BACKGROUND Hereditary spastic paraplegia(HSP)is a group of neurogenetic diseases of the corticospinal tract,accompanied by distinct spasticity and weakness of the lower extremities.Mutations in the spastic paraplegia ...BACKGROUND Hereditary spastic paraplegia(HSP)is a group of neurogenetic diseases of the corticospinal tract,accompanied by distinct spasticity and weakness of the lower extremities.Mutations in the spastic paraplegia type 4(SPG4)gene,encoding the spastin protein,are the major cause of the disease.This study reported a Chinese family with HSP caused by a novel mutation of the SPG4 gene.CASE SUMMARY A 44-year-old male was admitted to our hospital for long-term right lower limb weakness,leg stiffness,and unstable walking.His symptoms gradually worsened,while no obvious muscle atrophy in the lower limbs was found.Neurological examinations revealed that the muscle strength of the lower limbs was normal,and knee reflex hyperreflexia and bilateral positive Babinski signs were detected.Members of his family also had the same symptoms.Using mutation analysis,a novel heterozygous duplication mutation,c.1053dupA,p.(Gln352Thrfs*15),was identified in the SPG4 gene in this family.CONCLUSION A Chinese family with HSP had a novel mutation of the SPG4 gene,which is autosomal dominant and inherited as pure HSP.The age of onset,sex distribution,and clinical manifestations of all existing living patients in this family were analyzed.The findings may extend the current knowledge on the existing mutations in the SPG4 gene.展开更多
PCR amplification and sequencing of whole blood DNA from an individual with hereditary spastic paraplegia, as well as family members, revealed a fragment of proteolipid protein 1 (PLP1) gene exon 1, which excluded t...PCR amplification and sequencing of whole blood DNA from an individual with hereditary spastic paraplegia, as well as family members, revealed a fragment of proteolipid protein 1 (PLP1) gene exon 1, which excluded the possibility of isomer 1 expression for this family. The fragment sequence of exon 3 and exon 5 was consistent with the proteolipid protein 1 sequence at NCBI. In the proband samples, a PLP1 point mutation in exon 4 was detected at the basic group of position 844, T→C, phenylalanine→leucine. In proband samples from a male cousin, the basic group at position 844 was C, but gene sequencing signals revealed mixed signals of T and C, indicating possible mutation at this locus. Results demonstrated that changes in PLP1 exon 4 amino acids were associated with onset of hereditary spastic paraplegia.展开更多
We have applied the Random Matrix Theory in order to examine the validity of the NPT treatment in HSP. We have investigated the pathology examining the sEMG recorded signal for about eight minutes. We have performed s...We have applied the Random Matrix Theory in order to examine the validity of the NPT treatment in HSP. We have investigated the pathology examining the sEMG recorded signal for about eight minutes. We have performed standard electromyographic investigations as well as we have applied the RMT method of analysis. We have investigated the sEMG signals before and after the NPT treatment. The application of a so robust method as the RMT evidences that the NPT treatment was able to induce a net improvement of the disease respect to the pathological status before NPT.展开更多
Impaired axonal development and degeneration underlie debilitating neurodegenerative diseases including hereditary spastic paraplegia, a large group of inherited diseases. Hereditary spastic paraplegia is caused by re...Impaired axonal development and degeneration underlie debilitating neurodegenerative diseases including hereditary spastic paraplegia, a large group of inherited diseases. Hereditary spastic paraplegia is caused by retrograde degeneration of the long corticospinal tract axons, leading to progressive spasticity and weakness of leg and hip muscles. There are over 70 subtypes with various underlying pathophysiological processes, such as defective vesicular trafficking, lipid metabolism, organelle shaping, axonal transport, and mitochondrial dysfunction. Although hereditary spastic paraplegia consists of various subtypes with different pathological characteristics, defects in mitochondrial morphology and function emerge as one of the common cellular themes in hereditary spastic paraplegia. Mitochondrial morphology and function are remodeled by mitochondrial dynamics regulated by several key fission and fusion mediators. However, the role of mitochondrial dynamics in axonal defects of hereditary spastic paraplegia remains largely unknown. Recently, studies reported perturbed mitochondrial morphology in hereditary spastic paraplegia neurons. Moreover, downregulation of mitochondrial fission regulator dynamin-related protein 1, both pharmacologically and genetically, could rescue axonal outgrowth defects in hereditary spastic paraplegia neurons, providing a potential therapeutic target for treating these hereditary spastic paraplegia. This mini-review will describe the regulation of mitochondrial fission/fusion, the link between mitochondrial dynamics and axonal defects, and the recent progress on the role of mitochondrial dynamics in axonal defects of hereditary spastic paraplegia.展开更多
