Your search keyword '"Hereditary spastic paraplegia"' showing total 3,658 results

1. Canine RNF170 Single Base Deletion in a Naturally Occurring Model for Human Neuroaxonal Dystrophy.

Author

Cook, Shawna R., Schwarz, Cleo, Guevar, Julien, Assenmacher, Charles‐Antoine, Sheehy, Maeve, Fanzone, Nathan, Church, Molly E., Murgiano, Leonardo, Casal, Margret L., Jagannathan, Vidhya, Gutierrez‐Quintana, Rodrigo, Lowrie, Mark, Steffen, Frank, Leeb, Tosso, and Ekenstedt, Kari J.

Abstract

Background: Neuroaxonal dystrophy (NAD) is a group of inherited neurodegenerative disorders characterized primarily by the presence of spheroids (swollen axons) throughout the central nervous system. In humans, NAD is heterogeneous, both clinically and genetically. NAD has also been described to naturally occur in large animal models, such as dogs. A newly recognized disorder in Miniature American Shepherd dogs (MAS), consisting of a slowly progressive neurodegenerative syndrome, was diagnosed as NAD via histopathology. Objectives: To describe the clinical and pathological phenotype together with the identification of the underlying genetic cause. Methods: Clinical and postmortem evaluations, together with a genome‐wide association study and autozygosity mapping approach, followed by whole‐genome sequencing. Results: Affected dogs were typically young adults and displayed an abnormal gait characterized by pelvic limb weakness and ataxia. The underlying genetic cause was identified as a 1‐bp (base pair) deletion in RNF170 encoding ring finger protein 170, which perfectly segregates in an autosomal recessive pattern. This deletion is predicted to create a frameshift (XM_038559916.1:c.367delG) and early truncation of the RNF170 protein (XP_038415844.1:(p.Ala123Glnfs*11)). The age of this canine RNF170 variant was estimated at ~30 years, before the reproductive isolation of the MAS breed. Conclusions: RNF170 variants were previously identified in human patients with autosomal recessive spastic paraplegia‐85 (SPG85); this clinical phenotype shows similarities to the dogs described herein. We therefore propose that this novel MAS NAD could serve as an excellent large animal model for equivalent human diseases, particularly since affected dogs demonstrate a relatively long lifespan, which represents an opportunity for therapeutic trials. © 2024 The Author(s). Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society. [ABSTRACT FROM AUTHOR]

Published

2024

2. A Homoplasmic MT‐TV Mutation Associated with Mitochondrial Inheritance of Hereditary Spastic Paraplegia.

Author

Shi, Yan, Xie, Junhao, Jiang, Junyi, Yan, Xinyu, Chen, Xuejiao, Hong, Shunyan, Liu, Jiyuan, Xu, Guorong, Su, Huizhen, Chen, Wanjin, Wang, Ning, and Lin, Xiang

Subjects

*GENETIC testing, *FAMILIAL spastic paraplegia, *MITOCHONDRIAL DNA, *PERONEAL nerve, *PHENOTYPES, *MOVEMENT disorders

Abstract

Background Objectives Methods Results Conclusions Hereditary spastic paraplegia (HSP) is characterized by progressive lower limb weakness and spasticity, with unknown genetic cause in many cases.To identify novel genetic causes of HSP.Phenotypic characterization, genetic screening, transcriptome sequencing, and peroneal nerve biopsy were conducted in a Chinese HSP family.We found a homoplasmic MT‐TV (mitochondrial tRNAVal) mutation, m.1661A > G, present in all affected individuals across four generations of a family with complex HSP. Fourth‐generation affected individuals displayed earlier onset, likely due to presumptive anticipation, and greater symptom severity, potentially caused by decreased mitochondrial DNA (mtDNA) copy number. Upregulation of mitochondrial autophagy genes in these patients suggested that MT‐TV mutations could lead to reduced mtDNA copy number. Neural biopsies revealed ultrastructural abnormalities in myelin and mitochondria.The rare MT‐TV m.1661A > G mutation is associated with HSP. Variations in mtDNA copy number may play a causal role in differences among clinical phenotypes. © 2024 International Parkinson and Movement Disorder Society. [ABSTRACT FROM AUTHOR]

Published

2024

3. Are clinical tests and biomechanical measures of gait stability able to differentiate fallers from non-fallers in hereditary spastic paraplegia?

Author

van de Venis, Lotte, Ormiston, Jean, Bruijn, Sjoerd, Geurts, Alexander C.H., van de Warrenburg, Bart P.C., Weerdesteyn, Vivian, Keijsers, Noël, and Nonnekes, Jorik

Subjects

*GAIT in humans, *PARAPLEGIA, *BIOMECHANICS, *TREADMILLS, *WALKING

Abstract

Balance and gait impairments are common in people with hereditary spastic paraplegia (HSP) and often result in falls. Measures that identify patients at risk of falling are clinically relevant, but relatively unexplored in HSP. Here, we evaluated the potential of different balance and gait constructs to (1) identify differences between healthy controls and people with HSP and (2) discriminate between fallers and non-fallers with HSP. We included 33 people with pure-HSP and 15 healthy controls. We assessed balance confidence (six-item Activities-specific Balance Confidence scale), clinical balance capacity (Mini-Balance Evaluation Systems Test) and gait capacity (ten-meter Walk Test). Biomechanical measures included spatiotemporal gait variability, mediolateral Margin of Stability (MoS), Foot Placement Deviation (FPD), and Local Divergence Exponents (LDEs) of trunk and pelvis, derived from treadmill-walking at comfortable and fixed gait speeds. People with HSP logged their falls during a fifteen-week period and were categorized as 'faller' (≥1 fall) or 'non-faller'. People with HSP had significantly lower balance confidence, balance capacity, and gait capacity compared to age-matched controls. People with HSP also showed reduced gait stability, reflected by increased spatiotemporal gait variability, FPD, and LDEs of trunk and pelvis. Overall, 44 % of people with HSP were categorized as 'faller'. Balance confidence (AUC:0.84) and balance capacity (AUC:0.75) discriminated fallers from non-fallers, whereas none of the biomechanical measures significantly differed. Balance confidence, clinical balance and gait capacity, and biomechanical measures are affected in HSP, but clinical measures showed potential to differentiate fallers from non-fallers in people with HSP. • Balance confidence, balance and gait capacity differentiate healthy controls from HSP. • Gait stability measures at comfortable and fixed gait speed differentiate healthy controls from HSP. • Balance confidence has most potential to differentiate fallers from non-fallers in HSP. • Gait stability measures were not able to differentiate fallers from non-fallers in HSP. [ABSTRACT FROM AUTHOR]

Published

2024

4. Hereditary spastic paraplegia with thin corpus callosum and SPG11 mutation: A neuropathological evaluation.

Author

Scherpelz, Kathryn P., Yoda, Rebecca A., Jayadev, Suman, Davis, Marie Y., Hincks, Joshua C., Liachko, Nicole F., Bragg, Robert M., Cochoit, Alexa, MacDonald, Christine L., Keene, C. Dirk, Bird, Thomas D., and Latimer, Caitlin S.

Subjects

*CORPUS callosum, *MAGNETIC resonance imaging, *SUBSTANTIA nigra, *SPINAL cord, *WHITE matter (Nerve tissue), *FAMILIAL spastic paraplegia

Abstract

Hereditary spastic paraplegia (HSP) with thin corpus callosum can be due to a variety of genetic causes, the most common of which are biallelic variants in SPG11 (HSP11). Only six cases of neuropathologic examination of HSP11 have been reported. Here we present neuropathological findings in another case of HSP11 with novel mutation (homozygous c.6439_6442del) and clinical features of three additional cases of HSP11. These four cases of HSP11 had similar disease courses with prominent lower extremity weakness and spasticity but varied cognitive symptoms and brain magnetic resonance imaging (MRI) findings. Neuropathological examination of one case included ex vivo MRI of the cerebrum, histologic and immunohistochemical evaluation, and Western blot for SPG11. The case was notable for a small cerebrum with decreased volume of cortex, white matter, and deep gray nuclei. The corpus callosum was thin, and the substantia nigra showed marked pallor. Microscopically, the cortex had normal lamination and mild loss of neurons with mild gliosis, the corpus callosum was thin with limited gliosis, and the substantia nigra had marked decrease in neurons and pigment, with minimal gliosis. In contrast, the basal ganglia, thalamus, and spinal cord (anterior horns, corticospinal, and spinocerebellar tracts) had prominent neuron loss and gliosis. Myelin‐laden macrophages were found in multiple sites but were most common in the corpus callosum. No hyperphosphorylated tau or TDP‐43 aggregates, Lewy bodies, or amyloid β plaques were found. Compared to control, SPG11 was absent in HSP11 brain and markers of autophagy were elevated by Western blot. Comparison with prior reports of HSP with thin corpus callosum and HSP11 demonstrates a disease with a broad range of structural changes of the brain, including features of abnormal development and degeneration. [ABSTRACT FROM AUTHOR]

Published

2024

5. Biallelic Variants in COQ4 Cause Childhood‐Onset Pure Hereditary Spastic Paraplegia.

Author

Schierbaum, Luca, Quiroz, Vicente, Tam, Amy, Zubair, Umar, Tochen, Laura, Srouji, Rasha, Yang, Kathryn, and Ebrahimi‐Fakhari, Darius

Subjects

*MOVEMENT disorders, *FAMILIAL spastic paraplegia, *EXTRAPYRAMIDAL disorders, *NEUROLOGICAL disorders, *FINE motor ability, *CHILDREN'S hospitals

Abstract

This article discusses a case report of a 6-year-old female with childhood-onset pure hereditary spastic paraplegia (HSP) caused by biallelic variants in the COQ4 gene. HSP is a genetically and clinically diverse condition characterized by lower limb spasticity and weakness. The patient's symptoms included progressive lower limb spasticity, delayed motor development, and the need for assistive devices for walking. Genetic testing confirmed the presence of two variants in the COQ4 gene, one of which has been associated with severe phenotypes. This case expands the understanding of COQ4-associated HSP and highlights the importance of genetic testing in diagnosing the condition. The text also discusses the association between COQ4 deficiency and hereditary spastic paraplegia (HSP), a neurological disorder characterized by progressive stiffness and weakness in the legs. The text describes several variants of COQ4 deficiency found in Chinese families, some of which also involve epilepsy and vision impairment. The age at onset of symptoms varies, and functional studies have shown reduced levels of CoQ10 in patients with COQ4 deficiency. The text emphasizes the importance of reanalyzing genetic data and highlights the potential therapeutic implications of supplementing CoQ10. [Extracted from the article]

Published

2024

6. Update on Inherited Pediatric Motor Neuron Diseases: Clinical Features and Outcome.

Author

Trabacca, Antonio, Ferrante, Camilla, Oliva, Maria Carmela, Fanizza, Isabella, Gallo, Ivana, and De Rinaldis, Marta

Subjects

*AMYOTROPHIC lateral sclerosis, *SPINAL muscular atrophy, *MUSCULAR atrophy, *WHOLE genome sequencing, *MUSCLE weakness, *MOTOR neuron diseases

Abstract

Background: Inherited pediatric motor neuron diseases (MNDs) are a group of neurodegenerative disorders characterized by the degeneration of motor neurons in the brain and the spinal cord. These diseases can manifest as early as infancy and originate from inherited pathogenic mutations in known genes. Key clinical features of MNDs include muscle weakness, hypotonia, and atrophy due to the degeneration of lower motor neurons or spasticity, hypertonia, and hyperreflexia caused by upper motor neuron dysfunction. The course of the disease varies among individuals and is influenced by the specific subtype. Methods: We performed a non-systematic, narrative clinical review, employing a systematic methodology for the literature search and article selection to delineate the features of hereditary pediatric motor neuron diseases. Results: The growing availability of advanced molecular testing, such as whole-exome sequencing (WES) and whole-genome sequencing (WGS), has expanded the range of identified genetic factors. These advancements provide insights into the genetic complexity and underlying mechanisms of these disorders. As more MND-related genes are discovered, the accumulating genetic data will help prioritize promising candidate genes for future research. In some cases, targeted treatments based on specific genetic mechanisms have already emerged, underscoring the critical role of early and timely diagnosis in improving patient outcomes. Common MNDs include amyotrophic lateral sclerosis, spinal muscular atrophy, and bulbar spinal muscular atrophy. Conclusion: This narrative clinical review covers the clinical presentation, genetics, molecular features, and pathophysiology of inherited pediatric MNDs. [ABSTRACT FROM AUTHOR]

