Novel mutations of the SPG11 gene in hereditary spastic paraplegia with thin corpus callosum

BACKGROUND: Hereditary spastic paraplegia with thin corpus callosum (HSP-TCC) is a clinically and genetically heterogeneous neurodegenerative disorder with genetic linkage to multi-loci. Recently pathogenic mutations in the KIAA1840 (now named SPG11) for SPG11, the major HSP-TCC locus, were identified; at least 42 different mutations have been detected. OBJECTIVE: To study the clinical features and identify the SPG11 gene mutations in Chinese patients with HSP-TCC. METHODS: Three kindreds with an autosomal recessive HSP-TCC and 5 cases with sporadic HSP-TCC in Chinese Hans were recruited. Detailed clinical history, neurological examination, MRI, electromyography, Mini Mental State Examination (MMSE), Spastic Paraplegia Rating Scale (SPRS) were presented. DNA samples of the 8 families were collected and mutation analysis of SPG11 gene was carried out by direct DNA sequencing. RESULTS: Except for one patient whose age at onset was 3 years old, 10 patients manifested a relatively similar combination of adolescence-onset cognitive decline and spastic paraparesis with TCC on brain MRI. We identified 10 novel and one known mutations in our 8 HSP-TCC families, which were two nonsense mutations (c.5977C>T/p.Q1993X, c.4668T>A/p.Y1556X), three small deletions (c.6898_6899delCT/p.L2300AfsX2338, c.3719_3720delTA/p.I1240VfsX263, c.733_734delAT/p.M245VfsX246), four small insertions (c.7088_7089insATTA/p.Y2363X, c.2163_2164insT/p.I722YfsX731, c.7101_7102insT/p.K2368X, c.6790_6791insC/p.L2264PfsX2339), one deletion/insertion (c.654_655delinsG/p.S218RfsX219), and one splice mutation (c.7151+4_7151+7delAGTA/p.K2384fsX2386). Each family has a different mutation and all the mutations are predicted to cause early protein truncation. CONCLUSION: This study widens the mutation spectrum of the SPG11 gene and the mutations in the SPG11 gene are also the major causative gene for HSP-TCC in the Chinese Hans. Screening of the whole gene is recommended in clinical practice.     

遗传性痉挛性截瘫11型基因突变分析

目的 探讨中国人群遗传性痉挛性截瘫11型(SPGll)基因突变频率及临床特点.方法 应用聚合酶链反应(PCR)结合直接测序方法对28个常染色体隐性遗传性痉挛性截瘫(ARHSP)家系先证者和14例散发痉挛性截瘫合并胼胝体发育不良患者进行SPG11基因突变分析.结果 共确诊10例SPG11家系,其中7个为ARHSP家系,3例为散发患者,共携带有13个SPG11基因新突变:c.5977C>T/p.Q1993X、c.4668T>A/p.Y1556X、c.6898_6899delCT/p.L2300AfsX23.38、c.3719_3720delTA/p.11240VfsX263、c.733_734delAT/p.M245VfsX246、c.7088_7089insATTA/p.Y2363X、c.2163_2164insT/p.1722Yfsx731、c.7101-7102insT/p.K2368X、c.6790_6791insC/p.12264PfsX2339、c.654_655delinsG/p.S218RfsX219、c.7151+4_7151+7delAGTA/p.K2384fsX2386、c.6355-21_6355-18delTCT、c.3004C>T/p.G1002X.SPG11在ARHSP家系的发病率约为25.0%(7/28),在ARHSP合并胼胝体发育不良(ARHSP-TCC)家系的发病率为6/6,在散发HSP-TCC患者中突变率为3/14.结论 对于中国人群而言,复杂型ARHSP和散发HSP-TCC患者应首先排除SPG11基因突变.     