BACKGROUND Hereditary spastic paraplegias (HSPs) refer to a group of heterogeneous neurodegenerative diseases characterized by lower limbs spasticity and weakness. So far, over 72 genes have been found to cause HSP (S...BACKGROUND Hereditary spastic paraplegias (HSPs) refer to a group of heterogeneous neurodegenerative diseases characterized by lower limbs spasticity and weakness. So far, over 72 genes have been found to cause HSP (SPG1-SPG72). Among autosomal dominant HSP patients, spastic paraplegia 4 (SPG4/SPAST) gene is the most common pathogenic gene, and atlastin-1 (ATL1) is the second most common one. Here we reported a novel ATL1 mutation in a Chinese spastic paraplegia 3A (SPG3A) family, which expands the clinical and genetic spectrum of ATL1 mutations. CASE SUMMARY A 9-year-old boy with progressive spastic paraplegia accompanied by right hearing loss and mental retardation for five years was admitted to our hospital.Past history was unremarkable. The family history was positive, and his grandfather and mother had similar symptoms. Neurological examinations revealed hypermyotonia in his lower limbs, hyperreflexia in knee reflex, bilateral positive Babinski signs and scissors gait. The results of blood routine test, liver function test, blood glucose test, ceruloplasmin test and vitamin test were all normal. The serum lactic acid level was significantly increased. The testing for brainstem auditory evoked potential demonstrated that the right side hearing was impaired while the left was normal. Magnetic resonance imaging showed mild atrophy of the spinal cord. The gene panel test revealed that the proband carried an ATL1 c.752A>G p.Gln251Arg (p.Q251R) mutation, and Sanger sequencing confirmed the existence of family co-segregation. CONCLUSION We reported a novel ATL1 Q251R mutation and a novel clinical phenotype of hearing loss in a Chinese SPG3A family.展开更多
The hereditary spastic paraplegias (HSPs) are neu-rodegenerative disorders of the motor system. The information about the prevalence of the cognitive dysfunction in HSP is inconsistent. The aim of the study was to des...The hereditary spastic paraplegias (HSPs) are neu-rodegenerative disorders of the motor system. The information about the prevalence of the cognitive dysfunction in HSP is inconsistent. The aim of the study was to describe the prevalence of cognitive dysfunction and the cognitive profiles of persons with HSP (pwHSP) compared to healthy controls. Subjects. Participating in the cognition study were 48 persons with HSP from the epidemiological study and 48 healthy controls. Of those with HSP, 81% (39/48) had pure and 19% (9/48) had complex forms. Among pwHSP, 20.8% (10/48) had pathogenic and 14.6% (7/48) had non-pathogenic mutations in the SPAST gene. There were no mutations detected in 31 persons with the SPAST gene. Methods. Neuropsychological test battery, MMSE Results. The results of the neuropsychological tests were significantly lower in persons with HSP than in the controls (Bonferroni correction, p < 0.00625). There were statistically significant differences in subtests measuring consistent long term retrieval (p < 0.001), later recall (p = 0.004) in verbal memory and symbol digit modalities (p = 0.0015). Five persons with HSP had an MMSE score of 24 or less. Conclusions. Our results demonstrate that cognitive dysfunction is present in 16.7 to 33.3% of persons with HSP, depending on the criteria applied. There was cognitive dysfunction in 30% of persons with a known pathogenic mutation in the SPAST gene. The most frequently damaged functions in HSP are consistent long term retrieval and later recall in verbal memory and symbol digit modalities tests that discriminate between controls and pwHSP with dysfunction (1.5 SD) in three or more domains. Dementia in HSP is rare.展开更多
Hereditary spastic paraplegia (HSP), also known as familial spastic paraparesis or Stumpell-Lorrain disease, is a large group of inherited, heterogeneous neurologic disorders caused by the degeneration of corticosp...Hereditary spastic paraplegia (HSP), also known as familial spastic paraparesis or Stumpell-Lorrain disease, is a large group of inherited, heterogeneous neurologic disorders caused by the degeneration of corticospinal axons. The prevalence is estimated at 3-10 cases per 100000 people in Europe, and is uncertain in other continents. Most patients have the same core features, which are characterized by spastic gait, lower limb hypertonicity, hyperreflexia, extensor-plantar responses, muscle weakness, and occasionally decreased vibration sense at the ankles, bladder dysfunction, pes cavus, or scoliosis.展开更多
Hereditary spastic paraplegia type 18 (HSP18) is a complicated form ofautosomal recessive HSP characterized by progressive weakness and spasticity of the lower extremities,dysarthria,and cognitive decline. In the ye...Hereditary spastic paraplegia type 18 (HSP18) is a complicated form ofautosomal recessive HSP characterized by progressive weakness and spasticity of the lower extremities,dysarthria,and cognitive decline. In the year 2011,HSP18,also known as Spastic Paraplegia 18 (SPG18),was firstly identified due to a candidate gene endoplasmic reticulum lipid raft-associated protein 2 (ERLIN2) on chromosome 8pl 1.2 in one Saudis family.During the past 5 years,another two families with SPG18 due to ERLIN2 mutations have been reported presenting with complicated phenotype. Here,we reported a patient born in a nonconsanguineous family who possessed an autosomal recessive pure form of HSP owing to novel mutations in ERLIN2.Patient was characterized by late-onset spasticity of lower extremities without significant speech involvement or cognitive disability.展开更多