Published

2024

7. Cul-4 inhibition rescues spastin levels and reduces defects in hereditary spastic paraplegia models.

Author

Sardina, Francesca, Carsetti, Claudia, Giorgini, Ludovica, Fattorini, Gaia, Cestra, Gianluca, and Rinaldo, Cinzia

Subjects

*FAMILIAL spastic paraplegia, *MOTOR neuron diseases, *DROSOPHILA melanogaster, *DROSOPHILA, *DRUG therapy

Abstract

Hereditary spastic paraplegias (HSPs) are degenerative motor neuron diseases characterized by progressive spasticity and weakness in the lower limbs. The most common form of HSP is due to SPG4 gene haploinsufficiency. SPG4 encodes the microtubule severing enzyme spastin. Although, there is no cure for SPG4-HSP, strategies to induce a spastin recovery are emerging as promising therapeutic approaches. Spastin protein levels are regulated by poly-ubiquitination and proteasomal-mediated degradation, in a neddylation-dependent manner. However, the molecular players involved in this regulation are unknown. Here, we show that the Cullin-4-RING E3 ubiquitin ligase complex (CRL4) regulates spastin stability. Inhibition of CRL4 increases spastin levels by preventing its poly-ubiquitination and subsequent degradation in spastin-proficient and in patient derived SPG4 haploinsufficient cells. To evaluate the role of CRL4 complex in spastin regulation in vivo , we developed a Drosophila melanogaster model of SPG4 haploinsufficiency which show alterations of synapse morphology and locomotor activity, recapitulating phenotypical defects observed in patients. Downregulation of the CRL4 complex, highly conserved in Drosophila , rescues spastin levels and the phenotypical defects observed in flies. As a proof of concept of possible pharmacological treatments, we demonstrate a recovery of spastin levels and amelioration of the SPG4-HSP-associated defects both in the fly model and in patient-derived cells by chemical inactivation of the CRL4 complex with NSC1892. Taken together, these findings show that CRL4 contributes to spastin stability regulation and that it is possible to induce spastin recovery and rescue of SPG4-HSP defects by blocking the CRL4-mediated spastin degradation. [ABSTRACT FROM AUTHOR]

Published

2024

8. Spastin accumulation and motor neuron defects caused by a novel SPAST splice site mutation.

Author

Luo, Min, Wang, Yanying, Liang, Jinxiu, and Wan, Xinhua

Subjects

*FAMILIAL spastic paraplegia, *GENETIC variation, *GENETIC testing, *MOTOR neurons, *FRAMESHIFT mutation

Abstract

Background: Hereditary spastic paraplegia (HSP) is a rare genetically heterogeneous neurodegenerative disorder. The most common type of HSP is caused by pathogenic variants in the SPAST gene. Various hypotheses regarding the pathogenic mechanisms of HSP-SPAST have been proposed. However, a single hypothesis may not be sufficient to explain HSP-SPAST. Objective: To determine the causative gene of autosomal dominant HSP-SPAST in a pure pedigree and to study its underlying pathogenic mechanism. Methods: A four-generation Chinese family was investigated. Genetic testing was performed for the causative gene, and a splice site variant was identified. In vivo and in vitro experiments were conducted separately. Western blotting and immunofluorescence were performed after transient transfection of cells with the wild-type (WT) or mutated plasmid. The developmental expression pattern of zebrafish spasts was assessed via whole-mount in situ hybridization. The designed guide RNA (gRNA) and an antisense oligo spast-MO were microinjected into Tg(hb9:GFP) zebrafish embryos, spinal cord motor neurons were observed, and a swimming behavioral analysis was conducted. Results: A novel heterozygous intron variant, c.1004 + 5G > A, was identified in a pure HSP-SPAST pedigree and shown to cosegregate with the disease phenotypes. This intron splice site variant skipped exon 6, causing a frameshift mutation that resulted in a premature termination codon. In vitro, the truncated protein was evenly distributed throughout the cytoplasm, formed filamentous accumulations around the nucleus, and colocalized with microtubules. Truncated proteins diffusing in the cytoplasm appeared denser. No abnormal microtubule structures were observed, and the expression levels of α-tubulin remained unchanged. In vivo, zebrafish larvae with this mutation displayed axon pathfinding defects, impaired outgrowth, and axon loss. Furthermore, spast-MO larvae exhibited unusual behavioral preferences and increased acceleration. Conclusion: The adverse effects of premature stop codon mutations in SPAST result in insufficient levels of functional protein, and the potential toxicity arising from the intracellular accumulation of spastin serves as a contributing factor to HSP-SPAST. [ABSTRACT FROM AUTHOR]

Published

2024

9. A novel variant (p.A524P) in Spastin is responsible for a Chinese family with hereditary spastic paraplegia.

Author

Jin, Yu-Han, Xiang, Yang-Ziyu, Zhao, Mei-Fang, Liu, Yi-Hui, Fan, Liang-Liang, and Li, Xiao-Cong

Abstract

Background: Hereditary spastic paraplegia (HSP) represents a group of monogenic neurodegenerative disorders characterized by high clinical and genetic heterogeneity. HSP is characterized by slowly progressing hypertonia of both lower extremities, spastic gait, and myasthenia. The most prevalent autosomal dominant form of HSP, known as spastic paraplegia 4 (SPG4), is attributed to variants in the spastin (SPAST) gene. Methods and results: Here, a Chinese family presenting with spasticity in both legs and a shuffling gait participated in our investigation. Whole exome sequencing of the proband was utilized to identify the genetic lesion in the family. Through data filtering, Sanger sequencing validation, and co-separation analysis, a novel variant (NM_014946.3: c.1669G > C:p.A557P) of SPAST was identified as the genetic lesion of this family. Furthermore, bioinformatic analysis revealed that this variant was deleterious and located in a highly evolutionarily conserved site. Conclusion: Our study confirmed the diagnosis of SPG4 in this family, contributing to genetic counseling for families affected by SPG4. Additionally, our study broadened the spectrum of SPAST variants and highlighted the importance of ATPases associated with various cellular activity domains of SPAST. [ABSTRACT FROM AUTHOR]

Published

2024

10. Spastin accumulation and motor neuron defects caused by a novel SPAST splice site mutation

Author

Min Luo, Yanying Wang, Jinxiu Liang, and Xinhua Wan

Subjects

Hereditary spastic paraplegia, HSP, Spastin, Microtubule severing, Medicine

Abstract

Abstract Background Hereditary spastic paraplegia (HSP) is a rare genetically heterogeneous neurodegenerative disorder. The most common type of HSP is caused by pathogenic variants in the SPAST gene. Various hypotheses regarding the pathogenic mechanisms of HSP-SPAST have been proposed. However, a single hypothesis may not be sufficient to explain HSP-SPAST. Objective To determine the causative gene of autosomal dominant HSP-SPAST in a pure pedigree and to study its underlying pathogenic mechanism. Methods A four-generation Chinese family was investigated. Genetic testing was performed for the causative gene, and a splice site variant was identified. In vivo and in vitro experiments were conducted separately. Western blotting and immunofluorescence were performed after transient transfection of cells with the wild-type (WT) or mutated plasmid. The developmental expression pattern of zebrafish spasts was assessed via whole-mount in situ hybridization. The designed guide RNA (gRNA) and an antisense oligo spast-MO were microinjected into Tg(hb9:GFP) zebrafish embryos, spinal cord motor neurons were observed, and a swimming behavioral analysis was conducted. Results A novel heterozygous intron variant, c.1004 + 5G > A, was identified in a pure HSP-SPAST pedigree and shown to cosegregate with the disease phenotypes. This intron splice site variant skipped exon 6, causing a frameshift mutation that resulted in a premature termination codon. In vitro, the truncated protein was evenly distributed throughout the cytoplasm, formed filamentous accumulations around the nucleus, and colocalized with microtubules. Truncated proteins diffusing in the cytoplasm appeared denser. No abnormal microtubule structures were observed, and the expression levels of α-tubulin remained unchanged. In vivo, zebrafish larvae with this mutation displayed axon pathfinding defects, impaired outgrowth, and axon loss. Furthermore, spast-MO larvae exhibited unusual behavioral preferences and increased acceleration. Conclusion The adverse effects of premature stop codon mutations in SPAST result in insufficient levels of functional protein, and the potential toxicity arising from the intracellular accumulation of spastin serves as a contributing factor to HSP-SPAST.

Published

2024

11. A rare case of hereditary spastic paraplegia: Case report

Author

Aymane Bijbij, MD, Adib Remmal, MD, Habib Bellamlih, PhD, Taoufik Africha, PhD, Soufiane Belabbes, Phd, and Brahim Zainoun, PhD

Subjects

Hereditary spastic paraplegia, Ears of the lynx, Neurological disorders, Radiological findings, Spastic paraplegia, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Hereditary spastic paraplegias represent a rare set of monogenic disorders encompassing 79 distinct genetic variations. The principal culprit behind recessive hereditary spastic paraplegia is frequently attributed to mutations in the spastic paraplegia gene, particularly type 11, closely followed by type 15. This category is typically characterized by nonspecific clinical features, including cognitive decline, which may precede the development of progressive lower limb weakness and spasticity. While the thinning of the spinal cord is recognized as the magnetic resonance imaging hallmark of hereditary spastic paraplegia, insights into specific subtypes can be gleaned from brain magnetic resonance imaging findings.Notably, thinning of the corpus callosum emerges as a prominent abnormality in almost one-third of recessive hereditary spastic paraplegias, providing pertinent diagnostic clues. Additionally, recent observations introduce a distinctive anomaly termed the “ears of the lynx” sign, primarily affecting the forceps minor of the corpus callosum. This sign is highly indicative of type 11 and 15 hereditary spastic paraplegias. We present the case of a patient diagnosed with hereditary spastic paraplegia type 15 through exome genetic testing, with the initial magnetic resonance imaging revealing the characteristic “ears of the lynx” sign.

Published

2025

12. Guía práctica de evaluación de pacientes con ataxias y paraparesias espásticas hereditarias en consulta

Author

F.J. Arpa Gutiérrez, M.J. Abenza Abildúa, I. Rouco Axpe, A.D. Adarmes Gómez, and C. Serrano Munuera

Subjects

Hereditary ataxia, Hereditary spastic paraplegia, Diagnostic recommendations, Disability, Neurology. Diseases of the nervous system, RC346-429

Abstract

Resumen: Las ataxias hereditarias (AH) y paraparesias espásticas hereditarias son enfermedades raras, poco frecuentes en las consultas del neurólogo general. Proponemos una guía práctica y breve de diagnóstico y manejo de estos pacientes, así como un procedimiento para la evaluación integrada del grado de su discapacidad. Se describen por apartados los conceptos y definiciones de AH y AH-plus y paraparesias espásticas hereditarias pura y complicada, la valoración clínica de los pacientes con las principales pruebas complementarias a realizar, las escalas clínicas necesarias para poder graduar la condición física y psíquica de los pacientes, y se resumen los tratamientos disponibles. Esta guía pretende facilitar la asistencia clínica diaria por parte del neurólogo y unificar los criterios médicos y la metodología de evaluación de la discapacidad de los pacientes con AH y paraparesias espásticas hereditarias. Abstract: Hereditary ataxia (HA) and hereditary spastic paraplegia are rare diseases; as such, they are rarely managed in general neurology consultations. We present a set of brief, practical recommendations for the diagnosis and management of these patients, as well as a standardised procedure for comprehensive evaluation of disability. We provide definitions for HA and “HA plus,” and “pure” and “complicated” hereditary spastic paraplegia; describe the clinical assessment of these patients, indicating the main complementary tests and clinical scales for physical and psychological assessment of the patients; and summarise the available treatments. These recommendations are intended to facilitate daily neurological practice and to unify clinical criteria and disability assessment protocols for patients with HA and hereditary spastic paraplegia.

