic gene amplification to the estimation of DNA species quantities within cells. The study of human mitochondrial genetics is but one of the many disciplines to benefit from the rapid ascension of PCR based technology. In this communication we outline several uses of the PCR technique in the detection, quantification and characterisation of human mitochondrial genetic defects. The data presented in this communication highlight the versatility and applicability of PCR not only to mitochondrial research but to other disciplines of medical research.

Linkage studies in dominant optic atrophy, Kjer type: possible evidence for heterogeneity

Dominant optic atrophy, Kjer type, is an autosomal dominant disorder causing progressive loss of visual acuity and colour vision from early childhood. The gene (OPA1) has variable expressivity, a penetrance of 0.98, and the locus has been localised to 3q28-29. We have genotyped nine British families with the disease using 12 polymorphic microsatellite markers from this region. Linkage and haplotype analysis shows the OPA1 gene to be located in a 2.3 cM interval between markers D3S1601 and D3S2748. One family showed no evidence of linkage with the chromosome 3 markers, suggesting for the first time that locus heterogeneity for this disease may exist, although exclusion for linkage is based on unaffected subjects. In addition, analysis of recombinants has enabled us to order the 12 markers along chromosome 3.

Leber hereditary optic neuropathy: mitochondrial mutations and degeneration of the optic nerve

The predominant manifestation of Leber hereditary optic neuropathy (LHON) is a sudden and usually severe bilateral loss of central vision, most often in the mid-20s, that is due to a degeneration of the ganglion cell layer and optic nerve. LHON is an inherited form of blindness in which a mutation in the mitochondrial genome (mtDNA) is the primary etiological event. More than 95% of the LHON pedigrees in peoples of Northern European descent harbor one of the three mitochondrial mutations at nucleotides 3460, 11,778 and 14,484, although there are other rare primary mutations. In addition, there may be mtDNA mutations that have a secondary etiological role. The penetrance of the optic neuropathy is incomplete in LHON families, and males are affected much more often then females. The incomplete penetrance indicates that secondary etiological factors are necessary for the development of the optic neuropathy, although they are poorly understood at the present time. Several types of studies suggest that optic nerve function in LHON patients is impaired in the presymptomatic phase, probably as a result of a mitochondrial respiratory chain abnormality, although visual acuity is not compromised. In some family members, the presence of secondary etiological factors triggers a wave of optic nerve dysfunction in which vision is lost (the acute phase). Depending upon the particular primary LHON mutation that the patient carries, a variable proportion of the dysfunctional ganglion cells and optic nerve axons die during the atrophic phase, probably through an apoptotic pathway. In 11,778 LHON patients, retinal ganglion cell degeneration occurs almost without exception, and recovery of vision is extremely rare. In contrast, activation of the cell death pathway is less frequent, or less extensive, in 14,484 LHON patients and there is often a substantial recovery of vision.

Human bZIP transcription factor gene NRL: structure, genomic sequence, and fine linkage mapping at 14q11.2 and negative mutation analysis in patients with retinal degeneration

The NRL gene encodes an evolutionarily conserved basic motif-leucine zipper transcription factor that is implicated in regulating the expression of the photoreceptor-specific gene rhodopsin. NRL is expressed in postmitotic neuronal cells and in lens during embryonic development, but exhibits a retina-specific pattern of expression in the adult. To understand regulation of NRL expression and to investigate its possible involvement in retinopathies, we have determined the complete sequence of the human NRL gene, identified a polymorphic (CA)n repeat (identical to D14S64) within the NRL-containing cosmid, and refined its location by linkage analysis. Since a locus for autosomal recessive retinitis pigmentosa (arRP) has been linked to markers at 14q11 and since mutations in rhodopsin can lead to RP, we sequenced genomic PCR products of the NRL gene and of the rhodopsin-Nrl response element from a panel of patients representing independent families with inherited retinal degeneration. The analysis did not reveal any causative mutations in this group of patients. These investigations provide the basis for delineating the DNA sequence elements that regulate NRL expression in distinct neuronal cell types and should assist in the analysis of NRL as a candidate gene for inherited diseases/syndromes affecting visual function.

mtDNA mutations confer cellular sensitivity to oxidant stress that is partially rescued by calcium depletion and cyclosporin A

The complete mechanism by which pathogenic mtDNA mutations cause cellular pathophysiology and in some cases cell death is unclear. Oxidant stress is especially toxic to excitable nerve and muscle cells, cells that are often affected in mitochondrial disease. The sensitivity of cells bearing the LHON, MELAS, and MERRF mutations to oxidant stress was determined. All were significantly more sensitive to H2O2 exposure than their nonmutant cybrid controls, the order of sensitivity was MELAS > LHON > MERRF > controls. Depletion of Ca2+ from the medium protected all cell lines from oxidant stress, consistent with the hypothesis that death induced by oxidant stress is Ca(2+)-dependent. A potential downstream target of Ca2+ is the mitochondrial permeability transition, MPT, which is inhibited by cyclosporin A. Treatment of MELAS, LHON, and MERRF cells with cyclosporin A caused significant rescue from oxidant exposure, and in each case significantly greater rescue of mutant than control cells. The pronounced oxidant-sensitivity of mutant cells, and their protection by Ca2+ depletion and CsA, has potential implications for both the pathophysiological mechanism and therapy of these mitochondrial genetic diseases.