NIPA1 mutation in complex hereditary spastic paraplegia with epilepsy

Background and purpose: Hereditary spastic paraplegia (HSP) is a group of clinically and genetically heterogeneous neurodegenerative disorders characterized in the ‘pure’ phenotype by progressive spasticity and weakness of the lower limbs. In the ‘complex’ phenotype, additional neurologic symptoms or signs are found. Mutations in the NIPA1 gene have been reported to cause spastic paraplegia type 6 (SPG6) in 10 families. SPG6 is a rare form of autosomal dominantly inherited HSP associated with a pure phenotype; however, in one complex SPG6 family, idiopathic generalized epilepsy (IGE) has been described and in addition, recurrent microdeletions at 15q11.2 including NIPA1 have been identified in patients with IGE. The purpose was to identify NIPA1 mutations in patients with pure and complex HSP. Methods: Fifty‐two patients with HSP were screened for mutations in NIPA1. Results: One previously reported missense mutation c.316G>A, p.Gly106Arg, was identified in a complex HSP patient with spastic dysarthria, facial dystonia, atrophy of the small hand muscles, upper limb spasticity, and presumably IGE. The epilepsy co‐segregated with HSP in the family. Conclusion: NIPA1 mutations were rare in our population of patients with HSP, but can be found in patients with complex HSP. Epilepsy might be more common in SPG6 than in other forms of HSP because of a genetic risk factor closely linked to NIPA1.     

Two novel mutations in the Spastin gene of Chinese patients with hereditary spastic paraplegia

Background and purpose: Hereditary spastic paraplegia (HSP) is a clinically and genetically heterogeneous group of neurodegenerative diseases. Mutations in the spastin (SPG4) gene are responsible for approximately 40% of autosomal dominant HSP (AD‐HSP) and 6.5–18% of sporadic cases. Methods: Spastin mutations were screened in 11 AD‐HSP families and 11 sporadic cases by direct sequencing and MLPA assay. Novel mutations were detected in 100 healthy controls by PCR‐RFLP. Results: We identified seven different spastin mutations in five probands and one sporadic patient. Two of seven mutations were novel. The c.458delT was a pathogenic mutation, but the effect of c.1724 G>T remained unknown. Conclusions: This study allowed us to estimate the frequency of the SPG4 mutations in Chinese at 45% (5/11) in families with AD‐HSP and 9% (1/11) in sporadic cases. In addition, our data showed p.T614I was not associated with congenital arachnoid cysts.     

Mutation analysis of the SPG4 gene in Italian patients with pure and complicated forms of spastic paraplegia

Mutations in the SPG4 gene are the most common causes of hereditary spastic paraplegia (HSP) accounting for up to 40% of autosomal dominant (AD) forms and 12–18% of sporadic cases. The phenotype associated with HSP due to mutations in the SPG4 gene tends to be pure. There is increasing evidence, however, of patients with complicated forms of spastic paraplegia in which SPG4 mutations were identified. A cohort of 38 unrelated Italian patients with spastic paraplegia, of which 24 had a clear dominant inheritance and 14 were apparently sporadic, were screened for mutations in the SPG4 gene.We identified 11 different mutations, six of which were novel (p.Glu143GlyfsX8, p.Tyr415X, p.Asp548Asn, c.1656_1664delinsTGACCT, c.1688-3C>G and c.*2G>T) and two exon deletions previously reported. The overall rate of SPG4 gene mutation in our patients was 36.8% (14/38); in AD-HSP we observed a mutation frequency of 45.8% (11/24), in sporadic cases the frequency was 21.4% (3/14). Furthermore, we found a mutational rate of 22.2% (2/9) and 41.4% (12/29) in the complicated and pure forms, respectively. The results underlie the importance of genetic testing in all affected individuals.     

Hereditary spastic paraplegia with mental impairment and thin corpus callosum in Tunisia: SPG11, SPG15, and further genetic heterogeneity

OBJECTIVE: To perform a clinical and genetic study of Tunisian families with autosomal recessive (AR) hereditary spastic paraplegia with thin corpus callosum (HSP-TCC). DESIGN: Linkage studies and mutation screening. SETTING: Reference Center for Neurogenetics in South and Center Tunisia. PARTICIPANTS: Seventy-three subjects from 33 "apparently" unrelated Tunisian families with AR HSP. MAIN OUTCOME MEASURES: Families with AR HSP-TCC were subsequently tested for linkage to the corresponding loci using microsatellite markers from the candidate intervals, followed by direct sequencing of the KIAA1840 gene in families linked to SPG11. RESULTS: We identified 8 Tunisian families (8 of 33 [24%]), including 19 affected patients, fulfilling the clinical criteria for HSP-TCC. In 7 families, linkage to either SPG11 (62.5%) or SPG15 (25%) was suggested by haplotype reconstruction and positive logarithm of odds score values for microsatellite markers. The identification of 2 recurrent mutations (R2034X and M245VfsX) in the SPG11 gene in 5 families validated the linkage results. The neurological and radiological findings in SPG11 and SPG15 patients were relatively similar. The remaining family, characterized by an earlier age at onset and the presence of cataracts, was excluded for linkage to the 6 known loci, suggesting further genetic heterogeneity. CONCLUSIONS: Autosomal recessive HSP-TCC is a frequent subtype of complicated HSP in Tunisia and is clinically and genetically heterogeneous. SPG11 and SPG15 are the major loci for this entity, but at least another genetic form with unique clinical features exists.     