Published

2024

13. Functional evaluation of novel variants of B4GALNT1 in a patient with hereditary spastic paraplegia and the general population.

Author

Kei-ichiro Inamori, Katsuya Nakamura, Fumi Shishido, Jia-Chen Hsu, Masakazu Nagafuku, Takahiro Nitta, Junji Ikeda, Hidekane Yoshimura, Minori Kodaira, Naomi Tsuchida, Naomichi Matsumoto, Satoshi Uemura, Shiho Ohno, Noriyoshi Manabe, Yoshiki Yamaguchi, Akira Togayachi, Aoki-Kinoshita, Kiyoko F., Shoko Nishihara, Jun-ichi Furukawa, and Tadashi Kaname

Subjects

FAMILIAL spastic paraplegia, CHOLERA toxin, MISSENSE mutation, CEREBELLAR ataxia, JAPANESE people, NEUROLOGICAL disorders

Abstract

Hereditary spastic paraplegia (HSP) is a heterogeneous group of neurological disorders that are characterized by progressive spasticity and weakness in the lower limbs. SPG26 is a complicated form of HSP, which includes not only weakness in the lower limbs, but also cognitive impairment, developmental delay, cerebellar ataxia, dysarthria, and peripheral neuropathy, and is caused by biallelic mutations in the B4GALNT1 (beta-1,4-N-acetylgalactosaminyltransferase 1) gene. The B4GALNT1 gene encodes ganglioside GM2/GD2 synthase (GM2S), which catalyzes the transfer of N-acetylgalactosamine to lactosylceramide, GM3, and GD3 to generate GA2, GM2, and GD2, respectively. The present study attempted to characterize a novel B4GALNT1 variant (NM_001478.5:c.937G>A p.Asp313Asn) detected in a patient with progressive multi-system neurodegeneration as well as deleterious variants found in the general population in Japan. Peripheral blood T cells from our patient lacked the ability for activation-induced ganglioside expression assessed by cell surface cholera toxin binding. Structural predictions suggested that the amino acid substitution, p.Asp313Asn, impaired binding to the donor substrate UDP-GalNAc. An in vitro enzyme assay demonstrated that the variant protein did not exhibit GM2S activity, leading to the diagnosis of HSP26. This is the first case diagnosed with SPG26 in Japan. We then extracted 10 novel missense variants of B4GALNT1 from the whole-genome reference panel jMorp (8.3KJPN) of the Tohoku medical megabank organization, which were predicted to be deleterious by Polyphen-2 and SIFT programs. We performed a functional evaluation of these variants and demonstrated that many showed perturbed subcellular localization. Five of these variants exhibited no or significantly decreased GM2S activity with less than 10% activity of the wild-type protein, indicating that they are carrier variants for HSP26. These results provide the basis for molecular analyses of B4GALNT1 variants present in the Japanese population and will help improve the molecular diagnosis of patients suspected of having HSP. [ABSTRACT FROM AUTHOR]

Published

2024

14. RTN2 deficiency results in an autosomal recessive distal motor neuropathy with lower limb spasticity.

Author

Maroofian, Reza, Sarraf, Payam, O'Brien, Thomas J, Kamel, Mona, Cakar, Arman, Elkhateeb, Nour, Lau, Tracy, Patil, Siddaramappa Jagdish, Record, Christopher J, Horga, Alejandro, Essid, Miriam, Selim, Laila, Benrhouma, Hanene, Younes, Thouraya Ben, Zifarelli, Giovanni, Pagnamenta, Alistair T, Bauer, Peter, Khundadze, Mukhran, Mirecki, Andrea, and Kamel, Sara Mahmoud

Subjects

*MOTOR neuron diseases, *NERVE conduction studies, *SPASTICITY, *SPASTIC paralysis, *FAMILIAL spastic paraplegia, *DISEASE duration, *SARCOPLASMIC reticulum

Abstract

Heterozygous RTN2 variants have been previously identified in a limited cohort of families affected by autosomal dominant spastic paraplegia (SPG12-OMIM:604805) with a variable age of onset. Nevertheless, the definitive validity of SPG12 remains to be confidently confirmed due to the scarcity of supporting evidence. In this study, we identified and validated seven novel or ultra-rare homozygous loss-of-function RTN2 variants in 14 individuals from seven consanguineous families with distal hereditary motor neuropathy (dHMN) using exome, genome and Sanger sequencing coupled with deep-phenotyping. All affected individuals (seven males and seven females, aged 9–50 years) exhibited weakness in the distal upper and lower limbs, lower limb spasticity and hyperreflexia, with onset in the first decade of life. Nerve conduction studies revealed axonal motor neuropathy with neurogenic changes in the electromyography. Despite a slowly progressive disease course, all patients remained ambulatory over a mean disease duration of 19.71 ± 13.70 years. Characterization of Caenorhabditis elegans RTN2 homologous loss-of-function variants demonstrated morphological and behavioural differences compared with the parental strain. Treatment of the mutant with an endoplasmic/sarcoplasmic reticulum Ca2+ reuptake inhibitor (2,5-di-tert-butylhydroquinone) rescued key phenotypic differences, suggesting a potential therapeutic benefit for RTN2-disorder. Despite RTN2 being an endoplasmic reticulum (ER)-resident membrane shaping protein, our analysis of patient fibroblast cells did not find significant alterations in ER structure or the response to ER stress. Our findings delineate a distinct form of autosomal recessive dHMN with pyramidal features associated with RTN2 deficiency. This phenotype shares similarities with SIGMAR1-related dHMN and Silver-like syndromes, providing valuable insights into the clinical spectrum and potential therapeutic strategies for RTN2-related dHMN. [ABSTRACT FROM AUTHOR]

Published

2024

15. Upper motor neuron signs in primary lateral sclerosis and hereditary spastic paraplegia.

Author

Santos Silva, Cláudia, Correia Rodrigues, Catarina, Fortuna Baptista, Maria, Oliveira Santos, Miguel, Gromicho, Marta, Carvalho, Vanessa, Correia Guedes, Leonor, and de Carvalho, Mamede

Abstract

Introduction/Aims: The frequency and distribution of upper motor neuron (UMN) signs in primary lateral sclerosis (PLS) are unknown. We aimed to study the spectrum of UMN signs in PLS and compare it with hereditary spastic paraplegia (HSP). Methods: We retrospectively analyzed the frequency of different UMN signs, including hyperreflexia (limbs and jaw), limb and tongue spasticity, Babinski, and Hoffman signs, in PLS patients at first observation and compared this respect to onset region and symptom duration. We also compared PLS versus HSP patients. Results: We included 34 PLS and 20 HSP patients, with a median symptom duration at first visit of 3.0 (interquartile range, IQR = 4.0) and 19.0 (IQR = 22.0) years, respectively. In PLS patients, hyperreflexia of upper (UL) (88.2%) and lower (LL) (91.2%) limbs, and LL spasticity (79.4%) were the most common findings. Spasticity of LL was significantly (p =.012) more frequent in LL‐spinal onset subgroup, tongue spasticity in bulbar‐onset subgroup (p =.021), and Hoffman sign in UL‐spinal onset subgroup (p =.024). The PLS subgroup with shorter disease duration had a higher frequency of abnormal jaw jerk reflex (p =.037). Compared with HSP, PLS patients had a higher frequency of UL hyperreflexia (88.2% vs. 42.1%, p <.001) and UL spasticity (44.1% vs. 0.0%, p <.001). Asymmetric distribution of UMN signs was present in PLS and not in HSP. Discussion: In PLS, UL UMN signs are nearly always present and UMN sign distribution appears to be associated with onset region. At first observation, bulbar involvement, asymmetrical distribution of UMN signs and UL spasticity may indicate PLS versus HSP. [ABSTRACT FROM AUTHOR]

Published

2024

16. Whole exome sequencing in Serbian patients with hereditary spastic paraplegia.

Author

Brankovic, Marija, Ivanovic, Vukan, Basta, Ivana, Khang, Rin, Lee, Eugene, Stevic, Zorica, Ralic, Branislav, Tubic, Radoje, Seo, GoHun, Markovic, Vladana, Bozovic, Ivo, Svetel, Marina, Marjanovic, Ana, Veselinovic, Nikola, Mesaros, Sarlota, Jankovic, Milena, Savic-Pavicevic, Dusanka, Jovin, Zita, Novakovic, Ivana, and Lee, Hane

Subjects

FAMILIAL spastic paraplegia, GENETIC testing, SERBS, MOLECULAR diagnosis, GENETIC disorder diagnosis, GENETIC variation

Abstract

Hereditary spastic paraplegia (HSP) is a group of neurodegenerative diseases with a high genetic and clinical heterogeneity. Numerous HSP patients remain genetically undiagnosed despite screening for known genetic causes of HSP. Therefore, identification of novel variants and genes is needed. Our previous study analyzed 74 adult Serbian HSP patients from 65 families using panel of the 13 most common HSP genes in combination with a copy number variation analysis. Conclusive genetic findings were established in 23 patients from 19 families (29%). In the present study, nine patients from nine families previously negative on the HSP gene panel were selected for the whole exome sequencing (WES). Further, 44 newly diagnosed adult HSP patients from 44 families were sent to WES directly, since many studies showed WES may be used as the first step in HSP diagnosis. WES analysis of cohort 1 revealed a likely genetic cause in five (56%) of nine HSP families, including variants in the ETHE1, ZFYVE26, RNF170, CAPN1, and WASHC5 genes. In cohort 2, possible causative variants were found in seven (16%) of 44 patients (later updated to 27% when other diagnosis were excluded), comprising six different genes: SPAST, SPG11, WASCH5, KIF1A, KIF5A, and ABCD1. These results expand the genetic spectrum of HSP patients in Serbia and the region with implications for molecular genetic diagnosis and future causative therapies. Wide HSP panel can be the first step in diagnosis, alongside with the copy number variation (CNV) analysis, while WES should be performed after. [ABSTRACT FROM AUTHOR]

Published

2024

17. ITPR1 variant-induced autosomal dominant hereditary spastic paraplegia in a Chinese family.

Author

Rui Li, Xuan Liu, Chenming Ke, Fanli Zeng, Qingyi Zeng, Xiaowei Xu, Xiaoqin Fan, Ying Zhang, and Qinghua Hou

Abstract

Hereditary spastic paraplegia (HSP) is a rare neurodegenerative disease prominently characterized by slowly progressive lower limb weakness and spasticity. The significant genotypic and phenotypic heterogeneity of this disease makes its accurate diagnosis challenging. In this study, we identified the NM_001168272: c.2714A  >  G (chr3.hg19: g.4716912A  >  G, N905S) variant in the ITPR1 gene in a three-generation Chinese family with multiple individuals affected by HSP, which we believed to be associated with HSP pathogenesis. To confirm, we performed whole exome sequencing, copy number variant assays, dynamic mutation analysis of the entire family, and protein structure prediction. The variant identified in this study was in the coupling domain, and this is the first corroborated report assigning ITPR1 variants to HSP. These findings expand the clinical and genetic spectrum of HSP and provide important data for its genetic analysis and diagnosis. [ABSTRACT FROM AUTHOR]

Published

2024

18. Atlastin-1 regulates endosomal tubulation and lysosomal proteolysis in human cortical neurons

Author

Eliska Zlamalova, Catherine Rodger, Francesca Greco, Samuel R. Cheers, Julia Kleniuk, Aishwarya G. Nadadhur, Zuzana Kadlecova, and Evan Reid

Subjects

Atlastin, Hereditary spastic paraplegia, Endoplasmic reticulum morphology, Endosomal traffic, Endosomal tubulation, Lysosome, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Mutation of the ATL1 gene is one of the most common causes of hereditary spastic paraplegia (HSP), a group of genetic neurodegenerative conditions characterised by distal axonal degeneration of the corticospinal tract axons. Atlastin-1, the protein encoded by ATL1, is one of three mammalian atlastins, which are homologous dynamin-like GTPases that control endoplasmic reticulum (ER) morphology by fusing tubules to form the three-way junctions that characterise ER networks. However, it is not clear whether atlastin-1 is required for correct ER morphology in human neurons and if so what the functional consequences of lack of atlastin-1 are. Using CRISPR-inhibition we generated human cortical neurons lacking atlastin-1. We demonstrate that ER morphology was altered in these neurons, with a reduced number of three-way junctions. Neurons lacking atlastin-1 had longer endosomal tubules, suggestive of defective tubule fission. This was accompanied by reduced lysosomal proteolytic capacity. As well as demonstrating that atlastin-1 is required for correct ER morphology in human neurons, our results indicate that lack of a classical ER-shaping protein such as atlastin-1 may cause altered endosomal tubulation and lysosomal proteolytic dysfunction. Furthermore, they strengthen the idea that defective lysosome function contributes to the pathogenesis of a broad group of HSPs, including those where the primary localisation of the protein involved is not at the endolysosomal system.