Background Hereditary spastic paraplegia (HSP) is a group of inherited neurodegenerative disorders with the shared characteristics of slowly progressive spasticity and weakness of the lower limbs. Thirteen loci for ...Background Hereditary spastic paraplegia (HSP) is a group of inherited neurodegenerative disorders with the shared characteristics of slowly progressive spasticity and weakness of the lower limbs. Thirteen loci for autosomal dominant HSP have been mapped. Methods A Chinese family with HSP was found in the Shandong province and Inner Mongolia Autonomous Region of China and genomic DNA of all 19 family members was isolated. After exclusion of known autosomal dominant loci, a genome wide scan and linkage analysis were performed. Results The known autosomal dominant loci of SPG3A, SPG4, SPG6, SPG8, SPG9, SPG10, SPG12, SPG13, SPG17, SPG19, SPG29, SPG31 and SPG33 were excluded by linkage analysis. The results of a genome wide scan demonstrated candidate linkage to a locus on chromosome 11 p14.1-p11.2, over an 18.88 cM interval between markers D11 S1324 and D11 S1933. A maximal, two point LOD score of 2.36 for marker D11S935 at a recombination fraction (e) of 0 and a multipoint LOD score of 2.36 for markers D11S1776, D11S1751, D11S1392, D11S4203, D11S935, D11S4083, and D11S4148 at θ=0, suggest linkage to this locus. Conclusion The HSP neuropathy in this family may represent a novel genetic entity, which will facilitate discovery of this causative gene.展开更多
Hereditary spastic paraplegia (HSP) (MIM#182600) is a group of heterogeneous neurodegenerative disorders, with 35 underlying loci recognized by the HGNC (HUGO Gene Nomenclature Committee; http://www.gene.ucl.ac....Hereditary spastic paraplegia (HSP) (MIM#182600) is a group of heterogeneous neurodegenerative disorders, with 35 underlying loci recognized by the HGNC (HUGO Gene Nomenclature Committee; http://www.gene.ucl.ac.uk/nomenclature/) and 10 identified genes ( http : //www. gene. ucl. ac. uk/cgi-bin/nomenc lature/ searchgenes.pl plus NIPA1, last search July 2006). The mode of inheritance may be autosomal dominant, autosomal recessive or X-linked. Among these, autosomal dominant spastic paraplegia (AD-HSP) is the most common type, accounting for 70%-80% of all families. The disease is characterized by lower limb spasticity, hyperreflexia, progressive spastic gait and an extensor plantar response. Pes cavus is one of the commonly reported foot phenotypes.展开更多
Background Hereditary spastic paraplegia is a clinically and genetically heterogeneous group of neurodegenerative disorders of the motor system, characterized by slowly progressive spasticity and weakness of the lowe...Background Hereditary spastic paraplegia is a clinically and genetically heterogeneous group of neurodegenerative disorders of the motor system, characterized by slowly progressive spasticity and weakness of the lower extremities. This study was conducted to investigate the clinical features of hereditary spastic paraplegia with thin corpus callosum (HSP-TCC). Methods Clinical data from five patients and thirty-five previously published case reports of HSP-TCC were analyzed retrospectively. Results Most patients were adolescents at the onset of the disease, presenting with spastic paraparesis of the lower limbs and mental impairment. Some patients also had other clinical features, including spasticity of the upper limbs, cerebellar ataxia, and sensory disturbances. Cranial MRIs of the five patients revealed an extremely thin corpus callosum, sometimes with widened cerebral sulci and ventricles, as well as with cerebellar and cerebral atrophy. Conclusion The main clinical features of HSP-TCC include slowly progressive spastic paraplegia, mental impairment during the second decade of life, and an extremely thin corpus callosum as shown on cranial MRIs.展开更多
Background:Although many causative genes of hereditary spastic paraplegia(HSP)have been uncovered in recent years,there are still approximately 50% of HSP patients without genetically diagnosis,especially in autosomal...Background:Although many causative genes of hereditary spastic paraplegia(HSP)have been uncovered in recent years,there are still approximately 50% of HSP patients without genetically diagnosis,especially in autosomal recessive(AR)HSP patients.Rare studies have been performed to determine the genetic spectrum and clinical profiles of recessive HSP patients in the Chinese population.Methods:In this study,we investigated 24 Chinese index AR/sporadic patients by targeted next-generation sequencing(NGS),Sanger sequencing and multiplex ligation-dependent probe amplification(MLPA).Further functional studies were performed to identify pathogenicity of those uncertain significance variants.Results:We identified 11 mutations in HSP related genes including 7 novel mutations,including two(p.V1979_L1980delinsX,p.F2343 fs)in SPG11,two(p.T55 M,p.S308 T)in AP5Z1,one(p.S242N)in ALDH18A1,one(p.D597fs)in GBA2,and one(p.Q486X)in ATP13A2 in 8 index patients and their family members.Mutations in ALDH18A1,AP5Z1,CAPN1 and ATP13A2 genes were firstly reported in the Chinese population.Furthermore,the clinical phenotypes of the patients carrying mutations were described in detail.The mutation(p.S242 N)in ALDH18A1 decreased enzyme activity of P5CS and mutations(p.T55 M,p.S308 T)in AP5Z1 induced lysosomal dysfunction.Conclusion:Our results expanded the genetic spectrum and clinical profiles of AR-HSP patients and further demonstrated the efficiency and reliability of targeted NGS diagnosing suspected HSP patients.展开更多
