A Novel PANK2 Mutation in a Patient with Atypical Pantothenate-Kinase-Associated Neurodegeneration Presenting with Adult-Onset Parkinsonism

Background

Pantothenate-kinase-associated neurodegeneration (PKAN) is an autosomal recessive neurodegenerative disorder that is characterized by progressive extrapyramidal signs, visual loss, and cognitive impairment. PKAN is caused by mutations in the pantothenate kinase gene (PANK2), which is located on chromosome 20p13 and encodes pantothenate kinase, the key regulatory enzyme in coenzyme-A biosynthesis.

Case Report

In this report we describe a case of atypical PKAN with a novel PANK2 mutation, presenting with a 10-year history of postural tremor involving both hands. Upon neurological examination, the patient''s face was masked and he spoke in a monotonous voice. The patient presented with mild bradykinesia and rigidity that involved all of the extremities. Horizontal saccadic eye movements were slow and fragmented. Brain MRI revealed a typical "eye-of-the-tiger" sign. A mutation analysis revealed three PANK2 mutations: two in exon 3 (Asp 378Gly and Leu385CysfsX13) and one in exon 4 (Arg440Pro).

Conclusions

Parkinsonism is not an unusual presenting symptom in patients with atypical PKAN, and so it is important for physicians to consider PKAN in the differential diagnosis of patients presenting with young-onset parkinsonism.     

Cognitive functioning in children with pantothenate-kinase-associated neurodegeneration undergoing deep brain stimulation

Aim To examine the cognitive functioning of young people with pantothenate‐kinase‐associated neurodegeneration (PKAN) after pallidal deep brain stimulation (DBS). PKAN is characterized by progressive generalized dystonia and has historically been associated with cognitive decline. With growing evidence that DBS can improve motor function in adults and children with PKAN, there is now the opportunity to study the cognitive profiles of these patients over time. Method We present a case series of seven children (mean age 11y 7mo, SD 3y 2mo) undergoing bilateral pallidal DBS for the management of severe PKAN‐associated dystonia. We administered standardized measures of intellectual ability and memory where possible, before DBS and 1 to 4 years after DBS. Results No cognitive decline was observed and scores improved in all but one child (whose dystonia could not be adequately controlled owing to multiple medical problems). In line with a stabilization or reduction in their dystonia, all but one child was able to tolerate longer assessment sessions and complete either the same or a greater number of subtests. Interpretation These findings suggest that apparent cognitive impairments may reflect difficulties in accessing cognition owing to severity of dystonia. Intellectual decline previously associated with PKAN may have been overestimated.     

Early-onset neurodegeneration with brain iron accumulation due to PANK2 mutation

Background: Pantothenate kinase-associated neurodegeneration (PKAN) is a neurodegenerative disorder caused by pantothenate kinase (PANK2) gene mutations. Brain magnetic resonance imaging (MRI) typically shows the “eye-of-the-tiger” sign, i.e. bilateral pallidal T2 hypointensity with a small central region of T2-hyperintensity. Aims: To describe clinical and MRI findings of a boy with early-onset neurodegeneration with brain iron accumulation due to PANK2 mutation. Methods: Clinical, neuroradiological and molecular investigations have been performed. Results: At first observation (2 years and 10 months) the boy presented only with developmental delay and toe-walking and isolated T2 hyperintensity within globi pallidi on brain MRI. One year later, small rounded areas of markedly low signal within the globi pallidi on T2∗- weighted images appeared in association with mild dystonia. PANK2 gene homozygous mutation confirmed the diagnosis of PKAN. Conclusions: In young children, PKAN should be suspected also before clinical and neuroradiological picture is fully indicative, to avoid delayed diagnosis of a genetic disease for which therapeutical options could be potentially useful if administered in paucisymptomatic subjects.     