Published

2024

19. Decreasing ganglioside synthesis delays motor and cognitive symptom onset in Spg11 knockout mice

Author

Manon Fortier, Margaux Cauhapé, Suzie Buono, Julien Becker, Alexia Menuet, Julien Branchu, Ivana Ricca, Serena Mero, Karim Dorgham, Khalid-Hamid El Hachimi, Kostantin Dobrenis, Benoit Colsch, Dominic Samaroo, Morgan Devaux, Alexandra Durr, Giovanni Stevanin, Filippo M. Santorelli, Sophie Colombo, Belinda Cowling, and Frédéric Darios

Subjects

Hereditary spastic paraplegia, Motor neuron disease, Neurodegeneration, Therapy, Small molecule, Lysosome, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Biallelic variants in the SPG11 gene account for the most common form of autosomal recessive hereditary spastic paraplegia characterized by motor and cognitive impairment, with currently no therapeutic option. We previously observed in a Spg11 knockout mouse that neurodegeneration is associated with accumulation of gangliosides in lysosomes. To test whether a substrate reduction therapy could be a therapeutic option, we downregulated the key enzyme involved in ganglioside biosynthesis using an AAV-PHP.eB viral vector expressing a miRNA targeting St3gal5. Downregulation of St3gal5 in Spg11 knockout mice prevented the accumulation of gangliosides, delayed the onset of motor and cognitive symptoms, and prevented the upregulation of serum levels of neurofilament light chain, a biomarker widely used in neurodegenerative diseases. Importantly, similar results were observed when Spg11 knockout mice were administrated venglustat, a pharmacological inhibitor of glucosylceramide synthase expected to decrease ganglioside synthesis. Downregulation of St3gal5 or venglustat administration in Spg11 knockout mice strongly decreased the formation of axonal spheroids, previously associated with impaired trafficking. Venglustat had similar effect on cultured human SPG11 neurons. In conclusion, this work identifies the first disease-modifying therapeutic strategy in SPG11, and provides data supporting its relevance for therapeutic testing in SPG11 patients.

Published

2024

20. Alteration in ornithine metabolism due to mutation in <italic>ALDH18A1</italic> masquerading as ALS in pregnancy.

Author

Quigley, Suzanne, McNamara, Brian, and Cronin, Simon

Subjects

*JOINT hypermobility, *MUSCULAR atrophy, *ORNITHINE, *SPASTICITY, *PREGNANCY

Abstract

AbstractClinical onset and exacerbation of autosomal dominant SPG9A hereditary spastic paraplegia, including reversible wasting, has been described during pregnancy. SPG9A is due to ALDH18A1 mutations resulting in proline and ornithine deficiency. We present the case of a 29 year old primagravida at 32 weeks who presented with six months of upper limb amyotrophic wasting on a background unrecognized progressive spasticity due to SPG9A. The wasting reversed significantly following delivery. Our report highlights the unusual clinical features including cataract and joint laxity which may suggest SPG9A, echoes the existing descriptions of pregnancy-related provocation of amyotrophy in this condition and documents the outcome of two subsequent pregnancies following dietary intervention. [ABSTRACT FROM AUTHOR]

Published

2024

21. DDHD2 promotes lipid droplet catabolism by acting as a TAG lipase and a cargo receptor for lipophagy.

Author

Gao, Kun, Jia, Fei, Li, Yao, and Wang, Chenji

Subjects

FAMILIAL spastic paraplegia, NEURODEGENERATION, CATABOLISM, THERAPEUTICS, PARAPLEGIA, LIPASES

Abstract

Mutations in the DDHD2 (DDHD domain containing 2) gene cause autosomal recessive spastic paraplegia type 54 (SPG54), a rare neurodegenerative disorder characterized by the early childhood onset of progressive spastic paraplegia. DDHD2 is reported as the principal brain triacylglycerol (TAG) lipase whose dysfunction causes massive lipid droplet (LD) accumulation in the brains of SPG54 patients. However, the precise functions of DDHD2 in regulating LD catabolism are not yet fully understood. In a recent study, we demonstrate that DDHD2 interacts with multiple members of the Atg8-family proteins (MAP1LC3/LC3s, GABARAPs), which play crucial roles in lipophagy. DDHD2 possesses two LC3-interacting region (LIR) motifs that contribute to its LD-eliminating activity. Moreover, DDHD2 enhances the colocalization between LC3B and LDs to promote lipophagy. LD·ATTEC, a compound that tethers LC3 to LDs to enhance their macroautophagic/autophagic clearance, effectively counteracts DDHD2 deficiency-induced LD accumulation. These findings provide insights into the dual functions of DDHD2 as a TAG lipase and cargo receptor for lipophagy in neuronal LD catabolism, and also suggest a potential therapeutic approach for treating SPG54 patients. [ABSTRACT FROM AUTHOR]

Published

2024

22. Acute Ophthalmoplegia with Wernicke‐Like MRI Pattern in a Patient with HPDL‐Related Disorder.

Author

Sartorelli, Jacopo, Longo, Daniela, Travaglini, Lorena, Orlando, Valeria, D'Amico, Adele, Bertini, Enrico, and Nicita, Francesco

Subjects

*BLOOD lactate, *POSTVACCINAL encephalitis, *SYMPTOMS, *GENETIC disorders, *GRAY matter (Nerve tissue), *FAMILIAL spastic paraplegia

Abstract

This article discusses a case study of a 16.5-year-old girl with a progressive disorder caused by biallelic variants in the HPDL gene. The girl initially presented with mild lower limb hypertonia and poor social interaction, but later developed an ataxic-spastic syndrome and regression of developmental milestones. She also experienced an episode of acute ophthalmoplegia with a Wernicke-like MRI pattern. Treatment with oral steroids and antioxidant vitamins resulted in the resolution of her symptoms. The article highlights the need for broad genetic testing, such as exome sequencing, in the diagnosis of HPDL-related disorders. [Extracted from the article]

Published

2024

23. Biallelic BORCS8 variants cause an infantile-onset neurodegenerative disorder with altered lysosome dynamics.

Author

Pace, Raffaella De, Maroofian, Reza, Paimboeuf, Adeline, Zamani, Mina, Zaki, Maha S, Sadeghian, Saeid, Azizimalamiri, Reza, Galehdari, Hamid, Zeighami, Jawaher, Williamson, Chad D, Fleming, Emily, Zhou, Dihong, Gannon, Jennifer L, Thiffault, Isabelle, Roze, Emmanuel, Suri, Mohnish, Zifarelli, Giovanni, Bauer, Peter, Houlden, Henry, and Severino, Mariasavina

Subjects

*NEURODEGENERATION, *SPASTICITY, *GENETIC variation, *CENTRAL nervous system, *SIZE of brain, *FAMILIAL spastic paraplegia

Abstract

BLOC-one-related complex (BORC) is a multiprotein complex composed of eight subunits named BORCS1–8. BORC associates with the cytosolic face of lysosomes, where it sequentially recruits the small GTPase ARL8 and kinesin-1 and -3 microtubule motors to promote anterograde transport of lysosomes toward the peripheral cytoplasm in non-neuronal cells and the distal axon in neurons. The physiological and pathological importance of BORC in humans, however, remains to be determined. Here, we report the identification of compound heterozygous variants [missense c.85T>C (p.Ser29Pro) and frameshift c.71-75dupTGGCC (p.Asn26Trpfs*51)] and homozygous variants [missense c.196A>C (p.Thr66Pro) and c.124T>C (p.Ser42Pro)] in BORCS8 in five children with a severe early-infantile neurodegenerative disorder from three unrelated families. The children exhibit global developmental delay, severe-to-profound intellectual disability, hypotonia, limb spasticity, muscle wasting, dysmorphic facies, optic atrophy, leuko-axonopathy with hypomyelination, and neurodegenerative features with prevalent supratentorial involvement. Cellular studies using a heterologous transfection system show that the BORCS8 missense variants p.Ser29Pro, p.Ser42Pro and p.Thr66Pro are expressed at normal levels but exhibit reduced assembly with other BORC subunits and reduced ability to drive lysosome distribution toward the cell periphery. The BORCS8 frameshift variant p.Asn26Trpfs*51, on the other hand, is expressed at lower levels and is completely incapable of assembling with other BORC subunits and promoting lysosome distribution toward the cell periphery. Therefore, all the BORCS8 variants are partial or total loss-of-function alleles and are thus likely pathogenic. Knockout of the orthologous borcs8 in zebrafish causes decreased brain and eye size, neuromuscular anomalies and impaired locomotion, recapitulating some of the key traits of the human disease. These findings thus identify BORCS8 as a novel genetic locus for an early-infantile neurodegenerative disorder and highlight the critical importance of BORC and lysosome dynamics for the development and function of the central nervous system. [ABSTRACT FROM AUTHOR]

Published

2024

24. SPAST Intragenic CNVs Lead to Hereditary Spastic Paraplegia via a Haploinsufficiency Mechanism.

Author

Elert-Dobkowska, Ewelina, Stepniak, Iwona, Radziwonik-Fraczyk, Wiktoria, Jahic, Amir, Beetz, Christian, and Sulek, Anna

Subjects

*FAMILIAL spastic paraplegia, *SINGLE nucleotide polymorphisms, *HOMOLOGOUS recombination, *GENE expression, *DIAGNOSTIC use of polymerase chain reaction, *CARIOGENIC agents, *HOLLIDAY junctions

Abstract

The most common form of hereditary spastic paraplegia (HSP), SPG4 is caused by single nucleotide variants and microrearrangements in the SPAST gene. The high percentage of multi-exonic deletions or duplications observed in SPG4 patients is predisposed by the presence of a high frequency of Alu sequences in the gene sequence. In the present study, we analyzed DNA and RNA samples collected from patients with different microrearrangements in SPAST to map gene breakpoints and evaluate the mutation mechanism. The study group consisted of 69 individuals, including 50 SPG4 patients and 19 healthy relatives from 18 families. Affected family members from 17 families carried varying ranges of microrearrangements in the SPAST gene, while one individual had a single nucleotide variant in the 5′UTR of SPAST. To detect the breakpoints of the SPAST gene, long-range PCR followed by sequencing was performed. The breakpoint sequence was detected for five different intragenic SPAST deletions and one duplication, revealing Alu-mediated microhomology at breakpoint junctions resulting from non-allelic homologous recombination in these patients. Furthermore, SPAST gene expression analysis was performed using patient RNA samples extracted from whole blood. Quantitative real-time PCR tests performed in 14 patients suggest no expression of transcripts with microrearrangements in 5 of them. The obtained data indicate that nonsense-mediated decay degradation is not the only mechanism of hereditary spastic paraplegia in patients with SPAST microrearrangements. [ABSTRACT FROM AUTHOR]

Published

2024

25. A novel ATP13A2 variant causing complicated hereditary spastic paraplegia.

Author

Zhang, Fan, Liu, Peng, Li, Jiaxiang, Cen, Zhidong, and Luo, Wei

Subjects

*FAMILIAL spastic paraplegia, *PARKINSON'S disease, *WHOLE genome sequencing, *CAUDATE nucleus, *GAIT disorders, *MISSENSE mutation, *GAIN-of-function mutations, *RECESSIVE genes