Early onset autosomal dominant spastic paraplegia caused by novel mutations in SPG3A

Hereditary spastic paraplegia (HSP) is a group of neurodegenerative disorders mainly characterized by progressive spasticity of the lower limbs. The major features of HSP are a marked phenotypic variability both among and within families and an extended genetic heterogeneity. More than 20 HSP loci and 10 spastic paraplegia genes ( SPG) have been identified to date, including the genes responsible for the two most frequent forms of autosomal dominant spastic paraplegia (AD-HSP), encoding spastin ( SPG4) and atlastin ( SPG3A), respectively. To date, only eight mutations have been described in the atlastin gene, which was reported to account for about 10% of all AD-HSP families. We investigated 15 German and French AD-HSP families, including the 3 large pedigrees that allowed the mapping and subsequent refinement of the SPG3A locus. Three novel mutations were found in exons 4, 9, and 12 of the atlastin gene and the common R239C mutation located in exon 7 was confirmed in a 7th family of European origin. Overall, the comparison of the clinical data for all SPG3A-HSP families reported to date failed to reveal any genotype/phenotype correlation as demonstrated for other forms of AD-HSP. However, it confirmed the early onset of this form of HSP, which was observed in almost all affected individuals with a mutation in the atlastin gene.     

Hereditary spastic paraplegia with thin corpus callosum: reduction of the SPG11 interval and evidence for further genetic heterogeneity

BACKGROUND: Hereditary spastic paraplegia (HSP) with thin corpus callosum (TCC) is an autosomal recessive form of complicated HSP mainly characterized by slowly progressive spastic paraparesis and mental deterioration beginning in the second decade of life. The locus for HSP-TCC, designated SPG11, was mapped to chromosome 15q13-15 in some of the affected families from Japan, Europe, and North America, spanning an interval of 17.5 megabases (Mb). OBJECTIVE: To perform a clinical and genetic study of HSP-TCC. DESIGN AND SETTING: Case series; multi-institutional study. PATIENTS: Seven patients with HSP-TCC who belong to 3 consanguineous families of Arab origin residing in Israel. RESULTS: The 7 patients manifested a relatively similar combination of adolescence-onset cognitive decline and spastic paraparesis with TCC on brain magnetic resonance imaging. After excluding the SPG7 locus, we tested the 3 families for linkage to the SPG11, SPG21/MAST, and ACCPN loci associated with autosomal recessive disorders with TCC. Two families showed evidence for linkage to SPG11 (Z(max) = 5.55) and reduced the candidate region to 13 Mb. CONCLUSIONS: Our findings in HSP-TCC further confirm its worldwide distribution and genetic heterogeneity, and they significantly reduce the candidate SPG11 interval.     

Novel spastin (SPG4) mutations in Italian patients with hereditary spastic paraplegia

Spastic paraplegia type 4 is caused by mutations in the gene that encodes spastin (SPG4), a member of the AAA protein family. A cohort of 34 unrelated Italian patients with pure spastic paraplegia, of which 18 displayed autosomal dominant inheritance and 16 were apparently sporadic, were screened for mutations in the SPG4 gene by denaturing high performance liquid chromatography. We identified a previously reported mutation in a sporadic patient with pure hereditary spastic paraplegia. We also identified eight unrelated patients with pure autosomal dominant hereditary spastic paraplegia carrying five novel mutations in the SPG4 gene (one missense mutation, c.1304 C>T; one nonsense mutation, c.807C>A; two frameshift mutations, c.1281dupT, c.1514_1515insATA; and one splicing mutation, c.1322-2A>C). The frequency for SPG4 mutations detected in autosomal dominant hereditary spastic paraplegia was 44.4%. This study contributes to expand the spectrum of SPG4 mutations in Italian population.     