Hereditary spastic paraplegia (HSP) is a group of neurodegenerative diseases. The genotypes and phenotypes of HSP are extremely heterogenous. SPG3A is one of the identified genes underlying HSP, and codes for a GTPase...Hereditary spastic paraplegia (HSP) is a group of neurodegenerative diseases. The genotypes and phenotypes of HSP are extremely heterogenous. SPG3A is one of the identified genes underlying HSP, and codes for a GTPase, atlastin. Mutations in SPG3A are currently believed to be associated with early onset and mild phenotypes. And most structura predictions could not detect gross changes in the mutant protein. However, in a severely affected HSP family we have identified a novel SPG3A mutation, c.1228G>A (p.G410R), in a Tibetan kindred. The mutation occurred at the highly conserved nucleotide and co-segregated with the disease, and was absent in the control subjects. Structural predictions showed that the Tibetan mutation occurred at the linking part between the guanylate-binding protein domain (GB, the ball region) and the transmembrane helices (TM, the rod region) at the start point of an α-helix, which may disrupt the helix, and cause changes in the overall structure of the transmembrane region of the molecule. Our results indicate that severe pheno- types can also arise from SPG3A mutations and the linking part of the guanylate-binding protein domainand the transmembrane helices might be crucial in determining the severity of the disease. This paper not only presents the first SPG3A mutational report from the Chinese population, but also provides po- tential evidence for a possible correlation between the severity of the phenotypes of HSP with the ex- tension of the changes in the protein structures of atlastin.展开更多
Hereditary spastic paraplegia type 56(SPG56-HSP)is a rare autosomal recessive disorder caused by loss of function mutations in CYP2U1,leading to an early-onset limbs spasticity,often complicated by additional neurolog...Hereditary spastic paraplegia type 56(SPG56-HSP)is a rare autosomal recessive disorder caused by loss of function mutations in CYP2U1,leading to an early-onset limbs spasticity,often complicated by additional neurological or extra-neurological manifestations.Given its low prevalence,the molecular bases underlying SPG56-HSP are still poorly understood,and effective treatment options are still lacking.Recently,through the generation and characterization of the SPG56-HSP mouse model,we were able to take few important steps forward in expanding our knowledge of the molecular background underlying this complex disease.Leveraging the Cyp2u1-/-mouse model we were able to identify several new diagnostics biomarkers(vitamin B2,coenzyme Q,neopterin,and interferon-alpha),as well as to highlight the key role played by the folate pathway in SPG56-HSP pathogenesis,providing a potential treatment option.In this review,we discuss the major role played by the Cyp2u1-/-model in dissecting clinical and biological aspects of the disease,opening the way to a series of new research paths ranging from clinical trials,biomarker testing,and to the expansion of the underlying genetic and molecular,emphasizing how basic mouse model characterization could contribute to advance research in the context of rare disorders.展开更多
Hereditary spastic paraplegia (HSP) is one of the most.heterogeneous genetic neurodegenerative diseases,caused by mutations in more than 50 different genes.The eighth HSP locus,SPG8,is on chromosome 8p24.13.SPG8 is ...Hereditary spastic paraplegia (HSP) is one of the most.heterogeneous genetic neurodegenerative diseases,caused by mutations in more than 50 different genes.The eighth HSP locus,SPG8,is on chromosome 8p24.13.SPG8 is a rare autosomal dominant-HSP (AD-HSP) caused by mutations in the KIAA0196 gene,with only seven SPG8families described to date.1 Here,we described the clinical characteristics of AD-HSP caused by a novel mutation in the KIAA0196 gene in a Chinese family.展开更多
Developing effective and long-term treatment strategies for rare and complex neurodegenerative diseases is challenging. One of the major roadblocks is the extensive heterogeneity among patients. This hinders understan...Developing effective and long-term treatment strategies for rare and complex neurodegenerative diseases is challenging. One of the major roadblocks is the extensive heterogeneity among patients. This hinders understanding the underlying disease-causing mechanisms and building solutions that have implications for a broad spectrum of patients. One potential solution is to develop personalized medicine approaches based on strategies that target the most prevalent cellular events that are perturbed in patients. Especially in patients with a known genetic mutation, it may be possible to understand how these mutations contribute to problems that lead to neurodegeneration. Protein–protein interaction analyses offer great advantages for revealing how proteins interact, which