Abstract

Background: ATP13A2 is a monogenic causative gene of Parkinson's disease, whose biallelic mutations can result in Kufor-Rakeb syndrome. Biallelic mutations in ATP13A2 have also been reported in pure or complicated hereditary spastic paraplegia (HSP). Here, we report clinical, neuroimaging, and genetic findings from a patient with a novel homozygous mutation in ATP13A2 presenting with HSP plus parkinsonism. Methods: Whole genome sequencing was performed on the patient, a 46-year-old Chinese woman from a consanguineous family, to identify the genetic cause. Furthermore, functional studies of the identified ATP13A2 mutation were conducted. Results: The patient initially presented with abnormal gait because of lower-limb spasticity and recurrent seizures. Parkinsonism (presenting as bradykinesia and rigidity) and peripheral neuropathy in lower limbs further evolved and resulted in her eventual use of a wheelchair. Symmetrically decreased dopamine transporter density was detected within the bilateral putamen and caudate nucleus in dopamine transporter-positron emission tomography. Genetic analysis revealed a novel homozygous missense mutation in ATP13A2 (c.2780 T > C, p.Leu927Pro), which was heterozygous in the patient's parents and son. Functional studies suggested that this mutation results in the reduced expression and altered subcellular localization of ATP13A2. Conclusions: Our report broadens the genetic and phenotypic spectrum of ATP13A2-related HSP. Further research is needed to fully elucidate the mechanism linking ATP13A2 variants to HSP. [ABSTRACT FROM AUTHOR]

Published

2024

26. Biallelic variants in the COQ4 gene caused hereditary spastic paraplegia predominant phenotype.

Author

Wei, Qiao, Yu, Hao, Wang, Pei‐Shan, Xie, Juan‐Juan, Dong, Hai‐Lin, Wu, Zhi‐Ying, and Li, Hong‐Fu

Subjects

*FAMILIAL spastic paraplegia, *PHENOTYPES, *GENETIC variation, *MOTOR neurons, *UBIQUINONES

Abstract

Introduction: Hereditary spastic paraplegias (HSPs) comprise a group of neurodegenerative disorders characterized by progressive degeneration of upper motor neurons. Homozygous or compound heterozygous variants in COQ4 have been reported to cause primary CoQ10 deficiency‐7 (COQ10D7), which is a mitochondrial disease. Aims: We aimed to screened COQ4 variants in a cohort of HSP patients. Methods: A total of 87 genetically unidentified HSP index patients and their available family members were recruited. Whole exome sequencing (WES) was performed in all probands. Functional studies were performed to identify the pathogenicity of those uncertain significance variants. Results: In this study, five different COQ4 variants were identified in three Chinese HSP pedigrees and two variants were novel, c.87dupT (p.Arg30*), c.304C>T (p.Arg102Cys). More importantly, we firstly described two early‐onset pure HSP caused by COQ4 variants. Functional studies in patient‐derived fibroblast lines revealed a reduction cellular CoQ10 levels and the abnormal mitochondrial structure. Conclusions: Our findings revealed that bilateral variants in the COQ4 gene caused HSP predominant phenotype, expanding the phenotypic spectrum of the COQ4‐related disorders. [ABSTRACT FROM AUTHOR]

Published

2024

27. Treatment of ZC4H2 Variant-Associated Spastic Paraplegia with Selective Dorsal Rhizotomy and Intensive Postoperative Rehabilitation: A Case Report.

Author

Toshiki Inotani, Akira Horaguchi, Yuko Morishita, Ayuko Yoshida, Misaki Otomo, Makoto Suzuki, Takehiko Inui, Yukimune Okubo, Shigemasa Komatsu, Chika Mizuno, Yuko Takahashi, Tatsuhiro Ochiai, Takeshi Kinjo, Takashi Asato, Jun Takayama, Gen Tamiya, Naoya Saijo, Atsuo Kikuchi, and Kazuhiro Haginoya

Abstract

Selective dorsal rhizotomy (SDR) has been used to treat children with spastic cerebral palsy (CP), and its beneficial effect on quality of life and ambulation has been confirmed in long-term follow-up studies. However, the role of SDR in the treatment of spasticity in patients with hereditary spastic paraplegia (HSP) and related disorders is not well-established. Here, we report the first patient with the ZC4H2 variant who underwent SDR to treat spastic paraplegia. Abnormal gait was discovered during a regular checkup at the age of 3 years and 9 months, and she was diagnosed with spastic paraplegia. She was heterozygous for the ZC4H2 variant and underwent SDR at the age of 5 years and 11 months, which alleviated the spasticity. The patient underwent inpatient postoperative rehabilitation for 4 months and continued outpatient physiotherapy after discharge. The Gross Motor Function Measure-88 score and maximum walking speed decreased transiently 1 month postoperatively, but gradually recovered, and continuously improved 6 months postoperatively. SDR and postoperative intensive rehabilitation were effective in improving motor and walking functions up to 6 months after surgery, although long-term follow-up is needed to draw conclusions. [ABSTRACT FROM AUTHOR]

Published

2024

28. A novel homozygous HPDL variant in Japanese siblings with autosomal recessive hereditary spastic paraplegia: case report and literature review.

Author

Kojima, Fumikazu, Okamoto, Yuji, Ando, Masahiro, Higuchi, Yujiro, Hobara, Takahiro, Yuan, Junhui, Yoshimura, Akiko, Hashiguchi, Akihiro, Matsuura, Eiji, and Takashima, Hiroshi

Subjects

FAMILIAL spastic paraplegia, LITERATURE reviews, MAGNETIC resonance imaging, SIBLINGS, GENETIC testing, INTELLECTUAL disabilities

Abstract

Biallelic variants of 4-hydroxyphenylpyruvate dioxygenase-like (HPDL) gene have been linked to neurodegenerative disorders ranging from severe neonatal encephalopathy to early-onset spastic paraplegia. We identified a novel homozygous variant, c.340G > T (p.Gly114Cys), in the HPDL gene in two siblings with autosomal recessive hereditary spastic paraplegia (HSP). Despite sharing the same likely pathogenic variant, the older sister had pure HSP, whereas her brother had severe and complicated HSP, accompanied by early-onset mental retardation and abnormalities in magnetic resonance imaging. Given the clinical heterogeneity and potential for treatable conditions in HPDL-related diseases, we emphasize the importance of genetic testing for the HPDL gene. [ABSTRACT FROM AUTHOR]

Published

2024

29. A Retrospective, Cross-Sectional Analysis of Motor Development, Cognition, and Mood in 87 Patients With Childhood-Onset Hereditary Spastic Paraplegias.

Author

Marvel, Brooke M., Smith, Linsley, Rios, Jonathan J., and Christie, Michelle R.

Subjects

*FAMILIAL spastic paraplegia, *MOTOR ability, *DEVELOPMENTAL psychology, *CROSS-sectional method, *ATTENTION-deficit hyperactivity disorder, *SURGICAL equipment, *SADNESS

Abstract

HSP is a heterogeneous group of rare genetic diseases. In childhood, little is known of the development and psychological manifestations. Retrospective analysis of 87 patients with childhood-onset HSP. Patient consent was obtained and data regarding gross motor, fine motor, and language development; equipment usage; surgical procedures; cognition; and mood were collected at each clinic visit and by phone call and analyzed using mean, median, range, and interquartile ranges (IQRs). The cohort contained 18 genetic types of HSP. Participant data ranged from birth to 36 years. Follow-up was variable spanning from a single clinic visit to 24 years of longitudinal visits. The mean age in months of sitting = 7.37, median = 6, range = 5 to 48, IQR = 0; crawling mean = 9.6, median = 9, range 7 to 23, IQR = 0; pulling to stand mean = 10.7, median 9, range: 9 to 36, IQR = 0; and the age for walking was mean = 16.25, median = 15, range = 11 to 63 IQR = 6. Eighteen patients did not achieve independent ambulation. Twenty-five were noted to have initial gait abnormalities. Median age for first word spoken was 12 months. Fifty-five of 87 participants were enrolled in mainstream or honors classes. Twenty-two of 87 had attention deficit disorder. Patients reported experiencing sadness around their diagnoses, and 26 of 87 reported being diagnosed with anxiety or depression. In childhood-onset HSP, motor disorder is the predominant feature; however, screening for attention deficit, anxiety, and depression is indicated. [ABSTRACT FROM AUTHOR]

Published

2024

30. Non-pharmacological treatment of hereditary spastic paraplegia: a systematic review.

Author

Maccora, Simona, Torrente, Angelo, Di Stefano, Vincenzo, Lupica, Antonino, Iacono, Salvatore, Pilati, Laura, Pignolo, Antonia, and Brighina, Filippo

Subjects

*FAMILIAL spastic paraplegia, *SPASTICITY, *TRANSCUTANEOUS electrical nerve stimulation, *TRANSCRANIAL direct current stimulation, *BOTULINUM A toxins, *MAGNETOTHERAPY, *ELECTRIC stimulation

Abstract

This article is a systematic review of non-pharmacological treatments for hereditary spastic paraplegia (HSP), a neurological disorder characterized by lower extremity spasticity. The review explores various treatment options such as physiotherapy, surgery, electric stimulation therapy, magnetic field therapy, acupuncture, laser therapy, and stretching. The authors conducted a literature search and included studies that met specific criteria, resulting in a final selection of 13 articles. The findings suggest that physical therapy and electrical stimulation may have potential benefits for HSP patients, but more research is needed to fully understand the effectiveness of these treatments. The article also discusses the challenges in managing HSP and calls for a multidisciplinary approach to improve motor symptoms and quality of life for patients. [Extracted from the article]

Published

2024

31. Pluripotent Stem Cells as a Preclinical Cellular Model for Studying Hereditary Spastic Paraplegias.

Author

Damiani, Devid, Baggiani, Matteo, Della Vecchia, Stefania, Naef, Valentina, and Santorelli, Filippo Maria

Subjects

*FAMILIAL spastic paraplegia, *INDUCED pluripotent stem cells, *ANIMAL models in research, *MEDICAL practice, *THERAPEUTICS, *PLURIPOTENT stem cells

Abstract

Hereditary spastic paraplegias (HSPs) comprise a family of degenerative diseases mostly hitting descending axons of corticospinal neurons. Depending on the gene and mutation involved, the disease could present as a pure form with limb spasticity, or a complex form associated with cerebellar and/or cortical signs such as ataxia, dysarthria, epilepsy, and intellectual disability. The progressive nature of HSPs invariably leads patients to require walking canes or wheelchairs over time. Despite several attempts to ameliorate the life quality of patients that have been tested, current therapeutical approaches are just symptomatic, as no cure is available. Progress in research in the last two decades has identified a vast number of genes involved in HSP etiology, using cellular and animal models generated on purpose. Although unanimously considered invaluable tools for basic research, those systems are rarely predictive for the establishment of a therapeutic approach. The advent of induced pluripotent stem (iPS) cells allowed instead the direct study of morphological and molecular properties of the patient's affected neurons generated upon in vitro differentiation. In this review, we revisited all the present literature recently published regarding the use of iPS cells to differentiate HSP patient-specific neurons. Most studies have defined patient-derived neurons as a reliable model to faithfully mimic HSP in vitro, discovering original findings through immunological and –omics approaches, and providing a platform to screen novel or repurposed drugs. Thereby, one of the biggest hopes of current HSP research regards the use of patient-derived iPS cells to expand basic knowledge on the disease, while simultaneously establishing new therapeutic treatments for both generalized and personalized approaches in daily medical practice. [ABSTRACT FROM AUTHOR]