Novel mutations c.[5121_5122insAG]+[6859C>T] of the SPG11 gene associated with cerebellum hypometabolism in a Chinese case of hereditary spastic paraplegia with thin corpus callosum

Hereditary spastic paraplegia (HSP) is a very heterogeneous disease, both genetically and clinically. To date, approximately 52 loci and 31 genes have been reported to be involved in the causality of HSP. The pattern of inheritance of the disease can be autosomal dominant, autosomal recessive, or X-linked recessive. Autosomal recessive HSP with thin corpus callosum (ARHSP-TCC) is one form of this disease, and a recessive gene, SPG11, is responsible for 41–77% of all ARHSP-TCC cases. SPG11 encodes the protein SPATACSIN, which is most prominently expressed in the cerebellum. However, little is known about its function. Despite diverse clinical presentations, diffuse hypometabolism in the cerebellum has not been reported previously. We have identified an HSP-TCC patient that presented with prominent intellectual disability rather than spasticity. ¹⁸Fluorodeoxyglucose positron emission tomography/computed tomography (¹⁸FDG-PET/CT) examination showed diffuse hypometabolism in both cerebella. Mutation screening of the SPG11 gene using Sanger sequencing identified the novel compound heterozygous mutation c.[5121_5122insAG]+[6859C>T] (p.[I1708RfsX2]+[Q2287X]) in the patient. The mother bears the c.5121_5122insAG mutation, which results in a frameshift and is predicted to truncate the 735 amino acids from the C-terminus, and the father carries the c.6859C>T mutation, which terminates the 157 amino acids from the C-terminus. Therefore, these mutations may result in the loss of function of wild-type SPATACSIN. Our results suggest that SPATACSIN may be involved in cerebella metabolism, and the novel mutations provide more data for the mutational spectrum of this gene, which will aid in the development of quick and accurate genetic diagnostic tools for this disease.     

Novel mutations in SPG11 cause hereditary spastic paraplegia associated with early‐onset levodopa‐responsive Parkinsonism

Background: Autosomal recessive hereditary spastic paraplegia with thin corpus callosum is a neurodegenerative disorder characterized by spastic paraparesis, cognitive impairment, and peripheral neuropathy. The neuroradiologic hallmarks are thin corpus callosum and periventricular white matter changes. Mutations in the SPG11 gene have been identified to be a major cause of autosomal recessive hereditary spastic paraplegia with thin corpus callosum and recently also proven to be responsible for juvenile parkinsonism associated with spastic paraplegia. Methods: We describe one Italian autosomal recessive hereditary spastic paraplegia with thin corpus callosum patient who unusually presented at onset, 16 years, with parkinsonism‐like features, responsive to dopaminergic therapy. Then the clinical picture evolved and became more complex. A brain magnetic resonance imaging scan showed thin corpus callosum and hyperintense T₂‐weighted lesions in periventricular regions, and the ¹²³I‐ioflupane single‐photon emission coupled tomography was abnormal. Results: Genetic analysis detected two novel mutations, a c.3664insT variant in compound heterozygosity with a c.6331insG mutation, in SPG11. Discussion: This case confirms the high genetic and clinical heterogeneity associated with SPG11 mutations. It also offers further evidence that parkinsonism may initiate autosomal recessive hereditary spastic paraplegia with thin corpus callosum and that parkinsonian symptoms can have variable dopaminergic response in these patients. © 2011 Movement Disorder Society     

遗传性痉挛性截瘫伴胼胝体发育不良的遗传学研究进展

遗传性痉挛性截瘫伴胼胝体发育不良（HSP-TCC）是复杂型HSP的一种,临床特点为进行性双下肢痉挛伴胼胝体发育不良,多儿童及青少年发病,常伴智能障碍。HSP-TCC具有高度的遗传异质性,病理提示皮质脊髓束变性。目前已发现至少19个疾病基因,主要包括：SPG1、SPG11、SPG15、SPG21、SPG35、SPG44、PG47、SPG54、SPG56等。该文就近年来有关该病的遗传学研究进展进行了综述,以期有助于该病的鉴别与诊断。     