Pantothenate kinase‐associated neurodegeneration is not a synucleinopathy

A. Li, R. Paudel, R. Johnson, R. Courtney, A. J. Lees, J. L. Holton, J. Hardy, T. Revesz and H. Houlden (2013) Neuropathology and Applied Neurobiology 39, 121–131 Pantothenate kinase‐associated neurodegeneration is not a synucleinopathy Aims: Mutations in the pantothenate kinase 2 gene (PANK2) are responsible for the most common type of neurodegeneration with brain iron accumulation (NBIA), known as pantothenate kinase‐associated neurodegeneration (PKAN). Historically, NBIA is considered a synucleinopathy with numerous reports of NBIA cases with Lewy bodies and Lewy neurites and some cases reporting additional abnormal tau accumulation. However, clinicopathological correlations in genetically proven PKAN cases are rare. We describe the clinical, genetic and neuropathological features of three unrelated PKAN cases. Methods: All three cases were genetically screened for the PANK2 gene mutations using standard Sanger polymerase chain reaction sequencing. A detailed neuropathological assessment of the three cases was performed using histochemical and immunohistochemical preparations. Results: All cases had classical axonal swellings and Perls' positive iron deposition in the basal ganglia. In contrast to neuroaxonal dystrophies due to mutation of the phospholipase A2, group VI (PLA2G6) gene, in which Lewy body pathology is widespread, no α‐synuclein accumulation was detected in any of our PKAN cases. In one case (20‐year‐old male) there was significant tau pathology comprising neurofibrillary tangles and neuropil threads, with very subtle tau pathology in another case. Conclusions: These findings indicate that PKAN is not a synucleinopathy and, hence the cellular pathways implicated in this disease are unlikely to be relevant for the pathomechanism of Lewy body disorders.     

HARP syndrome is allelic with pantothenate kinase-associated neurodegeneration

HARP (hypoprebetalipoproteinemia, acanthocytosis, retinitis pigmentosa, and pallidal degeneration) is a rare syndrome with many clinical similarities to pantothenate kinase-associated neurodegeneration (PKAN, formerly Hallervorden-Spatz syndrome). Despite these common features, lipoprotein abnormalities have not been reported in PKAN. After the recent discovery of the genetic defect in PKAN, we report a homozygous nonsense mutation in exon 5 of the PANK2 gene that creates a stop codon at amino acid 371 (R371X) in the original HARP patient. This finding establishes that HARP is part of the PKAN disease spectrum.     

Atypical pantothenate kinase-associated neurodegeneration with PANK2 mutations : clinical description and a review of the literature

ABSTRACT

Panthothenate kinase-associated neurodegeneration (PKAN) is arare neurodegeneration caused by mutations in the pantothenate kinase (PANK2) gene, which is located on chromosome 20p13. These mutations result in iron accumulation in the brain basal ganglia leading to parkinsonism, dysarthria, spasticity, cognitive impairment, and retinopathy. Herein, we report acase of adult-onset PKAN who presented with young-onset action tremor, bradykinesia, dysarthria, and bilateral interossei atrophy. Neuroimaging demonstrated “eye-of-the-tiger signs”. Through analyzing PANK2 gene, PANK2 NM_153638:c.1133A>G (p.Asp378 Gly) and PANK2 NM_153638:c.1502 T > A (p.lle501Asn), were detected. In addition, we reviewed the clinical and genetic features and therapeutic strategies for patients with PKAN.     

Pallidal stimulation improves pantothenate kinase-associated neurodegeneration

Pantothenate kinase-associated neurodegeneration (PKAN) causes a progressive generalized dystonia which remains pharmacologically intractable. We performed bilateral internal globus pallidus stimulation in six patients with genetically confirmed PKAN who obtained a major and long-lasting improvement of their painful spasms, dystonia, and functional autonomy. This study shows the benefits of pallidal DBS for the dystonia of PKAN patients.     

Novel compound heterozygous PANK2 gene mutations in a Chinese patient with atypical pantothenate kinase-associated neurodegeneration

Abstract

Aim: Pantothenate-kinase-associated neurodegeneration (PKAN), which is characterised by iron accumulation in the basal ganglia, is a rare autosomal recessive neurodegenerative disorder caused by pantothenate kinase 2 (PANK2) gene mutations. The PANK2 gene is located on chromosome 20p13 and encodes pantothenate kinase. Herein, we identified one patient with PKAN who had mutations in the PANK2 gene.

Materials and methods: We performed clinical and radiographic investigations, and diagnosed this disease at the clinical and genetic levels.

Results: It is worth mentioning that the patient displayed an eye-of-the-tiger sign. Through scanning the exons and flanking intronic sequences of PANK2 in patient and control subjects, we report a compound heterozygote c. 260A?>?G (NM_001324191) and c.405dupC (NM_153638) for PANK2 mutations in a Chinese patient with clinical manifestation of progressive prosopospasm, dysarthria and gait disturbance. Bioinformatics analysis showed that two variants exhibited highly conserved residues across species.

Conclusion: we reported a patient presenting with atypical PKAN, and identified novel compound heterozygous PANK2 gene mutations..     

Genetic heterogeneity in patients with pantothenate kinase-associated neurodegeneration and classic magnetic resonance imaging eye-of-the-tiger pattern.