Published

2024

32. AP2A2 mutation and defective endocytosis in a Malian family with hereditary spastic paraplegia

Author

Salimata Diarra, Saikat Ghosh, Lassana Cissé, Thomas Coulibaly, Abdoulaye Yalcouyé, George Harmison, Salimata Diallo, Seybou H. Diallo, Oumar Coulibaly, Alice Schindler, Cheick A.K. Cissé, Alassane B. Maiga, Salia Bamba, Oumar Samassekou, Mustafa K. Khokha, Emily K. Mis, Saquib A. Lakhani, Frank X. Donovan, Steve Jacobson, Craig Blackstone, Cheick O. Guinto, Guida Landouré, Juan S. Bonifacino, Kenneth H. Fischbeck, and Christopher Grunseich

Subjects

Hereditary spastic paraplegia, AP2A2, Endocytosis, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Hereditary spastic paraplegia (HSP) comprises a large group of neurogenetic disorders characterized by progressive lower extremity spasticity. Neurological evaluation and genetic testing were completed in a Malian family with early-onset HSP. Three children with unaffected consanguineous parents presented with symptoms consistent with childhood-onset complicated HSP. Neurological evaluation found lower limb weakness, spasticity, dysarthria, seizures, and intellectual disability. Brain MRI showed corpus callosum thinning with cortical and spinal cord atrophy, and an EEG detected slow background in the index patient. Whole exome sequencing identified a homozygous missense variant in the adaptor protein (AP) complex 2 alpha-2 subunit (AP2A2) gene. Western blot analysis showed reduced levels of AP2A2 in patient-iPSC derived neuronal cells. Endocytosis of transferrin receptor (TfR) was decreased in patient-derived neurons. In addition, we observed increased axon initial segment length in patient-derived neurons. Xenopus tropicalis tadpoles with ap2a2 knockout showed cerebral edema and progressive seizures. Immunoprecipitation of the mutant human AP-2-appendage alpha-C construct showed defective binding to accessory proteins. We report AP2A2 as a novel genetic entity associated with HSP and provide functional data in patient-derived neuron cells and a frog model. These findings expand our understanding of the mechanism of HSP and improve the genetic diagnosis of this condition.

Published

2024

33. Novel de novo SPAST mutation in a Han Chinese SPG4 patient: a case report

Author

Yu-Han Xu, Bao-Yu Yuan, Jia-Le Ji, Di Wu, Hong Zhou, and Yi-Jing Guo

Subjects

SPG4, hereditary spastic paraplegia, de novo variant, late-onset, case report, Genetics, QH426-470

Abstract

Spastic paraplegia type 4 (SPG4), the predominant form of Autosomal Dominant Hereditary spastic paraplegia (AD-HSP), is characterized by variants in the SPAST gene. This study reports a unique case of a late-onset SPG4 in a Han Chinese male, manifesting primarily as gait disturbances from lower extremity spasticity. Uncovered through whole-genome sequencing, a previously undocumented frameshift variant, c.1545dupA in exon 14 of the SPAST gene, was identified. Notably, this variant was absent in asymptomatic parents with confirmed paternity and maternity status, suggesting a de novo variant occurrence. This discovery emphasizes the potential of de novo variants to exhibit a late-onset pure pattern, extending the SPG4 variant spectrum, and consideration of such variants should be given in HSP patients with a negative family history.

Published

2024

34. Development and validation of TreatHSP-QoL: a patient-reported outcome measure for health-related quality of life in hereditary spastic paraplegia

Author

Jekaterina Malina, Eva-Maria Huessler, Karl-Heinz Jöckel, Eva Boog-Whiteside, Nicole Jeschonneck, Bernadette Schröder, Rebecca Schüle, Tobias Kühl, and Stephan Klebe

Subjects

Health-related quality of life, Hereditary spastic paraplegia, Patient-centered outcome measure, Medicine

Abstract

Abstract Background Hereditary spastic paraplegia (HSP) is a rare neurodegenerative disease that lacks specific and validated patient-centered outcome measures (PCOMs). We aimed to develop and validate a health-related quality of life (HRQoL) questionnaire specific to HSP (“TreatHSP-QoL”) that could be used as a PCOM. Results The pilot-items of the TreatHSP-QoL (45 five-level Likert scale items, with values per item between 0 and 4) were developed based on a qualitative data analysis of 54 semi-structured interviews, conducted in person with 36 HSP patients and 18 caregivers. It was then reduced and modified through the validation process to 25 items. The main validation was performed using the online questionnaire in 242 HSP patients and 56 caregivers. The exploratory factor analysis defined five subdomains. Cronbach’s alpha ranged from 0.57 to 0.85 for the subdomains and reached 0.85 for the total score. The test–retest Pearson correlation reached 0.86 (95% Confidence Interval (CI) [0.79, 0.91]). Pearson correlations with the EuroQol-5 Dimension (5 levels) (EQ-5D-5L) and Friedreich Ataxia Rating Scale-Activities of Daily Living (FARS-ADL) questionnaires varied strongly among the subdomains, with the total scores reaching 0.53 (95% CI [0.42, 0.61]) and -0.45 (95% CI [− 0.55, − 0.35]), respectively. The caregiver-patient response Pearson correlation ranged between 0.64 and 0.82 for subdomains and reached 0.65 (95% CI [0.38, 0.81]) for the total score. Conclusions TreatHSP-QoL can be used in high-quality clinical trials and clinical practice as a disease-specific PCOM (i.e., HRQoL measure) and is also applicable as a proxy questionnaire. Score values between 0 and 100 can be reached, where higher value represents better HRQoL. The Pearson correlations to the EQ-5D-5L and FARS-ADL support the additional value and need of HSP-specific PCOM, while non-specific QoL-assessment and specific clinical self-assessment tools already exist. All in all, the results demonstrate good validity and reliability for this new patient-centered questionnaire for HSP.

Published

2024

35. Primary Lateral Sclerosis: An Overview.

Author

Vacchiano, Veria, Bonan, Luigi, Liguori, Rocco, and Rizzo, Giovanni

Subjects

*AMYOTROPHIC lateral sclerosis, *MOTOR neuron diseases, *FAMILIAL spastic paraplegia, *SPASTICITY, *MOTOR neurons, *NEURODEGENERATION

Abstract

Primary lateral sclerosis (PLS) is a rare neurodegenerative disorder which causes the selective deterioration of the upper motor neurons (UMNs), sparing the lower motor neuron (LMN) system. The clinical course is defined by a progressive motor disability due to muscle spasticity which typically involves lower extremities and bulbar muscles. Although classically considered a sporadic disease, some familiar cases and possible causative genes have been reported. Despite it having been recognized as a rare but distinct entity, whether it actually represents an extreme end of the motor neuron diseases continuum is still an open issue. The main knowledge gap is the lack of specific biomarkers to improve the clinical diagnostic accuracy. Indeed, the diagnostic imprecision, together with some uncertainty about overlap with UMN-predominant ALS and Hereditary Spastic Paraplegia (HSP), has become an obstacle to the development of specific therapeutic trials. In this study, we provided a comprehensive analysis of the existing literature, including neuropathological, clinical, neuroimaging, and neurophysiological features of the disease, and highlighting the controversies still unsolved in the differential diagnoses and the current diagnostic criteria. We also discussed the current knowledge gaps still present in both diagnostic and therapeutic fields when approaching this rare condition. [ABSTRACT FROM AUTHOR]

Published

2024

36. Development and validation of TreatHSP-QoL: a patient-reported outcome measure for health-related quality of life in hereditary spastic paraplegia.

Author

Malina, Jekaterina, Huessler, Eva-Maria, Jöckel, Karl-Heinz, Boog-Whiteside, Eva, Jeschonneck, Nicole, Schröder, Bernadette, Schüle, Rebecca, Kühl, Tobias, and Klebe, Stephan

Subjects

*FAMILIAL spastic paraplegia, *QUALITY of life, *CRONBACH'S alpha, *PEARSON correlation (Statistics), *CLINICAL trials, *LIKERT scale, *EXPLORATORY factor analysis

Abstract

Background: Hereditary spastic paraplegia (HSP) is a rare neurodegenerative disease that lacks specific and validated patient-centered outcome measures (PCOMs). We aimed to develop and validate a health-related quality of life (HRQoL) questionnaire specific to HSP ("TreatHSP-QoL") that could be used as a PCOM. Results: The pilot-items of the TreatHSP-QoL (45 five-level Likert scale items, with values per item between 0 and 4) were developed based on a qualitative data analysis of 54 semi-structured interviews, conducted in person with 36 HSP patients and 18 caregivers. It was then reduced and modified through the validation process to 25 items. The main validation was performed using the online questionnaire in 242 HSP patients and 56 caregivers. The exploratory factor analysis defined five subdomains. Cronbach's alpha ranged from 0.57 to 0.85 for the subdomains and reached 0.85 for the total score. The test–retest Pearson correlation reached 0.86 (95% Confidence Interval (CI) [0.79, 0.91]). Pearson correlations with the EuroQol-5 Dimension (5 levels) (EQ-5D-5L) and Friedreich Ataxia Rating Scale-Activities of Daily Living (FARS-ADL) questionnaires varied strongly among the subdomains, with the total scores reaching 0.53 (95% CI [0.42, 0.61]) and -0.45 (95% CI [− 0.55, − 0.35]), respectively. The caregiver-patient response Pearson correlation ranged between 0.64 and 0.82 for subdomains and reached 0.65 (95% CI [0.38, 0.81]) for the total score. Conclusions: TreatHSP-QoL can be used in high-quality clinical trials and clinical practice as a disease-specific PCOM (i.e., HRQoL measure) and is also applicable as a proxy questionnaire. Score values between 0 and 100 can be reached, where higher value represents better HRQoL. The Pearson correlations to the EQ-5D-5L and FARS-ADL support the additional value and need of HSP-specific PCOM, while non-specific QoL-assessment and specific clinical self-assessment tools already exist. All in all, the results demonstrate good validity and reliability for this new patient-centered questionnaire for HSP. [ABSTRACT FROM AUTHOR]

Published

2024

37. Biallelic COQ4 Variants in Hereditary Spastic Paraplegia: Clinical and Molecular Characterization.

Author

Lin, Xiang, Jiang, Jun‐Yi, Hong, Dao‐jun, Lin, Kai‐Jun, Li, Jin‐Jing, Chen, Yi‐Jun, Qiu, Yu‐sen, Wang, Zishuai, Liao, Yi‐Chu, Yang, Kang, Shi, Yan, Wang, Meng‐wen, Hsu, Shao‐Lun, Hong, Shunyan, Zeng, Yi‐Heng, Chen, Xiao‐Chun, Wang, Ning, Lee, Yi‐Chung, and Chen, Wan‐Jin

Abstract

Background: Hereditary spastic paraplegias (HSP) are neurologic disorders characterized by progressive lower‐extremity spasticity. Despite the identification of several HSP‐related genes, many patients lack a genetic diagnosis. Objectives: The aims were to confirm the pathogenic role of biallelic COQ4 mutations in HSP and elucidate the clinical, genetic, and functional molecular features of COQ4‐associated HSP. Methods: Whole exome sequences of 310 index patients with HSP of unknown cause from three distinct populations were analyzed to identify potential HSP causal genes. Clinical data obtained from patients harboring candidate causal mutations were examined. Functional characterization of COQ4 variants was performed using bioinformatic tools, single‐cell RNA sequencing, biochemical assays in cell lines, primary fibroblasts, induced pluripotent stem cell–derived pyramidal neurons, and zebrafish. Results: Compound heterozygous variants in COQ4, which cosegregated with HSP in pedigrees, were identified in 7 patients from six unrelated families. Patients from four of the six families presented with pure HSP, whereas probands of the other two families exhibited complicated HSP with epilepsy or with cerebellar ataxia. In patient‐derived fibroblasts and COQ4 knockout complementation lines, stable expression of these missense variants exerted loss‐of‐function effects, including mitochondrial reactive oxygen species accumulation, decreased mitochondrial membrane potential, and lower ubiquinone biosynthesis. Whereas differentiated pyramidal neurons expressed high COQ4 levels, coq4 knockdown zebrafish displayed severe motor dysfunction, reflecting motor neuron dysregulation. Conclusions: Our study confirms that loss‐of‐function, compound heterozygous, pathogenic COQ4 variants are causal for autosomal recessive pure and complicated HSP. Moreover, reduced COQ4 levels attributable to variants correspond with decreased ubiquinone biosynthesis, impaired mitochondrial function, and higher phenotypic disease severity. © 2023 International Parkinson and Movement Disorder Society. [ABSTRACT FROM AUTHOR]

Published

2024

38. Novel Homozygous FA2H Variant Causing the Full Spectrum of Fatty Acid Hydroxylase-Associated Neurodegeneration (SPG35).