cellular events are primarily involved in these interactions, and how they become affected when key genes are mutated in patients. This line of investigation also suggests novel druggable targets for patients with different mutations. Here, we focus on alsin and spastin, two proteins that are identified as “causative” for amyotrophic lateral sclerosis and hereditary spastic paraplegia, respectively, when mutated. Our review analyzes the protein interactome for alsin and spastin, the canonical pathways that are primarily important for each protein domain, as well as compounds that are either Food and Drug Administration–approved or are in active clinical trials concerning the affected cellular pathways. This line of research begins to pave the way for personalized medicine approaches that are desperately needed for rare neurodegenerative diseases that are complex and heterogeneous.展开更多
基金Supported by The Shandong Provincial Natural Science Foundation,No.ZR2021MH059。
文摘BACKGROUND Hereditary spastic paraplegia(HSP)is a group of neurogenetic diseases of the corticospinal tract,accompanied by distinct spasticity and weakness of the lower extremities.Mutations in the spastic paraplegia type 4(SPG4)gene,encoding the spastin protein,are the major cause of the disease.This study reported a Chinese family with HSP caused by a novel mutation of the SPG4 gene.CASE SUMMARY A 44-year-old male was admitted to our hospital for long-term right lower limb weakness,leg stiffness,and unstable walking.His symptoms gradually worsened,while no obvious muscle atrophy in the lower limbs was found.Neurological examinations revealed that the muscle strength of the lower limbs was normal,and knee reflex hyperreflexia and bilateral positive Babinski signs were detected.Members of his family also had the same symptoms.Using mutation analysis,a novel heterozygous duplication mutation,c.1053dupA,p.(Gln352Thrfs*15),was identified in the SPG4 gene in this family.CONCLUSION A Chinese family with HSP had a novel mutation of the SPG4 gene,which is autosomal dominant and inherited as pure HSP.The age of onset,sex distribution,and clinical manifestations of all existing living patients in this family were analyzed.The findings may extend the current knowledge on the existing mutations in the SPG4 gene.
文摘PCR amplification and sequencing of whole blood DNA from an individual with hereditary spastic paraplegia, as well as family members, revealed a fragment of proteolipid protein 1 (PLP1) gene exon 1, which excluded the possibility of isomer 1 expression for this family. The fragment sequence of exon 3 and exon 5 was consistent with the proteolipid protein 1 sequence at NCBI. In the proband samples, a PLP1 point mutation in exon 4 was detected at the basic group of position 844, T→C, phenylalanine→leucine. In proband samples from a male cousin, the basic group at position 844 was C, but gene sequencing signals revealed mixed signals of T and C, indicating possible mutation at this locus. Results demonstrated that changes in PLP1 exon 4 amino acids were associated with onset of hereditary spastic paraplegia.
文摘We have applied the Random Matrix Theory in order to examine the validity of the NPT treatment in HSP. We have investigated the pathology examining the sEMG recorded signal for about eight minutes. We have performed standard electromyographic investigations as well as we have applied the RMT method of analysis. We have investigated the sEMG signals before and after the NPT treatment. The application of a so robust method as the RMT evidences that the NPT treatment was able to induce a net improvement of the disease respect to the pathological status before NPT.
文摘Impaired axonal development and degeneration underlie debilitating neurodegenerative diseases including hereditary spastic paraplegia, a large group of inherited diseases. Hereditary spastic paraplegia is caused by retrograde degeneration of the long corticospinal tract axons, leading to progressive spasticity and weakness of leg and hip muscles. There are over 70 subtypes with various underlying pathophysiological processes, such as defective vesicular trafficking, lipid metabolism, organelle shaping, axonal transport, and mitochondrial dysfunction. Although hereditary spastic paraplegia consists of various subtypes with different pathological characteristics, defects in mitochondrial morphology and function emerge as one of the common cellular themes in hereditary spastic paraplegia. Mitochondrial morphology and function are remodeled by mitochondrial dynamics regulated by several key fission and fusion mediators. However, the role of mitochondrial dynamics in axonal defects of hereditary spastic paraplegia remains largely unknown. Recently, studies reported perturbed mitochondrial morphology in hereditary spastic paraplegia neurons. Moreover, downregulation of mitochondrial fission regulator dynamin-related protein 1, both pharmacologically and genetically, could rescue axonal outgrowth defects in hereditary spastic paraplegia neurons, providing a potential therapeutic target for treating these hereditary spastic paraplegia. This mini-review will describe the regulation of mitochondrial fission/fusion, the link between mitochondrial dynamics and axonal defects, and the recent progress on the role of mitochondrial dynamics in axonal defects of hereditary spastic paraplegia.
