Your search keyword '"FAMILIAL spastic paraplegia"' showing total 2,302 results

1. Case report: exome sequencing identified mutations in the LRP5 and LGR4 genes in a case of osteoporosis with recurrent fractures and extraskeletal manifestations.

Author

Mehta, Poonam, Sharma, Aakriti, Goswami, Anupam, Gupta, Sushil Kumar, Singhal, Vaibhav, Srivastava, Kinshuk Raj, Chattopadhyay, Naibedya, and Singh, Rajender

Subjects

IRON supplements, INDIAN women (Asians), MIDDLE-aged women, PREMATURE menopause, GENETIC mutation, FAMILIAL spastic paraplegia

Abstract

Background: Genetic mutations have been reported in a number of bone disorders with or without extra-skeletal manifestations. The purpose of the present study was to investigate the genetic cause in a middle-aged woman with osteoporosis, recurrent fractures and extraskeletal manifestations. Methods: A 56-year-old Indian woman presented to the clinic with complaints of difficulty in walking, recurrent fractures, limb bending, progressive skeletal deformities, and poor overall health. At the age of 37, she had experienced severe anemia with diarrhea, significant weight loss, knuckle pigmentation, and a significant loss of scalp hair. She had received multiple blood transfusions and parenteral iron supplementation with normalization of hemoglobin. Subsequently, she had premature menopause at the age of 37. She died at the age of 61 due to liver failure. Exome sequencing followed by Sanger sequencing were undertaken to identify the potential pathogenic mutations. Results: Genetic investigation identified likely pathogenic mutations in the LRP5 and LGR4 genes. Out of the two mutations, the heterozygous mutation (c.1199C>T) in the LRP5 gene resulted in a non-synonymous substitution of alanine with valine at the 400th position, and the second mutation (c.1403A>C) in the LGR4 gene led to a non-synonymous substitution of tyrosine with serine at the 468th residue of the protein. The minor allele frequencies of the c.1199C>T (LRP5) substitution in the 1000 genomes and IndiGenomes databases are 0.0003 and 0.001, while the c.1403A>C (LGR4) substitution has not been reported in these databases. Various in silico prediction tools suggested LGR4 mutation to be pathogenic and LRP5 mutation to be likely pathogenic. Conclusion: Heterozygous mutations in the LRP5 and LGR4 genes had additive deteriorative effects on BMD, resulting in recurrent fractures and bone deformities, and extended the effect to extraskeletal sites, contributing to the poor overall health in this patient. [ABSTRACT FROM AUTHOR]

Published

2024

2. A Hundred Faces for a Unique Disorder: Hereditary Spastic Paraplegia.

Author

Pavone, Piero, Falsaperla, Raffaele, and Polizzi, Agata

Subjects

*FAMILIAL spastic paraplegia, *NEUROSCIENCES, *SPASTICITY, *ALZHEIMER'S disease, *AFFERENT pathways, *PEDIATRIC neurology

Abstract

The article titled "A Hundred Faces for a Unique Disorder: Hereditary Spastic Paraplegia" provides an overview of Hereditary Spastic Paraplegia (HSP), a group of inherited neurodegenerative disorders characterized by lesions of the pyramidal tract. The disorder presents with progressive lower limb spasticity and weakness, and exhibits wide clinical and genetic variability. The article discusses the genetic causes of HSP, including various inheritance patterns and the involvement of over 80 genes. It also describes the clinical presentation of HSP, highlighting the differences based on age of onset and the presence of additional neurological or non-neurological features. This document provides information on hereditary spastic paraplegia (HSP), a rare and diverse clinical disorder characterized by progressive weakness and spasticity in the lower limbs. The diagnosis of HSP is based on symptoms, family history, and genetic analysis. Treatment aims to manage symptoms and prevent complications, but there is currently no cure for HSP. The prognosis varies, with some individuals experiencing severe disability and others having a normal life expectancy. Early diagnosis and treatment can help reduce symptoms associated with HSP. [Extracted from the article]

Published

2024

3. 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

4. Yop1 stability and membrane curvature generation propensity are controlled by its oligomerisation interface.

Author

Chandran, Anu V., Álvarez, Daniel, Vanni, Stefano, and Schnell, Jason R.