Author

German, Alexander, Jukic, Jelena, Laner, Andreas, Arnold, Philipp, Socher, Eileen, Mennecke, Angelika, Schmidt, Manuel A., Winkler, Jürgen, Abicht, Angela, and Regensburger, Martin

Subjects

*FATTY acids, *MISSENSE mutation, *NEURODEGENERATION, *FAMILIAL spastic paraplegia, *GAIT disorders, *MOLECULAR motor proteins

Abstract

Fatty acid hydroxylase-associated neurodegeneration (FAHN/SPG35) is caused by pathogenic variants in FA2H and has been linked to a continuum of specific motor and non-motor neurological symptoms, leading to progressive disability. As an ultra-rare disease, its mutational spectrum has not been fully elucidated. Here, we present the prototypical workup of a novel FA2H variant, including clinical and in silico validation. An 18-year-old male patient presented with a history of childhood-onset progressive cognitive impairment, as well as progressive gait disturbance and lower extremity muscle cramps from the age of 15. Additional symptoms included exotropia, dystonia, and limb ataxia. Trio exome sequencing revealed a novel homozygous c.75C>G (p.Cys25Trp) missense variant in the FA2H gene, which was located in the cytochrome b5 heme-binding domain. Evolutionary conservation, prediction models, and structural protein modeling indicated a pathogenic loss of function. Brain imaging showed characteristic features, thus fulfilling the complete multisystem neurodegenerative phenotype of FAHN/SPG35. In summary, we here present a novel FA2H variant and provide prototypical clinical findings and structural analyses underpinning its pathogenicity. [ABSTRACT FROM AUTHOR]

Published

2024

39. Atl (atlastin) regulates mTor signaling and autophagy in Drosophila muscle through alteration of the lysosomal network.

Author

Srivastav, Saurabh, van der Graaf, Kevin, Singh, Pratibha, Utama, Alloysius Budi, Meyer, Matthew D., McNew, James A., and Stern, Michael

Subjects

FAMILIAL spastic paraplegia, GREEN fluorescent protein, AUTOPHAGY, DROSOPHILA, FLUORESCENT proteins, UBIQUITINATION

Abstract

The hereditary spastic paraplegias (HSPs) represent a family of genetic disorders comprising at least 72 different genes with the common pathology of progressive locomotor deficits and spasticity. ATL1/SPG3A (atlastin GTPase 1) encodes an ER fusion protein that controls ER morphology, which implicates ER structure as a causal factor in HSP. Here we use Drosophila to study effects of decreased atl (atlastin) on properties of the larval body wall muscle. We found that muscle atl loss causes accumulation of aggregates containing polyubiquitin (polyUB), mostly bound to the autophagy receptor ref(2)P/SQSTM1/p62. Muscle atl loss also decreased volume and complexity of the endolysosomal network and decreased lysosome number. To determine effects of these lysosomal deficits on progression through the basal autophagy pathway, we expressed Atg8a tagged with both GFP and mCherry in a wild-type and atl mutant background. We found numerous structures containing mCherry but not GFP fluorescence in wild type, indicating that Atg8a was found mostly in mature autolysosomes. In contrast, muscles lacking atl exhibited significant amounts of GFP signal, indicating failure of autophagosome maturation with acidic lysosomes. Many of these GFP-positive puncta contained the late-endosome marker Rab7 but not Lamp1, indicating that some autophagy cargo was accumulating within amphisomes. We also found that this autophagy block was accompanied by an inability to activate the mTor kinase. Our results provide mechanistic insights into the role of atl in maintaining proper function of the autophagy pathway and suggests that certain pathologies in patients with mutations in ATL1/SPG3A might result from altered MTOR signaling. atl atlastin; ALR autophagic lysosome reformation; ER endoplasmic reticulum; GFP green fluorescent protein; HSP hereditary spastic paraplegia; Lamp1 lysosomal associated membrane protein 1 PolyUB polyubiquitin; RFP red fluorescent protein; spin spinster; mTor mechanistic Target of rapamycin; VCP valosin containing protein [ABSTRACT FROM AUTHOR]

Published

2024

40. Postural control deficits due to bilateral pyramidal tract lesions exempli?ed by hereditary spastic paraplegia (HSP) originate from increased feedback time delay and reduced long-term error corrections.

Author

Dalin, Daniela, Wiesmeier, Isabella Katharina, Heimbach, Bernhard, Weiller, Cornelius, and Maurer, Christoph

Subjects

FAMILIAL spastic paraplegia, PYRAMIDAL tract, CENTER of mass

Abstract

Pyramidal tract lesions determine the clinical syndrome of Hereditary Spastic Paraplegia (HSP). The clinical impairments of HSP are typically exemplified by their deficits in mobility, leading to falls and injuries. The first aim of this study was to identify the cause for postural abnormalities caused by pyramidal tract lesions in HSP. The second aim was to specify the effect of treadmill training for postural abnormalities. We examined nine HSP patients before and after treadmill training, as well as nine healthy control subjects during perturbed and unperturbed stance. We found that HSP was associated with larger sway amplitudes and velocities. Body excursions following platform tilts were larger, and upper body excursions showed a phase lead. Model-based analysis detected a greater time delay and a reduced long-term error correction of postural reactions in the center of mass. HSP patients performed significantly better in clinical assessments after treadmill training. In addition, treadmill training reduced sway amplitudes and body excursions, most likely by increasing positional and velocity error correction gain as a compensatorymechanism, while the time delay and long-term error correction gain remained largely unaffected. Moreover, the upper body's phase lead was reduced.We conclude that HSP leads to very specific postural impairments. While postural control generally benefits from treadmill training, the effect seems to mainly rely on compensatory mechanisms, whereas the original deficits are not affected significantly. [ABSTRACT FROM AUTHOR]

Published

2023

41. The therapeutic effects of physical treatment for patients with hereditary spastic paraplegia: a narrative review.

Author

Di Ludovico, Armando, Ciarelli, Francesca, La Bella, Saverio, Scorrano, Giovanna, Chiarelli, Francesco, and Farello, Giovanni

Subjects

FAMILIAL spastic paraplegia, LITERATURE reviews, PHYSICAL therapy, MAGNETOTHERAPY, MUSCLE strength

Abstract

Background: Hereditary spastic paraplegia (HSP) encompass a variety of neurodegenerative disorders that are characterized by progressive deterioration of walking ability and a high risk for long-term disability. The management of problems associated with HSP, such as stiffness, deformity, muscle contractures, and cramping, requires strict adherence to recommended physiotherapy activity regimes. The aim of this paper is to conduct a critical narrative review of the available evidence focusing exclusively to the therapeutic advantages associated with various forms of physical therapy (PT) in the context of HSP, emphasizing the specific benefit of every distinct approach in relation to muscle relaxation, muscle strength, spasticity reduction, improvement of weakness, enhancement of balance, posture, walking ability, and overall quality of life. Methods: To conduct a literature review, the databases PubMed, Scopus, and DOAJ (last access in June 2023) were searched. Results: The PubMed search returned a total of 230 articles, Scopus returned 218, and DOAJ returned no results. After screening, the final list included 7 papers on PT treatment for HSP patients. Conclusion: Electrostimulation, magnetotherapy, hydrotherapy, PT, robot-assisted gait training, and balance rehabilitation have the potential to increase lower extremity strength and decrease spasticity in HSP patients. [ABSTRACT FROM AUTHOR]

Published

2023

42. White matter abnormalities in 15 subjects with SPG76.

Author

Alkhalifa, Abdulrahman, Chen, Shihan, Hasiloglu, Zehra Isik, Filosto, Massimiliano, Cali, Elisa, Houlden, Henry, Sgobbi de Souza, Paulo, Alavi, Afagh, Goizet, Cyril, Stevanin, Giovanni, Taithe, Frederic, Nicita, Francesco, Vasco, Gessica, Tozza, Stefano, Cocozza, Sirio, Carboni, Nicola, Figus, Andrea, Wu, Jianjun, Basak, A. Nazli, and Brais, Bernard

Subjects

*WHITE matter (Nerve tissue), *FAMILIAL spastic paraplegia, *SCHOENLEIN-Henoch purpura, *PYRAMIDAL tract, *HUMAN abnormalities, *DELAYED diagnosis

Abstract

Background and objectives: Hereditary spastic paraplegias (HSPs) are heterogenous genetic disorders characterized by progressive pyramidal tract involvement. SPG76 is a recently identified form of HSP, caused by biallelic calpain-1 (CAPN1) variants. The most frequently described MRI abnormality in SPG76 is mild cerebellar atrophy and non-specific white matter abnormalities were reported in only one case. Following the identification of prominent white matter abnormalities in a subject with CAPN1 variants, which delayed the diagnosis, we aimed to verify the presence of MRI patterns of white matter involvement specific to this HSP. Methods: We performed a retrospective radiological qualitative analysis of 15 subjects with SPG76 (4 previously unreported) initially screened for white matter involvement. Moreover, we performed quantitative analyses in our proband with available longitudinal studies. Results: We observed bilateral, periventricular white matter involvement in 12 subjects (80%), associated with multifocal subcortical abnormalities in 5 of them (33.3%). Three subjects (20%) presented only multifocal subcortical involvement. Longitudinal quantitative analyses of our proband revealed increase in multifocal white matter lesion count and increased area of periventricular white matter involvement over time. Discussion: SPG76 should be added to the list of HSPs with associated white matter abnormalities. We identified periventricular white matter involvement in subjects with SPG76, variably associated with multifocal subcortical white matter abnormalities. These findings, in the presence of progressive spastic paraparesis, can mislead the diagnostic process towards an acquired white matter disorder. [ABSTRACT FROM AUTHOR]

Published

2023

43. Testing roles of Hereditary Spastic Paraplegia (HSP) proteins in organization of axonal endoplasmic reticulum (ER) and ER-mitochondria contacts

Author

Ozturk, Zeynep and O'Kane, Cahir

Subjects

Endoplasmic Reticulum, hereditary spastic paraplegia, ER-mitochondria contacts, C19orf12, Drosophila

Abstract

The Hereditary Spastic Paraplegias (HSPs) are a group of genetically heterogeneous, neurodegenerative and neurodevelopmental diseases characterised by spasticity and lower limb weaknesses. Some known causative genes imply the importance of endoplasmic reticulum (ER) function and morphogenesis in HSPs. These genes encode ER-shaping proteins: spastin (SPG4), atlastin (SPG3A), Receptor Expression Enhancing Protein 1 (REEP1/SPG31) and reticulon (SPG12). These proteins share a common feature of one or two intramembrane hairpin domains that can recognise or drive curvature of the ER membrane. In Drosophila, removing widely expressed members of the reticulon and REEP families leads to fewer ER tubules in axons of wider diameter, although there is no widespread absence of tubules. Therefore, other proteins must be involved in shaping the tubular ER network in Drosophila axons, and a major goal of mine was therefore to identify and assess additional candidate proteins with roles in this process. One potential source of ER-shaping proteins is other HSP genes. C19orf12 (SPG43) is an HSP gene; C19orf12 reportedly localise to ER and has a predicted intramembrane domain. It is therefore a candidate for helping to shape the axonal ER network. To investigate possible roles of C19orf12 in ER structure and function, I generated transgenic flies carrying a fusion of GFP to CG3740, which showed strong localisation to axons. I also generated loss-of function mutants of the most widely expressed Drosophila ortholog of C19orf12, CG3740, using P element excision and CRISPR/Cas9. These mutants are homozygous viable, as are quadruple mutants lacking CG3740 and all the widely expressed reticulon and REEP proteins, suggesting that these 4 proteins together are not sufficient for tubular ER formation. I did not see any overt effect in ER level due to CG3740 mutation. It also did not enhance the ER fragmentation phenotype was seen in Rtnl1, ReepA, and ReepB triple mutant. Another potential source of ER-shaping proteins is proteomic studies highlighting the proteins enriched in ER tubules. I therefore, performed proteomic analysis from previously conducted proteomic studies. These analyses identified most of the known proteins with roles in ER shaping, implying that it may also be a way to identify additional proteins with similar roles. Around 15 proteins were finalised as potential candidates for an ER-shaping role and two of them appeared as strong candidates. 8 Many HSP proteins localised in ER, but some localised in mitochondria. How might proteins in two different organelles give a similar disease phenotype? I, therefore, wanted to have a way to monitor ER-mitochondria contacts in HSP mutants. I adapted a published sensor that is based on a split-GFP strategy for ER-mitochondria contacts in transgenic Drosophila. Split GFP peptides were fused with ER and mitochondria localised proteins. When two organelles are nearby, GFP is reconstituted and becomes fluorescent. In Drosophila larval axons, the reporter showed a punctate distribution similar to that of mitochondria, consistent with localisation to contact sites. The reporter also showed alteration in different diet conditions showing that it responds to different physiological conditions.