基金Supported by National Natural Science Foundation of China,No.81171068
文摘BACKGROUND Hereditary spastic paraplegias (HSPs) refer to a group of heterogeneous neurodegenerative diseases characterized by lower limbs spasticity and weakness. So far, over 72 genes have been found to cause HSP (SPG1-SPG72). Among autosomal dominant HSP patients, spastic paraplegia 4 (SPG4/SPAST) gene is the most common pathogenic gene, and atlastin-1 (ATL1) is the second most common one. Here we reported a novel ATL1 mutation in a Chinese spastic paraplegia 3A (SPG3A) family, which expands the clinical and genetic spectrum of ATL1 mutations. CASE SUMMARY A 9-year-old boy with progressive spastic paraplegia accompanied by right hearing loss and mental retardation for five years was admitted to our hospital.Past history was unremarkable. The family history was positive, and his grandfather and mother had similar symptoms. Neurological examinations revealed hypermyotonia in his lower limbs, hyperreflexia in knee reflex, bilateral positive Babinski signs and scissors gait. The results of blood routine test, liver function test, blood glucose test, ceruloplasmin test and vitamin test were all normal. The serum lactic acid level was significantly increased. The testing for brainstem auditory evoked potential demonstrated that the right side hearing was impaired while the left was normal. Magnetic resonance imaging showed mild atrophy of the spinal cord. The gene panel test revealed that the proband carried an ATL1 c.752A>G p.Gln251Arg (p.Q251R) mutation, and Sanger sequencing confirmed the existence of family co-segregation. CONCLUSION We reported a novel ATL1 Q251R mutation and a novel clinical phenotype of hearing loss in a Chinese SPG3A family.
文摘The hereditary spastic paraplegias (HSPs) are neu-rodegenerative disorders of the motor system. The information about the prevalence of the cognitive dysfunction in HSP is inconsistent. The aim of the study was to describe the prevalence of cognitive dysfunction and the cognitive profiles of persons with HSP (pwHSP) compared to healthy controls. Subjects. Participating in the cognition study were 48 persons with HSP from the epidemiological study and 48 healthy controls. Of those with HSP, 81% (39/48) had pure and 19% (9/48) had complex forms. Among pwHSP, 20.8% (10/48) had pathogenic and 14.6% (7/48) had non-pathogenic mutations in the SPAST gene. There were no mutations detected in 31 persons with the SPAST gene. Methods. Neuropsychological test battery, MMSE Results. The results of the neuropsychological tests were significantly lower in persons with HSP than in the controls (Bonferroni correction, p < 0.00625). There were statistically significant differences in subtests measuring consistent long term retrieval (p < 0.001), later recall (p = 0.004) in verbal memory and symbol digit modalities (p = 0.0015). Five persons with HSP had an MMSE score of 24 or less. Conclusions. Our results demonstrate that cognitive dysfunction is present in 16.7 to 33.3% of persons with HSP, depending on the criteria applied. There was cognitive dysfunction in 30% of persons with a known pathogenic mutation in the SPAST gene. The most frequently damaged functions in HSP are consistent long term retrieval and later recall in verbal memory and symbol digit modalities tests that discriminate between controls and pwHSP with dysfunction (1.5 SD) in three or more domains. Dementia in HSP is rare.
基金This work was supported by grants from the National Basic Research Program of China (No. 2006CB500700), National Hi-Tech Research and Development Program of China (No. 2004AA227040), National Key Technologies Research and Development Program of China (No. 2004BA720A03), National Natural Science Foundation of China (No. 30671151), and Distinguished Youth Foundation of Hunan province (No. 2007JJ 1005).
文摘Hereditary spastic paraplegia (HSP), also known as familial spastic paraparesis or Stumpell-Lorrain disease, is a large group of inherited, heterogeneous neurologic disorders caused by the degeneration of corticospinal axons. The prevalence is estimated at 3-10 cases per 100000 people in Europe, and is uncertain in other continents. Most patients have the same core features, which are characterized by spastic gait, lower limb hypertonicity, hyperreflexia, extensor-plantar responses, muscle weakness, and occasionally decreased vibration sense at the ankles, bladder dysfunction, pes cavus, or scoliosis.
基金This study was supported by grants from National Natural Science Foundation of China (No. 81271262, No. 81571086).
文摘Hereditary spastic paraplegia type 18 (HSP18) is a complicated form ofautosomal recessive HSP characterized by progressive weakness and spasticity of the lower extremities,dysarthria,and cognitive decline. In the year 2011,HSP18,also known as Spastic Paraplegia 18 (SPG18),was firstly identified due to a candidate gene endoplasmic reticulum lipid raft-associated protein 2 (ERLIN2) on chromosome 8pl 1.2 in one Saudis family.During the past 5 years,another two families with SPG18 due to ERLIN2 mutations have been reported presenting with complicated phenotype. Here,we reported a patient born in a nonconsanguineous family who possessed an autosomal recessive pure form of HSP owing to novel mutations in ERLIN2.Patient was characterized by late-onset spasticity of lower extremities without significant speech involvement or cognitive disability.
