Mitochondrial Disorders May Mimic Amyotrophic Lateral Sclerosis at Onset *

Similarities between a mitochondrial disorder (MID) and amyotrophic lateral sclerosis (ALS) fade with disease progression and the development of mitochondrial multiple organ dysfunction syndrome (MIMODS). However, with mild MIMODS, a MID may still be misinterpreted as ALS. We report a 48-year-old male who presented to the Neurological Hospital Rosenhügel, Vienna, Austria, in February 2001 with slowly progressive weakness, wasting and left upper limb fasciculations which spread to the shoulder girdle and lower limbs. Additionally, he developed tetraspasticity and bulbar involvement. He had been diagnosed with ALS a year previously due to electrophysiological investigations indicative of a chronic neurogenic lesion. However, a muscle biopsy revealed morphological features of a MID and a combined complex-II/III defect. Nerve conduction studies were performed over subsequent years until February 2011. This case demonstrates that MIDs may mimic ALS at onset and begin as a mono-organ disorder but develop into a multi-organ disease with long-term progression. A combined complex II/III defect may manifest with bulbar involvement.

At presentation to the Neurological Hospital Rosenhügel, the patient had developed liquid dysphagia and chewing difficulties.He had often complained of hyperhidrosis over the preceding years.Additionally, his history was positive for hyperlipidaemia and there was a family history of hypoacusis and gibbus deformity from his paternal grandfather.Re-examination of the patient revealed wasting of the tongue edges, frequent fasciculations of the tongue, distal weakness with leftsided predominance, diffuse wasting, exaggerated tendon reflexes, positional tremors with left-sided predominance, fasciculations in all muscles and positive pyramidal signs for the upper limbs.With regards to the lower limbs, there was weakness of the left foot extensors (grade M5-), exaggerated tendon reflexes and bilateral positive pyramidal signs.
The results of multiple nerve conduction studies performed over the following years are shown in Table 1.Needle electromyography of the right brachial biceps muscle showed fibrillations and fasciculations with bizarre morphology at 20/20 sites, increased mean motor unit action potential duration, increased polyphasia and satellite potentials and a reduced interference pattern at maximal voluntary contractions.His creatine kinase levels were slightly elevated (maximal value: 97 U/L; normal value: <70 U/L) and he had hypercholesterolaemia.However, the results of a lactate stress test were normal.Transcranial magnetic stimulation revealed increased central motor conduction time (CMCT) of the C8 motor neuron on the right side, normal CMCT of the C8 motor neuron on the left side and normal CMCT of the S1 nerve root bilaterally.Ganglioside GM1 antibodies were normal.An abdominal ultrasound revealed a double kidney on the right side.
Based on the patient's history and the existence of atypical clinical features-including hyperhidrosis, goitre and hyperlipidaemia-MIMODS involving the central nervous system, the peripheral motor, sensory and vegetative nerves, the endocrine system and the skeletal muscles was suspected.A muscle biopsy from the lateral vastus muscle showed neurogenic features with grouped atrophic fibres and a fibretype grouping; however, the biopsy also showed indications for a MID, including a coarsening of the mitochondrial pattern on oxidative enzyme and Gomori trichrome stains.Immunohistochemistry revealed cytochrome c oxidase-hyporeactive/negative fibres and electron microscopy indicated the subsarcolemmal accumulation of abnormally-shaped mitochondria.Biochemical investigations of the muscle homogenate revealed a combined complex-II/III defect consisting of succinate cytochrome c-oxidoreductase related to non-collagen protein and citrate synthase.
No tests for coenzyme-Q activity were carried out.Screening for common mitochondrial DNA (mtDNA) mutations causing the following conditions was noninformative: mitochondrial encephalomyopathy, lactic acidosis and stroke-like episodes; myoclonic epilepsy with red-ragged fibres; chronic progressive external ophthalmoplegia; Leber hereditary optic neuropathy; neuropathy, ataxia and retinitis pigmentosa; maternally-inherited Leigh syndrome; non-syndromic myopathy; cardiomyopathy; dementia; diabetes; or encephalopathy.Despite repeated attempts to contact the patient for further investigations, he was subsequently lost to follow-up.

Discussion
][6] In the presented case, the implications of the thyroid dysfunction, hyperhidrosis, hyperlipidaemia and autonomic and sensory involvement were neglected.In order to avoid misdiagnosis, clinical manifestations should not be ignored and a common cause of seemingly unrelated manifestations should not be excluded.Under these circumstances, patients with suspected ALS should be investigated for a MID.Since most MIDs develop into MIMODS during the disease course, it is usually just a matter of time before MIMODS becomes evident. 4,5vertheless, it is important to note that ALS may also show morphological evidence of a mitochondrial defect.][10][11][12][13][14] There are also indications that mtDNA deletions are more common in individuals with sporadic ALS as compared to healthy controls. 15itochondrial dysfunction in ALS is often regarded as secondary following the exposure of mtDNA to increased oxidative stress. 16n the current case, the diagnosis of ALS was eventually excluded due to the long duration of red fibres and 3% cytochrome c oxidase-negative fibres. 7However, contrary to the present case, no biochemical abnormalities were detected. 7A number of other reports have described mitochondrial dysfunction in ALS, including decreased complex-I activity, decreased superoxide dismutase 1 function and energy production, increased apoptosis, abnormal calcium homeostasis, impaired axonal transport of mitochondria, respiratory chain dysfunction the clinical course, the multisystemic nature of the phenotype (MIMODS), the muscle biopsy findings, the normal cerebral MRI scan and the biochemical findings.The strongest arguments in favour of a diagnosis of a primary mitochondrial defect were the multi-organ phenotype and the presence of a complex II/III defect.On the other hand, the histochemical findings did not match the biochemical findings.Since no mtDNA mutations could be detected, the complex II/III defect may have instead been due to a mutation in a nuclear DNA-located gene rather than a mtDNAlocated gene.However, the precise genetic defect still requires confirmation.
Another point of interest with regards to the current case is the late onset of the disease and its slow progression.The frequency and severity of MIDs are usually increased in children and the disease usually progresses slowly in adults. 17,18Often, only a single organ is initially affected and other organs are consecutively affected after long periods of time. 19here is no consistent pattern of organ involvement and no regular sequence among the organs which are affected.Factors which drive the pattern of organ involvement and the speed of progression may include the type of mutation (e.g.protein, transfer/ribosomal ribonucleic acid, helicase or polymerase mutations) or modifying genes and the heteroplasmy rate or the threshold effect in the case of mtDNA mutations. 20

Conclusion
This case suggests that a MID can mimic ALS at the onset of the disease and that it may start as a monoorgan disorder and subsequently turn into a multiorgan disease after slow progression over a prolonged period of time.The exclusion of ALS may indicate the presence of a MID and a complex II/III defect may manifest with bulbar involvement.Patients with apparent ALS should be investigated for a MID if atypical manifestations have been noted.

Table 1 :
Nerve conduction study results of a patient with a mitochondrial disorder mimicking amyotrophic lateral sclerosis at onset