We performed a detailed molecular study in two unrelated families with pantothenate kinase-associated neurodegeneration (PKAN) and the specific magnetic resonance imaging (MRI) eye-of-the-tiger pattern. In the first family with classic PKAN, linkage analysis using polymorphic markers from the PANK2 region ruled out linkage with this locus, and no mutation of the PANK2 gene was found. In the second family with atypical PKAN, we identified a novel homozygous C-to-T transition at nucleotide 1069 of the PANK2 gene, which resulted in an arginine to tryptophane substitution at codon 357. As far as we are aware, this is the first case of classic PKAN with the specific MRI eye-of-the-tiger pattern not carrying a PANK2 mutation. Therefore, the present observation reinforces the notion of the phenotypic and genetic heterogeneity in PKAN.     

Neurodegeneration with brain iron accumulation: clinical, radiographic and genetic heterogeneity and corresponding therapeutic options

BACKGROUND: Neurodegeneration with brain iron accumulation (NBIA), formerly known as Hallervorden-Spatz syndrome, is a heterogeneous group of disorders with different treatment options. CASE REPORTS: In the first case, progressively generalizing dystonic symptoms appeared during childhood. A mutation in the gene encoding pantothenate kinase 2 (PANK2) was found. Brain MRI showed bilateral hypersignals within the globus pallidi on T2-weighted images. The patient was successfully treated by pallidal deep brain stimulation (DBS). In the second case an adult onset with parkinsonism was observed, for which no PANK2 mutation was found. T2-weighted brain MR images revealed multiple significant hyposignals (suggestive of iron deposits) localised in the cerebellar dentate nuclei and in the globi pallidi, the red nuclei and the substantia nigra. An antiparkinsonian treatment was proposed. CONCLUSION: The clinical, radiographic and genetic heterogeneity of NBIA has to be underlined.     

Novel PANK2 gene mutations in two Chinese siblings with atypical pantothenate kinase-associated neurodegeneration

Pantothenate kinase-associated neurodegeneration (PKAN) is an autosomal-recessive disorder characterized by neurodegeneration and iron accumulation in the brain. Classic and atypical PKAN are distinguished on the basis of age at onset and disease progression. PANK2, localized on chromosome20p13, is confirmed as the responsible gene. We report two Chinese siblings with atypical PKAN, who had a 26- and 24-year disease course, respectively. Brain MRI scans of the two siblings showed the specific “eye of the tiger” sign. Genetic analysis identified novel compound heterozygous mutations (IVS1-2 A>T, c.T1130C) in PANK2 gene, which were confirmed to be deleterious. We verify the clinical heterogeneity even in siblings with identical genotype and expand the gene mutation pool for PKAN.     

Chronic deep brain stimulation in patients with tardive dystonia without a history of major psychosis

Tardive dystonia usually occurs with a delay after neuroleptic exposure in patients with major psychosis. A subgroup of patients, however, is given such medication for “mild depression” or “neurasthenia.” Tardive dystonia, in general, may respond favorably to pallidal deep brain stimulation (DBS). Nevertheless, it remains unclear thus far whether or not similar beneficial outcome is achieved with pallidal DBS in different subgroups of patients with tardive dystonia. Four women (mean age 59 years at surgery) underwent stereotactic pallidal DBS in the frame of an observational study. Tardive dystonia occurred secondary to medication with fluspirilene and haloperidol, and injection of long‐acting depot neuroleptics prescribed for mild depression or “nervousness.” Assessment included the Burke‐Fahn‐Marsden (BFM) scale preoperatively and at 12 months follow‐up. Extended follow‐up was available at a mean of 27.3 months postoperatively (range 16–36 months). There were no surgically related complications. All 4 patients experienced sustained statistically significant benefit from pallidal DBS. Mean improvement at 12 months was 77% for the BFM motor score (range, 45–91%; P = 0.043), and 84% at the last available follow‐up (range, 70–91%; P = 0.03). This was paralleled by improvement of the BFM disability score. Chronic pallidal DBS in patients with tardive dystonia without a history of major psychosis provides sustained improvement which is similar to that in other subgroups of patients with tardive dystonia. This effect is stable on extended follow‐up for up to 3 years. © 2010 Movement Disorder Society     

Compound heterozygous PANK2 mutations confirm HARP and Hallervorden-Spatz syndromes are allelic

The authors describe a patient with hypoprebetalipoproteinemia, acanthocytosis, retinitis pigmentosa, and pallidal degeneration (HARP) who has two compound heterozygote mutations of the PANK2 gene. IVS4-1 G>T segregates with the lipid and erythrocyte changes in the mother and sister. No other family members have the lipid, erythrocyte, or clinical abnormalities. The father and two brothers are heterozygous for Met327Thr. One other mutation has been found in this PANK2 region associated with the HARP phenotype, suggesting a local genotype effect.     