基金This work was supported by grants from the National High Technology Research and Development Program of China ("863" Program) (No. 2004AA227040), the National Key Health Research Project Foundation of China during the 10th Five-Year Plan Period (No. 2004BA720A03) and the National Natural Science Foundation of China (No. 30300199 and No. 30671151).
文摘Background Hereditary spastic paraplegia (HSP) is a group of inherited neurodegenerative disorders with the shared characteristics of slowly progressive spasticity and weakness of the lower limbs. Thirteen loci for autosomal dominant HSP have been mapped. Methods A Chinese family with HSP was found in the Shandong province and Inner Mongolia Autonomous Region of China and genomic DNA of all 19 family members was isolated. After exclusion of known autosomal dominant loci, a genome wide scan and linkage analysis were performed. Results The known autosomal dominant loci of SPG3A, SPG4, SPG6, SPG8, SPG9, SPG10, SPG12, SPG13, SPG17, SPG19, SPG29, SPG31 and SPG33 were excluded by linkage analysis. The results of a genome wide scan demonstrated candidate linkage to a locus on chromosome 11 p14.1-p11.2, over an 18.88 cM interval between markers D11 S1324 and D11 S1933. A maximal, two point LOD score of 2.36 for marker D11S935 at a recombination fraction (e) of 0 and a multipoint LOD score of 2.36 for markers D11S1776, D11S1751, D11S1392, D11S4203, D11S935, D11S4083, and D11S4148 at θ=0, suggest linkage to this locus. Conclusion The HSP neuropathy in this family may represent a novel genetic entity, which will facilitate discovery of this causative gene.
基金This study was supported by the grants from the Chinese 863 HiTech Project (No.2001AA221102)the Guangdong Provincial Natural Science Foundation (No.031673)the Guangzhou Municipal Science and Technology Bureau (No. 200223-C7191and No.2004Z3-C7501)
文摘Hereditary spastic paraplegia (HSP) (MIM#182600) is a group of heterogeneous neurodegenerative disorders, with 35 underlying loci recognized by the HGNC (HUGO Gene Nomenclature Committee; http://www.gene.ucl.ac.uk/nomenclature/) and 10 identified genes ( http : //www. gene. ucl. ac. uk/cgi-bin/nomenc lature/ searchgenes.pl plus NIPA1, last search July 2006). The mode of inheritance may be autosomal dominant, autosomal recessive or X-linked. Among these, autosomal dominant spastic paraplegia (AD-HSP) is the most common type, accounting for 70%-80% of all families. The disease is characterized by lower limb spasticity, hyperreflexia, progressive spastic gait and an extensor plantar response. Pes cavus is one of the commonly reported foot phenotypes.
文摘Background Hereditary spastic paraplegia is a clinically and genetically heterogeneous group of neurodegenerative disorders of the motor system, characterized by slowly progressive spasticity and weakness of the lower extremities. This study was conducted to investigate the clinical features of hereditary spastic paraplegia with thin corpus callosum (HSP-TCC). Methods Clinical data from five patients and thirty-five previously published case reports of HSP-TCC were analyzed retrospectively. Results Most patients were adolescents at the onset of the disease, presenting with spastic paraparesis of the lower limbs and mental impairment. Some patients also had other clinical features, including spasticity of the upper limbs, cerebellar ataxia, and sensory disturbances. Cranial MRIs of the five patients revealed an extremely thin corpus callosum, sometimes with widened cerebral sulci and ventricles, as well as with cerebellar and cerebral atrophy. Conclusion The main clinical features of HSP-TCC include slowly progressive spastic paraplegia, mental impairment during the second decade of life, and an extremely thin corpus callosum as shown on cranial MRIs.
基金This study was supported by a grant from the National Natural Science Foundation of China to Zhi-Ying Wu(81125009)the research foundation for distinguished scholar of Zhejiang University to Zhi-Ying Wu(188020-193810101/089)the Fundamental Research Funds for the Central Universities(2019XZZX001-01-04).
文摘Background:Although many causative genes of hereditary spastic paraplegia(HSP)have been uncovered in recent years,there are still approximately 50% of HSP patients without genetically diagnosis,especially in autosomal recessive(AR)HSP patients.Rare studies have been performed to determine the genetic spectrum and clinical profiles of recessive HSP patients in the Chinese population.Methods:In this study,we investigated 24 Chinese index AR/sporadic patients by targeted next-generation sequencing(NGS),Sanger sequencing and multiplex ligation-dependent probe amplification(MLPA).Further functional studies were performed to identify pathogenicity of those uncertain significance variants.Results:We identified 11 mutations in HSP related genes including 7 novel mutations,including two(p.V1979_L1980delinsX,p.F2343 fs)in SPG11,two(p.T55 M,p.S308 T)in AP5Z1,one(p.S242N)in ALDH18A1,one(p.D597fs)in GBA2,and one(p.Q486X)in ATP13A2 in 8 index patients and their family members.Mutations in ALDH18A1,AP5Z1,CAPN1 and ATP13A2 genes were firstly reported in the Chinese population.Furthermore,the clinical phenotypes of the patients carrying mutations were described in detail.The mutation(p.S242 N)in ALDH18A1 decreased enzyme activity of P5CS and mutations(p.T55 M,p.S308 T)in AP5Z1 induced lysosomal dysfunction.Conclusion:Our results expanded the genetic spectrum and clinical profiles of AR-HSP patients and further demonstrated the efficiency and reliability of targeted NGS diagnosing suspected HSP patients.