Progressive dystonia with optic atrophy in a Jewish-Iraqi family

The combination of progressive dystonia and optic atrophy is extremely rare and its morphological, metabolic and genetic basis is unknown. In a family of 9 children (8 males) born to consanguineous Israeli-Jewish-Iraqi parents, we identified four brothers who developed the syndrome at the end of the first decade. Patients had hemi or bilateral dystonia associated with striatal, mainly putaminal, atrophy on CT and MRI, various degrees of optic atrophy, minimal corticospinal tract involvement, normal intelligence and no peripheral nervous system or systemic abnormalities. No causative metabolic defect was identified. None of the several known mitochondrial DNA mutations associated with Leber's hereditary optic neuropathy (LHON) or with LHON with dystonia were detected. Likewise, linkage to the idiopathic torsion dystonia region on chromosome 9q34 was excluded. It is suggested that this in our patients might be due to a yet unidentified genomic, autosomal recessive mutation.

[Leber "plus" disease: optic neuropathy, parkinsonian syndrome and supranuclear ophthalmoplegia]

A 34-year-old right handed man presented with a bilateral subacute optical neuropathy associated with cervical dystonia, parkinsonism and supranuclear ophtalmoplegia. Magnetic resonance imaging showed in T2 increased intensity of signal in the dorsal mesencephalum and pons as well as in dorsal part of striata. The 3,460 mutation of mitochondrial DNA was found in a blood sample. This observation adds to the variability of presentation of Leber's "plus".

Population genetics and disease susceptibility: characterization of central European haplogroups by mtDNA gene mutations, correlation with D loop variants and association with disease

Mitochondrial (mt)DNA haplogroups in a German control group (n = 67) were characterized by screening mitochondrial coding regions encompassing most of the ND, tRNA and cyt b genes. We used a PCR-SSCP screening approach followed by direct sequencing of polymorphic mtDNA fragments. Five major mtDNA lineages, diverging in at least nine different haplogroups, could be defined by characteristic polymorphic sites in mitochondrial genes. Additional sequencing of two hypervariable segments (HVS-I and II) of the non-coding displacement (D) loop in all control subjects revealed that certain D loop variants were strongly correlated with lineages and haplogroups, while others represented hotspots occurring frequently in different haplogroups. The existence of identified lineages and haplogroups received support from data in the literature, obtained by use of different approaches. Subsequently, we investigated four disease groups for association with these haplogroups: (i) LHON patients (n = 55) carrying at least one of the primary/intermediate LHON mutations at nt 3460, 11778, 14484 and/or 15257; (ii) patients suffering from Wolfram or DIDMOAD syndrome (n = 8); (iii) MELAS patients (n = 9); (iv) a group of children, who died from 'sudden infant death syndrome' (SIDS) (n = 9). The distribution patterns among the haplogroups of the disease groups (LHON, DIDMOAD and SIDS) differed considerably from the control population. LHON and DIDMOAD were significantly under-represented in the most frequent German haplogroup DC, but were concentrated in a mtDNA lineage defined by polymorphisms at nt 4216 + 11251 + 16126. As this lineage diverged into two precisely defined haplogroups, LHON and DIDMOAD could be assigned to the two haplogroups separately. Strikingly, SIDS was often found in association with two rare German haplogroups. MELAS patients were equally distributed among German haplogroups and, moreover, did not reveal any accumulation of specific D loop variants. We conclude that certain European mtDNA haplogroups define a genetic susceptibility basis for various disorders.

In vivo skeletal muscle mitochondrial function in Leber's hereditary optic neuropathy assessed by 31P magnetic resonance spectroscopy

We used 31P magnetic resonance spectroscopy (31P-MRS) to assess in vivo skeletal muscle mitochondrial function in 10 Leber's hereditary optic neuropathy patients/carriers with a mitochondrial DNA (mtDNA) mutation at one of three nucleotide positions, 11,778, 14,484, and 3,460. We studied one affected patient for each mutation and two unaffected carriers with the 11,778 or 3,460 mutation and three carriers with 14,484. All subjects were homoplasmic except the two 3,460 carriers, who showed 80% and 15% of mutated mtDNA. 31P-MRS at rest disclosed some abnormalities in all subjects. In particular, the phosphorylation potential was below the normal range in all cases. During recovery from exercise, the maximum rate of mitochondrial ATP production (Vmax) was reduced to 27% of normal in the 11,778 mutation and to 53% in the 14,484 mutation patient/carrier groups. Mitochondrial Vmax was within the normal range in all subjects with the 3,460 mutation but correlated inversely with the percentage of mutated mtDNA. This in vivo study shows that the 11,778 mutation causes a mitochondrial impairment more severe than the 14,484 and that the 3,460 mutation results in only a mild depression of muscle mitochondrial function.