Indian‐subcontinent NBIA: Unusual phenotypes,novel PANK2 mutations,and undetermined genetic forms

Neurodegeneration with brain iron accumulation (NBIA) is etiologically, clinically, and by imaging a heterogeneous group including NBIA types 1 [pantothenate kinase‐associated neurodegeneration (PKAN)] and 2 (PLA2G6‐associated neurodegeneration), neuroferritinopathy, and aceruloplasminaemia. Data on genetically defined Indian‐subcontinent NBIA cases are limited. We report 6 patients from the Indian‐subcontinent with a movement disorder and MRI basal ganglia iron deposition, compatible with diagnosis of an NBIA syndrome. All patients were screened for abnormalities in serum ceruloplasmin and ferritin levels and mutations in NBIA‐associated genes [pantothenate kinase 2 (PANK2), PLA2G6 and ferritin light chain (exon 4)]. We present clinical, imaging and genetic data correlating phenotype–genotype relations. Four patients carried PANK2 mutations, two of these were novel. The clinical phenotype was mainly dystonic with generalized dystonia and marked orobulbar features in the 4 adolescent‐onset cases. One of the four had a late‐onset (age 37) unilateral jerky postural tremor. His mutation, c.1379C>T, appears associated with a milder phenotype. Interestingly, he developed the eye‐of‐the‐tiger sign only 10 years after onset. Two of the six presented with adult‐onset levodopa (L ‐dopa)‐responsive asymmetric re‐emergent rest tremor, developing L ‐dopa‐induced dyskinesias, and good benefit to deep brain stimulation (in one), thus resembling Parkinson's disease (PD). Both had an eye‐of‐the‐tiger sign on MRI but were negative for known NBIA‐associated genes, suggesting the existence of further genetic or sporadic forms of NBIA syndromes. In conclusion, genetically determined NBIA cases from the Indian subcontinent suggest presence of unusual phenotypes of PANK2 and novel mutations. The phenotype of NBIA of unknown cause includes a PD‐like presentation. © 2010 Movement Disorder Society     

The diverse phenotype and genotype of pantothenate kinase-associated neurodegeneration

Pantothenate kinase-associated neurodegeneration (PKAN) is a rare autosomal-recessive disorder caused by mutations in the PANK2 gene. The authors report clinical and genetic findings of 16 patients with PKAN. The authors identified 12 mutations in the PANK2 gene, five of which were new. Only nine patients could be classified as classic or atypical PKAN, and intermediate phenotypes are described. Two patients presented with motor tics and obsessive-compulsive behavior suggestive of Tourette syndrome.     

Genotypic and phenotypic spectrum of PANK2 mutations in patients with neurodegeneration with brain iron accumulation

OBJECTIVE: Neurodegeneration with brain iron accumulation (NBIA) is a group of disorders characterized by magnetic resonance imaging (MRI) changes in basal ganglia. Both missense and nonsense mutations have been found in such patients in a gene encoding the mitochondrial pantothenate kinase (PANK2). METHODS: We completed a mutation screen in 72 patients with the diagnosis NBIA based on clinical findings and radiological imaging. The entire coding region of the PANK2 gene (20p12.3) was investigated for point mutations and deletions. RESULTS: We uncovered both mutant alleles in 48 patients. Deletions accounted for 4% of mutated alleles. Patients with two loss-of-function alleles (n = 11) displayed symptoms always at an early stage of life. In the presence of missense mutations (n = 37), the age of onset correlated with residual activity of the pantothenate kinase. Progression of disease measured by loss of ambulation was variable in both groups. We did not observe a strict correlation between the eye-of-the-tiger sign and PANK2 mutations. In 24 patients, no PANK2 mutation was identified. INTERPRETATION: Deletion screening of PANK2 should be part of the diagnostic spectrum. Factors other than enzymatic residual activity are determining the course of disease. There are strong arguments in favor of locus heterogeneity.     