SPG11 spastic paraplegia

Autosomal recessive hereditary spastic paraplegia (AR HSP) with thin corpus callosum (TCC) is a rare neurodegenerative disorder often caused by mutations in the gene encoding for spatacsin at the SPG11 locus on chromosome 15q. The disease is characterized by progressive spastic paraparesis and mental retardation which occur during the first two decades of life and frequently with peripheral neuropathy. Brain magnetic resonance imaging (MRI) reveals typical TCC with periventricular white matter changes. We describe two patients, of Turkish descent, from the same consanguineous family and affected with SPG11 in association with unusual early-onset parkinsonism. Parkinsonism occurred during the very early stages of SPG11 in both patients, being in one the inaugural symptom of the disease presented as a resting tremor with akinesia, rigidity and expressing an initial moderate levodopa-response that progressively weakened. The second patient presented a resting tremor with mild akinesia and no levodopa-response. Both patients were affected with progressive spastic paraparesis which had initially occurred at 15 and 12 years of age, respectively, in association with mild mental retardation and an axonal polyneuropathy. TCC with periventricular white matter changes (PWMC) was evident by MRI and ¹²³I-ioflupane SPECT was abnormal. Genetic analysis detected for both patients a new c.704_705delAT, p.H235RfsX12 homozygous mutation in SPG11. This report provides evidence that parkinsonism may initiate SPG11-linked HSP TCC and that SPG11 may cause juvenile parkinsonism.     

A novel mutation in the <Emphasis Type="Italic">HSPD1</Emphasis> gene in a patient with hereditary spastic paraplegia

Abstract A mutation in the HSPD1 gene has previously been associated with an autosomal dominant form of spastic paraplegia in a French family. HSPD1 encodes heat shock protein 60, a molecular chaperone involved in folding and quality control of mitochondrial proteins. In the present work we have investigated 23 Danish index patients with hereditary spastic paraplegia (HSP) for mutations in the HSPD1 gene. One patient was found to be heterozygous for a c.1381C > G missense mutation encoding the mutant heat shock protein 60 p.Gln461Glu. The mutation was also present in two unaffected brothers, but absent in 400 unrelated Danish individuals. We found that the function of the p.Gln461Glu heat shock protein 60 was mildly compromised. The c.1381C > G mutation likely represents a novel low-penetrance HSP allele.     

Mutation analysis of SPG4 and SPG3A genes and its implication in molecular diagnosis of Korean patients with hereditary spastic paraplegia

BACKGROUND: Hereditary spastic paraplegia (HSP), a genetically and clinically heterogeneous group of neurodegenerative disorders, is characterized by progressive lower limb weakness and spasticity. Among the 8 loci associated with the autosomal dominant uncomplicated HSP (AD-HSP), the spastin (SPG4) and atlastin (SPG3A) genes have been known to account for approximately 40% and 10% of all cases, respectively. OBJECTIVE: To investigate the contribution of these 2 genes in the occurrence of HSP in Korean patients. DESIGN: Clinical and genetic study. SETTING: Tertiary care center. PATIENTS: Eighteen patients with uncomplicated HSP (11 AD and 7 sporadic) underwent screening for gene mutation. MAIN OUTCOME MEASURES: Mutations in the SPG4 and SPG3A genes as detected by direct sequencing of all coding exons and flanking intronic sequences. RESULTS: We identified 8 different SPG4 mutations, 7 of which have not been reported elsewhere. Among the detected mutations were 3 missense mutations, 2 in-frame deletions, 2 frameshift mutations, and 1 splice-site mutation. No mutation was found in the SPG3A gene. CONCLUSION: Compared with previous studies, a higher frequency of SPG4 gene mutations in AD-HSP (7/11; 64%) was observed, suggesting that a mutation analysis for the SPG4 gene might be helpful for molecular diagnosis of AD-HSP in Korean patients.     

Complicated hereditary spastic paraplegia with thin corpus callosum (HSP-TCC) and childhood onset

The hereditary spastic paraplegias (HSPs) are a group of rare disorders with the predominant clinical feature of progressive spastic paraplegia. They are subdivided into pure and complicated forms according to whether the disorder is associated with other neurological abnormalities. We report on two unrelated female Caucasian patients with complicated HSP, aged 16 and 24 years, who showed progressive gait disturbance with spasticity and ataxia as well as cognitive impairment. Onset of symptoms was at age 3 and 10 years, respectively. MRI revealed mild diffuse non-progressive T (2)-signal alterations of cerebral white matter and thinning of the body and genu of the corpus callosum. Some similarity of clinical symptoms and MRI patterns with the phenotype of Mast syndrome prompted a mutation analysis of the SPG21 gene, encoding maspardin, which revealed a wild-type sequence in both patients. Clinical and neuroradiological features in our patients are diagnostic for complicated autosomal recessive hereditary spastic paraplegia with thin corpus callosum (HSP-TCC, SPG11). This disorder, characterized by a typical MRI pattern and a progressive spastic paraplegia that may be associated with dementia and ataxia, may have an onset in early childhood and probably is one of the more common forms of complicated HSP.     