基金supported by the Chinese 863 Hi-Tech Project(Grant No.2001AA221102)the Natural Science Foundation of Guangdong Province(Grant No.031673)the China Medical Board of New York(Grant No.01-759).
文摘Hereditary spastic paraplegia (HSP) is a group of neurodegenerative diseases. The genotypes and phenotypes of HSP are extremely heterogenous. SPG3A is one of the identified genes underlying HSP, and codes for a GTPase, atlastin. Mutations in SPG3A are currently believed to be associated with early onset and mild phenotypes. And most structura predictions could not detect gross changes in the mutant protein. However, in a severely affected HSP family we have identified a novel SPG3A mutation, c.1228G>A (p.G410R), in a Tibetan kindred. The mutation occurred at the highly conserved nucleotide and co-segregated with the disease, and was absent in the control subjects. Structural predictions showed that the Tibetan mutation occurred at the linking part between the guanylate-binding protein domain (GB, the ball region) and the transmembrane helices (TM, the rod region) at the start point of an α-helix, which may disrupt the helix, and cause changes in the overall structure of the transmembrane region of the molecule. Our results indicate that severe pheno- types can also arise from SPG3A mutations and the linking part of the guanylate-binding protein domainand the transmembrane helices might be crucial in determining the severity of the disease. This paper not only presents the first SPG3A mutational report from the Chinese population, but also provides po- tential evidence for a possible correlation between the severity of the phenotypes of HSP with the ex- tension of the changes in the protein structures of atlastin.
文摘Hereditary spastic paraplegia type 56(SPG56-HSP)is a rare autosomal recessive disorder caused by loss of function mutations in CYP2U1,leading to an early-onset limbs spasticity,often complicated by additional neurological or extra-neurological manifestations.Given its low prevalence,the molecular bases underlying SPG56-HSP are still poorly understood,and effective treatment options are still lacking.Recently,through the generation and characterization of the SPG56-HSP mouse model,we were able to take few important steps forward in expanding our knowledge of the molecular background underlying this complex disease.Leveraging the Cyp2u1-/-mouse model we were able to identify several new diagnostics biomarkers(vitamin B2,coenzyme Q,neopterin,and interferon-alpha),as well as to highlight the key role played by the folate pathway in SPG56-HSP pathogenesis,providing a potential treatment option.In this review,we discuss the major role played by the Cyp2u1-/-model in dissecting clinical and biological aspects of the disease,opening the way to a series of new research paths ranging from clinical trials,biomarker testing,and to the expansion of the underlying genetic and molecular,emphasizing how basic mouse model characterization could contribute to advance research in the context of rare disorders.
文摘Hereditary spastic paraplegia (HSP) is one of the most.heterogeneous genetic neurodegenerative diseases,caused by mutations in more than 50 different genes.The eighth HSP locus,SPG8,is on chromosome 8p24.13.SPG8 is a rare autosomal dominant-HSP (AD-HSP) caused by mutations in the KIAA0196 gene,with only seven SPG8families described to date.1 Here,we described the clinical characteristics of AD-HSP caused by a novel mutation in the KIAA0196 gene in a Chinese family.
基金funded by NIH-NIA R01AG061708 (to PHO)Patrick Grange Memorial Foundation (to PHO)+1 种基金A Long Swim (to PHO)CureSPG4 Foundation (to PHO)。
文摘Developing effective and long-term treatment strategies for rare and complex neurodegenerative diseases is challenging. One of the major roadblocks is the extensive heterogeneity among patients. This hinders understanding the underlying disease-causing mechanisms and building solutions that have implications for a broad spectrum of patients. One potential solution is to develop personalized medicine approaches based on strategies that target the most prevalent cellular events that are perturbed in patients. Especially in patients with a known genetic mutation, it may be possible to understand how these mutations contribute to problems that lead to neurodegeneration. Protein–protein interaction analyses offer great advantages for revealing how proteins interact, which cellular events are primarily involved in these interactions, and how they become affected when key genes are mutated in patients. This line of investigation also suggests novel druggable targets for patients with different mutations. Here, we focus on alsin and spastin, two proteins that are identified as “causative” for amyotrophic lateral sclerosis and hereditary spastic paraplegia, respectively, when mutated. Our review analyzes the protein interactome for alsin and spastin, the canonical pathways that are primarily important for each protein domain, as well as compounds that are either Food and Drug Administration–approved or are in active clinical trials concerning the affected cellular pathways. This line of research begins to pave the way for personalized medicine approaches that are desperately needed for rare neurodegenerative diseases that are complex and heterogeneous.