De novo 14484 mitochondrial DNA mutation in monozygotic twins discordant for Leber's hereditary optic neuropathy

Monozygotic twin brothers, clinically discordant for Leber's hereditary optic neuropathy (LHON), had a heteroplasmic point mutation at position 14484 in the mitochondrial DNA that was not detected in their mother. Moreover, the mutation occurred on the rare European haplogroup X, rather than the haplogroup J commonly associated with the 14484 mutation. These data indicate that the 14484 mutation in this family was a new mutation, indicating that it was the de novo occurrence of a common, primary LHON mutation.

Clinical spectrum of Leber's hereditary optic neuropathy

Leber's hereditary optic neuropathy (LHON) is a bilateral subacute optic neuropathy caused by mutations in the mitochondrial genome. Primary mutations are located at nucleotide positions 3460, 11778, and 14484 in genes encoding subunits of Complex 1 of the respiratory chain. Molecular diagnosis has expanded the spectrum of the LHON phenotype and prompted investigation into optic neuropathies due to demyelinating disease, glaucoma, tobacco/alcohol amblyopia, and nutritional optic neuropathy. While mitochondrial mutations are required for LHON disease expression, other genetic or epigentic factors must play a role in disease penetrance and expression. Proposed determinants of disease include heteroplasmy, an X-linked vision loss susceptibility locus, environmental factors, and secondary mitochondrial mutations.

mtDNA haplotype analysis in Finnish families with leber hereditary optic neuroretinopathy

The mitochondrial DNA (mtDNA) sequence variation of 24 Finnish Leber hereditary optic neuroretinopathy (LHON) probands was characterized by sequencing and restriction endonuclease analyses. All LHON-associated substitutions and Caucasoid haplogroup-specific mutations were screened in the families. Analysis of the mtDNAs revealed that the Finnish LHON families have two unique features: an absence of the ND6/14484 mutation and a high number of families (10/24) without the primary mutations ND1/3460 and ND4/11778. Furthermore, the LHON families showed considerable mtDNA heterogeneity: among 24 families 22 haplotypes were detected. Overall, the haplogrouping of LHON families was similar to other European populations. However, the frequency of ND4/11778-positive families in haplogroup J was high, which may indicate that background mutations in this haplogroup together with the ND4/11778 primary mutation promote the penetrance of LHON.

Hereditary motor and sensory neuropathy with spastic paraplegia and optic atrophy: report on a family

We describe two siblings affected by a motor and sensory neuropathy starting in childhood. Already in infancy, a spastic gait disturbance had become obvious, leading later to multiple surgical interventions. In adolescence, progressive loss of vision developed. At the time of our examination, both siblings showed severe weakness and atrophy of the distal muscles of legs and arms. Tendon jerks were brisk in proximal muscles; in the lower extremities, muscle tone was increased. Visual acuity was severely decreased. Nerve conduction studies revealed an axonal degeneration. This finding was confirmed by evaluation of a sural biopsy specimen in one patient, showing only few remaining myelinated fibres without signs of demyelination. This combination of hereditary motor and sensory neuropathy with spastic paraplegia and optic atrophy shows features of both hereditary motor and sensory neuropathy V and VI according to the classification of Dyck, indicating that these subtypes may not represent distinct entities.

LHON mutations in Italian patients affected by multiple sclerosis

The occurrence of a multiple sclerosis (MS)-like phenotype in subjects carrying mitochondrial DNA (mtDNA) mutations associated with Leber hereditary optic neuropathy (LHON) has suggested that mitochondrial genes may contribute to susceptibility to MS. With the present study 74 unrelated Italian patients (53 females and 21 males; mean age 37.9, SD 9.9, range 20-59) affected by MS with early and prominent optic nerve involvement and 99 normal control subjects were analysed for the presence of primary (nps 11778, 3460, 14484) and an alleged secondary one (np 15257) LHON mutations. A single MS patient carrying a virtually homoplasmic LHON mutation at np 11778 was found. Family history revealed a maternal uncle affected by MS, decreased at age of 64 in consequence of a stroke. The patient's mother harboured the same mutation in a homoplasmic way. Primary LHON mutations were not detected in any other MS patient or control. Of the MS patients 5.4% (4 out of 74), and 5.1% (5 out of 99) of the controls carried the 15257 mutation in a homoplasmic state. Present data do not support any contribution of primary LHON mutations to genetically determined susceptibility in MS. There is no evidence that the 15257 mutation has any pathogenetic significance in the Italian population.