Novel SPG3A and SPG4 mutations in dominant spastic paraplegia families

Objectives – The hereditary spastic paraplegias (HSP) are a genetically and clinically heterogeneous group of neurodegenerative disorders, mainly characterized by a progressive spasticity and weakness of the lower limbs. Mutations in the SPG4 and SPG3A genes are responsible for approximately 50% of autosomal dominant HSP. To genetically diagnose the Portuguese families with HSP, mutation analysis was performed for the SPG4 and SPG3A genes. Patients and methods – Analysis was performed by polymerase chain reaction, followed by denaturing high performance liquid chromatography (DHPLC), in 61 autosomal dominant (AD)‐HSP families and 19 unrelated patients without family history. Results – Ten novel mutations were identified: one in the SPG3A and nine in the SPG4 genes; three known mutations in the SPG4 were also found. Most of the novel mutations were frameshift or nonsense (80%), resulting in a dysfunctional protein. Conclusions – The SPG4 and SPG3A analysis allowed the identification of 10 novel mutations and the genetic diagnosis of approximately a quarter of our AD‐HSP families.     

Novel SPG11 mutations in Chinese families with hereditary spastic paraplegia with thin corpus callosum

BackgroundHereditary spastic paraplegia is a clinically and genetically heterogeneous neurodegenerative disorder characterized by progressive spasticity of the lower limbs. Mutations in SPG11 gene have been recently identified as a major cause of hereditary spastic paraplegia with thin corpus callosum.MethodsTwo unrelated Chinese families were examined by clinical evaluation, mutation analysis of SPG11, detailed neuropsychological assessment and diffusion tensor imaging.ResultsBoth patients presented with spastic paraparesis and learning disability. Two novel and one known mutations in SPG11 were detected through genetic analysis. Cognitive impairment was found with severe deficits in domains such as executive functions and memory. Magnetic resonance imaging showed thin corpus callosum while diffusion tensor imaging revealed increased mean diffusion and decreased fractional anisotropy in the corpus callosum and subcortical white matter in frontal, temporal lobe compared with the healthy controls.ConclusionsThis study widens the spectrum of mutations in SPG11. The application of detailed neuropsychological tests and diffusion tensor imaging could detect cerebral subtle involvement even in early stage of the disease.     

Clinical and genetic findings in a series of Italian children with pure hereditary spastic paraplegia

Background: Hereditary spastic paraplegias (HSP) are a group of neurodegenerative disorders characterized by progressive lower extremity spastic weakness. SPG7, SPG4 and SPG3A are some of the autosomal genes recently found as mutated in recessive or dominant forms of HSP in childhood. SPG31 is more often associated with a pure spastic paraplegia phenotype, but genotype–phenotype correlation is still unclear. The aims of the current study was: (i) to verify the mutational frequency of SPG4, SPG3A, SPG31 and SPG7 genes in our very‐well‐selected childhood sample, and (ii) to improve our knowledge about the clinical and electrophysiological HSP phenotypes and their possible correlation with a specific mutation. Methods: A sample of 14 Italian children affected by pure HSP (mean age at diagnosis 5.9 years) was extensively investigated with electrophysiological, neuroradiological and genetic tests. Results: Three SPG4 mutations were identified in three patients: two novel missense mutations, both sporadic, and one multiexonic deletion already reported. A novel large deletion in SPG31 gene involving exons 2–5 was also detected in one young patient. No mutations in the SPG7 and in the SPG3A genes were found. Conclusions: Our data confirm that HSP represent a heterogeneous group of genetic neurodegenerative disorders, also in sporadic or autosomal recessive early onset forms. Multiplex Ligation‐dependent Probe Amplification‐based mutation screening for SPG4 and SPG31 genes would be added to sequencing‐based screening of SPG4, SPG31 and SPG3A genes in the routine diagnosis of HSP children.