Published

2022

44. Spastin and alsin protein interactome analyses begin to reveal key canonical pathways and suggest novel druggable targets

Author

Benjamin R. Helmold, Angela Ahrens, Zachary Fitzgerald, and P. Hande Ozdinler

Subjects

als2, alsin, amyotrophic lateral sclerosis, hereditary spastic paraplegia, neurodegenerative diseases, personalized medicine, precision medicine, protein interactome, protein-protein interactions, spast, spastin, Neurology. Diseases of the nervous system, RC346-429

Abstract

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.

Published

2025

45. ClinPrior: an algorithm for diagnosis and novel gene discovery by network-based prioritization

Author

Agatha Schlüter, Valentina Vélez-Santamaría, Edgard Verdura, Agustí Rodríguez-Palmero, Montserrat Ruiz, Stéphane Fourcade, Laura Planas-Serra, Nathalie Launay, Cristina Guilera, Juan José Martínez, Christian Homedes-Pedret, M. Antonia Albertí-Aguiló, Miren Zulaika, Itxaso Martí, Mónica Troncoso, Miguel Tomás-Vila, Gemma Bullich, M. Asunción García-Pérez, María-Jesús Sobrido-Gómez, Eduardo López-Laso, Carme Fons, Mireia Del Toro, Alfons Macaya, HSP/ataxia workgroup, Sergi Beltran, Luis G. Gutiérrez-Solana, Luis A. Pérez-Jurado, Sergio Aguilera-Albesa, Adolfo López de Munain, Carlos Casasnovas, and Aurora Pujol

Subjects

Algorithm, WES/WGS, HPOs, Variant prioritization, Interactome, Hereditary spastic paraplegia, Medicine, Genetics, QH426-470

Abstract

Abstract Background Whole-exome sequencing (WES) and whole-genome sequencing (WGS) have become indispensable tools to solve rare Mendelian genetic conditions. Nevertheless, there is still an urgent need for sensitive, fast algorithms to maximise WES/WGS diagnostic yield in rare disease patients. Most tools devoted to this aim take advantage of patient phenotype information for prioritization of genomic data, although are often limited by incomplete gene-phenotype knowledge stored in biomedical databases and a lack of proper benchmarking on real-world patient cohorts. Methods We developed ClinPrior, a novel method for the analysis of WES/WGS data that ranks candidate causal variants based on the patient’s standardized phenotypic features (in Human Phenotype Ontology (HPO) terms). The algorithm propagates the data through an interactome network-based prioritization approach. This algorithm was thoroughly benchmarked using a synthetic patient cohort and was subsequently tested on a heterogeneous prospective, real-world series of 135 families affected by hereditary spastic paraplegia (HSP) and/or cerebellar ataxia (CA). Results ClinPrior successfully identified causative variants achieving a final positive diagnostic yield of 70% in our real-world cohort. This includes 10 novel candidate genes not previously associated with disease, 7 of which were functionally validated within this project. We used the knowledge generated by ClinPrior to create a specific interactome for HSP/CA disorders thus enabling future diagnoses as well as the discovery of novel disease genes. Conclusions ClinPrior is an algorithm that uses standardized phenotype information and interactome data to improve clinical genomic diagnosis. It helps in identifying atypical cases and efficiently predicts novel disease-causing genes. This leads to increasing diagnostic yield, shortening of the diagnostic Odysseys and advancing our understanding of human illnesses.

Published

2023

46. Spastic Paraplegia Type 7 (SPG7)

Author

Fernández-Eulate, Gorka, Pujol, Aurora, de Munain, Adolfo López, Gruol, Donna L., editor, Koibuchi, Noriyuki, editor, Manto, Mario, editor, Molinari, Marco, editor, Schmahmann, Jeremy D., editor, and Shen, Ying, editor

Published

2023

47. Mapa epidemiológico transversal de las ataxias y paraparesias espásticas hereditarias en España

Author

G. Ortega Suero, M.J. Abenza Abildúa, C. Serrano Munuera, I. Rouco Axpe, F.J. Arpa Gutiérrez, A.D. Adarmes Gómez, F.J. Rodríguez de Rivera, B. Quintans Castro, I. Posada Rodríguez, A. Vadillo Bermejo, Á. Domingo Santos, E. Blanco Vicente, I. Infante Ceberio, J. Pardo Fernández, E. Costa Arpín, C. Painous Martí, J.E. Muñoz, P. Mir Rivera, F. Montón Álvarez, L. Bataller Alberola, J. Gascón Bayarri, C. Casasnovas Pons, V. Vélez Santamaría, A. López de Munain, G. Fernández-Eulate, J. Gazulla Abío, I. Sanz Gallego, L. Rojas Bartolomé, Ó. Ayo Martín, T. Segura Martín, C. González Mingot, M. Baraldés Rovira, R. Sivera Mascaró, E. Cubo Delgado, A. Echavarría Íñiguez, F. Vázquez Sánchez, M. Bártulos Iglesias, M.T. Casadevall Codina, E.M. Martínez Fernández, C. Labandeira Guerra, B. Alemany Perna, A. Carvajal Hernández, C. Fernández Moreno, M. Palacín Larroy, N. Caballol Pons, A. Ávila Rivera, F.J. Navacerrada Barrero, R. Lobato Rodríguez, and M.J. Sobrido Gómez

Subjects

Genetic map, Ataxia, Hereditary spastic paraplegia, Epidemiology, Genetics, Neurology. Diseases of the nervous system, RC346-429

Abstract

Resume: Introducción: Las ataxias (AT) y paraparesias espásticas hereditarias (PEH) son síndromes neurodegenerativos raros. Nos proponemos conocer la prevalencia de las AT y PEH en España en 2019. Pacientes y métodos: Estudio transversal, multicéntrico, descriptivo y retrospectivo de los pacientes con AT y PEH, desde marzo de 2018 a diciembre de 2019 en toda España. Resultados: Se obtuvo información de 1933 pacientes procedentes de 11 Comunidades Autónomas, de 47 neurólogos o genetistas. Edad media: 53,64 años ± 20,51 desviación estándar (DE); 938 varones (48,5%), 995 mujeres (51,5%). En 920 pacientes (47,6%) no se conoce el defecto genético. Por patologías, 1.371 pacientes (70,9%) diagnosticados de AT, 562 diagnosticados de PEH (29,1%). La prevalencia estimada de AT es 5,48/100.000 habitantes, y la de PEH es 2,24 casos/100.000 habitantes. La AT dominante más frecuente es la SCA3. La AT recesiva más frecuente es la ataxia de Friedreich (FRDA). La PEH dominante más frecuente es la SPG4, y la PEH recesiva más frecuente es la SPG7. Conclusiones: La prevalencia estimada de AT y PEH en nuestra serie es de 7,73 casos/100.000 habitantes. Estas frecuencias son similares a las del resto del mundo. En el 47,6% no se ha conseguido un diagnóstico genético. A pesar de las limitaciones, este estudio puede contribuir a estimar los recursos, visibilizar estas enfermedades, detectar las mutaciones más frecuentes para hacer los screenings por comunidades, y favorecer los ensayos clínicos. Abstract: Introduction: Ataxia and hereditary spastic paraplegia are rare neurodegenerative syndromes. We aimed to determine the prevalence of these disorders in Spain in 2019. Patients and methods: We conducted a cross-sectional, multicentre, retrospective, descriptive study of patients with ataxia and hereditary spastic paraplegia in Spain between March 2018 and December 2019. Results: We gathered data from a total of 1933 patients from 11 autonomous communities, provided by 47 neurologists or geneticists. Mean (SD) age in our sample was 53.64 (20.51) years; 938 patients were men (48.5%) and 995 were women (51.5%). The genetic defect was unidentified in 920 patients (47.6%). A total of 1371 patients (70.9%) had ataxia and 562 (29.1%) had hereditary spastic paraplegia. Prevalence rates for ataxia and hereditary spastic paraplegia were estimated at 5.48 and 2.24 cases per 100 000 population, respectively. The most frequent type of dominant ataxia in our sample was SCA3, and the most frequent recessive ataxia was Friedreich ataxia. The most frequent type of dominant hereditary spastic paraplegia in our sample was SPG4, and the most frequent recessive type was SPG7. Conclusions: In our sample, the estimated prevalence of ataxia and hereditary spastic paraplegia was 7.73 cases per 100 000 population. This rate is similar to those reported for other countries. Genetic diagnosis was not available in 47.6% of cases. Despite these limitations, our study provides useful data for estimating the necessary healthcare resources for these patients, raising awareness of these diseases, determining the most frequent causal mutations for local screening programmes, and promoting the development of clinical trials.

Published

2023

48. Development and validation a novel FEZF2 based fluorescent reporter for corticospinal motor neurons

Author

Wu, Ronghua, Ramakrishnan, Skandha, Lin, Haixu, Dong, Zhangji, Liu, Mei, and Qiang, Liang

Published

2025

49. Editorial: Genetic research into neurodegenerative disorders

Author

Xiaoting Zheng, Jianhai Chen, and Chunyu Li

Subjects

genetics, Parkinson's disease, Alzheimer's disease, hereditary spastic paraplegia, rare variant, Neurology. Diseases of the nervous system, RC346-429

Published

2024

50. Postural control deficits due to bilateral pyramidal tract lesions exemplified by hereditary spastic paraplegia (HSP) originate from increased feedback time delay and reduced long-term error corrections

Author

Daniela Dalin, Isabella Katharina Wiesmeier, Bernhard Heimbach, Cornelius Weiller, and Christoph Maurer

Subjects

postural control, pyramidal tract, sensorimotor system, hereditary spastic paraplegia, model, exercise, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Pyramidal tract lesions determine the clinical syndrome of Hereditary Spastic Paraplegia (HSP). The clinical impairments of HSP are typically exemplified by their deficits in mobility, leading to falls and injuries. The first aim of this study was to identify the cause for postural abnormalities caused by pyramidal tract lesions in HSP. The second aim was to specify the effect of treadmill training for postural abnormalities. We examined nine HSP patients before and after treadmill training, as well as nine healthy control subjects during perturbed and unperturbed stance. We found that HSP was associated with larger sway amplitudes and velocities. Body excursions following platform tilts were larger, and upper body excursions showed a phase lead. Model-based analysis detected a greater time delay and a reduced long-term error correction of postural reactions in the center of mass. HSP patients performed significantly better in clinical assessments after treadmill training. In addition, treadmill training reduced sway amplitudes and body excursions, most likely by increasing positional and velocity error correction gain as a compensatory mechanism, while the time delay and long-term error correction gain remained largely unaffected. Moreover, the upper body’s phase lead was reduced. We conclude that HSP leads to very specific postural impairments. While postural control generally benefits from treadmill training, the effect seems to mainly rely on compensatory mechanisms, whereas the original deficits are not affected significantly.

Published

2023