Mitochondrial DNA copy number in affected and unaffected LHON mutation carriers

Objectives Leber’s hereditary optic neuropathy (LHON) is a mitochondrial genetic disease characterized by a variable and reduced penetrance. Individuals carrying a primary LHON-causing mitochondrial DNA (mtDNA) mutation may either remain asymptomatic lifelong, as unaffected carriers, or develop sudden central visual loss that rapidly aggravates over some weeks. Over the years several genetic/environmental triggers able to modulate the risk of developing LHON have been proposed. We provided data supporting a possible correlation between LHON penetrance and the mtDNA copy number, a raw index of mitochondrial mass, whose increase could represent a compensatory response that cells implement to alleviate the pathogenic effect of the primary LHON-causing mtDNA mutations. Data description We collected Italian and Spanish subjects harboring one of the three common LHON primary mutations, either in heteroplasmic or homoplasmic status. For each population we were able to discriminate between affected subjects presenting typical clinical tracts of LHON and LHON-causing mutation carriers showing no symptoms correlated with vision loss. Each subject has been characterized for the presence of a LHON primary mutation, for its status of homoplasmy or heteroplasmy, and for the mtDNA content per cell, expressed as relative mtDNA/nDNA ratio respect to controls. Additional clinical information is present for all the Italian subjects.


Objective
Leber's hereditary optic neuropathy (LHON) is typically characterized by a rapid bilateral central vision loss owing to focal degeneration of the retinal ganglion cell layer and optic nerve [1,2]. The presence of primary mutations in mitochondrial DNA (mtDNA) is necessary, but not sufficient alone, to cause optic neuropathy, because disease penetrance can even vary within different families harboring the same mutation [3,4]. Thus, the idea that other environmental and/or genetic factors might affect the penetrance and the risk of developing LHON is being reinforced over the last years [5,6]. Nonetheless, when the etiology of a disease involves mitochondrial mutations it is mandatory to consider that the mtDNA is a multi-copy genome whose cell quantity varies depending on tissue type and pathophysiology factors. Furthermore, adjustment of the mtDNA content can represent a protective strategy cells perform to compensate whatever detrimental effect a mtDNA mutation is causing, whose efficacy is experimentally proven [7][8][9]. For instance, mitochondrial proliferation is commonly seen in postmitotic tissues such as skeletal muscle in patients with mitochondrial disease [10]. The mtDNA copy number can be assessed in peripheral blood and is thought to reflect variations in mitochondrial energetic function and  [11].
The purpose of the data collected was to provide support to a possible correlation between the mtDNA levels and LHON penetrance in a population harboring a primary LHON-causing mutation. As already reported in other studies [12][13][14][15][16], unaffected mutation carriers showed the highest amount of mtDNA, regardless of the heteroplasmic/homoplasmic status. Furthermore, we observed that the mtDNA copy number progressively shifted towards higher values from controls to carriers, with the affected showing an intermediate value. This could suggest that in both carriers and affected individuals there is an activation of the mitochondrial biogenesis, somehow hindered in affected subjects.

Data description
We collected 124 subjects with a primary LHON-causing mutation (i.e., m.11778G > A or m.3460G > A), of which 51 Italians and 73 Spanish. Two different control groups were considered, specifically 90 unrelated Italian healthy subjects and 28 unrelated Spanish healthy subjects (Table 1-Data set 1-3) [17][18][19], the latter used only for the analysis of the homoplasmic Spanish population as this was analyzed in a different laboratory, even if following the same general procedures.
On the basis of clinical features and genetic mitochondrial analysis, we identified 46 Italians subjects, belonging to 20 families, carrying a LHON-causing mutation in homoplasmy (37 m.11778G > A, distributed between 18 affected and 19 carriers, and 9 m.3460G > A, of which 5 affected and 4 carriers) ( These subjects were already partially described in our previous papers [13][14][15]. Subjects were collected at three sites: Ophthalmology Clinic, Policlinico Bari Hospital, Italy; Hospital IRCCS 'Casa Sollievo della Sofferenza' , Italy; and the University of Zaragoza, Spain. Prior written and informed consent was obtained from each subject according to Institutional Guidelines. Several examinations were performed: slit-lamp biomicroscopy, fundal and optic nerve head stereoscopy, fluorescein angiography, optical coherence tomography, and visual field testing. Total genomic DNA was extracted using the "Wizard ® Genomic DNA Purification Kit" (Promega) from peripheral blood of the patients and their relatives with suspicion of LHON and from healthy control subjects. The presence of LHON mutations (m.3460G > A, m.11778G > A and m.14484T > C) was detected by PCR-RFLP and, if present, confirmed by direct sequencing (ABI prism 310, Applied Biosystems). Quantification of mtDNA copy number was performed by qPCR using the relative method [20]. Mitochondrial and nuclear DNA quantities were measured amplifying genomic regions of ND1 and B2M genes, respectively. mtDNA/nDNA ratio was calculated for each sample and this value was then calibrated relative to the geometric mean of controls (i.e., relative mtDNA/nDNA ratio). For further details see Data file 1 (Table 1) [21].
Summing up the homoplasmic population data, in Italian subjects the mtDNA content (measured as relative mtDNA/nDNA ratio and expressed as geometric mean and confidence interval CI) was 100 (

Limitations
These data do not consider other known variables, such as mtDNA haplotypes and nuclear genetic background that represents likely triggers of LHON and are known to influence penetrance and age of onset.

Authors' contributions
VP conceived and designed the study, edited the main manuscript text and obtained funding. AB, GL, LB and SE conducted all the experiments and collected the data. AB, VP and AV analyzed the data and drafted the manuscript. LB, SG and JM provided the patient's samples, contributed in acquisition of data and in revising the manuscript critically. All authors read and approved the final manuscript.  [21]. Please see Table 1 for details and links to the data.

Consent for publication
Not applicable.

Ethics approval and consent to participate
Before recruitment into our study, all of the patients and the family members involved in the study, have signed written informed consent for the molecular studies and publication of the medical data of themselves. This consent was approved by the ethical committees of the Institutional Review Board 'Comitato Etico Interregionale' , Azienda Consorziale Policlinico and University of Bari Aldo Moro. Research adhered to the tenets of the Declaration of Helsinki.

Funding
Funding by 'Ricerca di Ateneo' 2011 and Petruzzella 00724113 Prin 2009 from the University of Bari, Bari, Italy was instrumental in providing support for design, collection and execution of the technical work and for analysis. An unconditional grant by Santhera Pharmaceuticals (Italy) was instrumental in writing the manuscript.

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