Precision medicine in pantothenate kinase-associated neurodegeneration

Neurodegeneration with brain iron accumulation is a broad term that describes a heterogeneous group of progressive and invalidating neurologic disorders in which iron deposits in certain brain areas,mainly the basal ganglia.The predominant clinical symptoms include spasticity,progressive dystonia,Parkinson's disease-like symptoms,neuropsychiatric alterations,and retinal degeneration.Among the neurodegeneration with brain iron accumulation disorders,the most frequent subtype is pantothenate kinase-associated neurodegeneration(PKAN) caused by defects in the gene encoding the enzyme pantothenate kinase 2(PANK2)which catalyzed the first reaction of the coenzyme A biosynthesis pathway.Currently there is no effective treatment to prevent the inexorable course of these disorders.The aim of this review is to open up a discussion on the utility of using cellular models derived from patients as a valuable tool for the development of precision medicine in PKAN.Recently,we have described that dermal fibroblasts obtained from PKAN patients can manifest the main pathological changes of the disease such as intracellular iron accumulation accompanied by large amounts of lipofuscin granules,mitochondrial dysfunction and a pronounced increase of markers of oxidative stress.In addition,PKAN fibroblasts showed a morphological senescence-like phenotype.Interestingly,pantothenate supplementation,the substrate of the PANK2 enzyme,corrected all pathophysiological alterations in responder PKAN fibroblasts with low/residual PANK2 enzyme expression.However,pantothenate treatment had no favourable effect on PKAN fibroblasts harbouring mutations associated with the expression of a truncated/incomplete protein.The correction of pathological alterations by pantothenate in individual mutations was also verified in induced neurons obtained by direct reprograming of PKAN fibroblasts.Our observations indicate that pantothenate supplementation can increase/stabilize the expression levels of PANK2 in specific mutations.Fibroblasts and induced neurons derived from patients can provide a useful tool for recognizing PKAN patients who can respond to pantothenate treatment.The presence of low but significant PANK2 expression which can be increased in particular mutations gives valuable information which can support the treatment with high dose of pantothenate.The evaluation of personalized treatments in vitro of fibroblasts and neuronal cells derived from PKAN patients with a wide range of pharmacological options currently available,and monitoring its effect on the pathophysiological changes,can help for a better therapeutic strategy.In addition,these cell models will be also useful for testing the efficacy of new therapeutic options developed in the future.     

A novel 3-bp deletion in the PANK2 gene of Dutch patients with pantothenate kinase-associated neurodegeneration: evidence for a founder effect

Mutation analysis was performed in four apparently unrelated Dutch families with pantothenate kinase-associated neurodegeneration, formerly known as Hallervorden-Spatz syndrome. A novel 3-bp deletion encompassing the nucleotides GAG at positions 1,142 to 1,144 of exon 5 of the PANK2 gene was found in all patients. One patient was compound heterozygous; she also carried a novel nonsense mutation (Ser68Stop). The other patients were homozygous for the 1142_1144delGAG mutation. The 1142_1144delGAG mutation was also found in a German patient of unknown descent. We used polymorphic microsatellite markers flanking the PANK2 gene (spanning a region of approximately 8 cM) for haplotype analyses in all these families. A conserved haplotype of 1.5 cM was found for the 1142_1144delGAG mutation carriers. All the Dutch families originated from the same geographical region within the Netherlands. The results indicate a founder effect and suggest that the 1142_1144delGAG mutation probably originated from one common ancestor. It was estimated that this mutation arose at the beginning of the ninth century, approximately 38 generations ago.     

Medication dose reductions after pallidal versus subthalamic stimulation in patients with Parkinson's disease

Evidente VGH, Premkumar AP, Adler CH, Caviness JN, Driver‐Dunckley E, Lyons MK. Medication dose reductions after pallidal versus subthalamic stimulation in patients with Parkinson’s disease.
Acta Neurol Scand: 2011: 124: 211–214.
© 2010 John Wiley & Sons A/S. Objective – To compare the medication dose reduction between deep brain stimulation (DBS) of the globus pallidus interna (GPi) vs subthalamic nucleus (STN) in matched patients with Parkinson’s disease (PD). Materials and methods – Records of 12 patients with PD who underwent GPi‐DBS at our institution from 2002 to 2008 were matched by pre‐operative PD medication doses and pre‐operative motor Unified Parkinson’s Disease Rating Scale (UPDRS) scores to 12 cases of STN‐DBS. PD medication doses were converted to levodopa equivalent doses (LEDs). Results – GPi and STN groups had similar mean pre‐operative LEDs and motor UPDRS scores. At 6 months post‐DBS, there was no significant difference in percent reduction in LEDs between the GPi (47.95%) and STN (37.47%) groups (P = 0.52). The mean post‐operative ‘medication off/stimulation on’ motor UPDRS scores did not differ significantly between GPi (15.33) and STN (16.25) groups (P = 0.74). The mean percent reduction in motor UPDRS scores was also similar between GPi (58.44%) and STN (58.98%) patients (P = 0.94). Conclusions – We conclude that in disease‐matched patients with PD undergoing DBS, both GPi and STN may result in similar reduction in PD medication doses.