Subjects

*FAMILIAL spastic paraplegia, *MOTOR neuron diseases, *MISSENSE mutation, *MEMBRANE proteins, *ENDOPLASMIC reticulum

Abstract

The DP1 family of integral membrane proteins stabilize high membrane curvature in the endoplasmic reticulum and phagophores. Mutations in the human DP1 gene REEP1 are associated with Hereditary Spastic Paraplegia type 31 and distal hereditary motor neuropathy. Four missense mutations map to a putative dimerization interface but the impact of these mutations on DP1 structure and tubule formation are unknown. Combining biophysical measurements, functional assays, and computational modeling in the context of the model protein Yop1, we found that missense mutations have variable effects on DP1 dimer structure and in vitro tubulation activity, and provide mechanistic insights into the role of DP1 oligomerisation on membrane curvature stabilization. Whereas the mutations P71L and S75F decreased dimer homogeneity and led to polydisperse oligomerization and impaired membrane curving activity, A72E introduced new polar interactions between subunits that stabilized the Yop1 dimer and allowed robust tubule formation but prevented formation of more highly-curved lipoprotein particles (LPP). The introduction of a BRIL domain to the cytoplasmic loop of A72E rescued LPP formation, consistent with a requirement for dimer splaying in highly curved membranes. These results suggest that the membrane curving activity of DP1 proteins requires both dimer stability and conformational plasticity at the intermolecular interface. [ABSTRACT FROM AUTHOR]

Published

2024

5. Altered tubulin detyrosination due to SVBP malfunction induces cytokinesis failure and senescence, underlying a complex hereditary spastic paraplegia.

Author

Launay, Nathalie, Espinosa‐Alcantud, Maria, Verdura, Edgard, Fernández‐Eulate, Gorka, Ondaro, Jon, Iruzubieta, Pablo, Marsal, Maria, Schlüter, Agatha, Ruiz, Montserrat, Fourcade, Stephane, Rodríguez‐Palmero, Agustí, Zulaica, Miren, Sistiaga, Andone, Labayru, Garazi, Loza‐Alvarez, Pablo, Vaquero, Alejandro, Lopez de Munain, Adolfo, and Pujol, Aurora

Subjects

*FAMILIAL spastic paraplegia, *MOTOR neuron diseases, *MONONUCLEAR leukocytes, *SPEECH apraxia, *CELLULAR aging

Abstract

Senescence, marked by permanent cell cycle arrest may contribute to the decline in regenerative potential and neuronal function, thereby promoting neurodegenerative disorders. In this study, we employed whole exome sequencing to identify a previously unreported biallelic missense variant in SVBP (p.Leu49Pro) in six patients from three unrelated families. These affected individuals present with a complex hereditary spastic paraplegia (HSP), peripheral neuropathy, verbal apraxia, and intellectual disability, exhibiting a milder phenotype compared to patients with nonsense SVBP mutations described previously. Consistent with SVBP's primary role as a chaperone necessary for VASH‐mediated tubulin detyrosination, both patient fibroblasts with the p.Leu49Pro mutation, and HeLa cells harboring an SVBP knockdown exhibit microtubule dynamic instability and alterations in pericentriolar material (PCM) component trafficking and centrosome cohesion. In patient fibroblasts, structural abnormalities in the centrosome trigger mitotic errors and cellular senescence. Notably, premature senescence characterized by elevated levels of p16INK4, was also observed in patient peripheral blood mononuclear cells (PBMCs). Taken together, our findings underscore the critical role of SVBP in the development and maintenance of the central nervous system, providing novel insights associating cytokinesis failure with cortical motor neuron disease and intellectual disability. [ABSTRACT FROM AUTHOR]

Published

2024

6. 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

7. 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

8. The membrane curvature-inducing REEP1-4 proteins generate an ER-derived vesicular compartment.

Author

Shibata, Yoko, Mazur, Emily E., Pan, Buyan, Paulo, Joao A., Gygi, Steven P., Chavan, Suyog, Valerio, L. Sebastian Alexis, Zhang, Jiuchun, and Rapoport, Tom A.

Subjects

FAMILIAL spastic paraplegia, MEMBRANE proteins, ENDOPLASMIC reticulum, CURVATURE, HEREDITY

Abstract

The endoplasmic reticulum (ER) is shaped by abundant membrane curvature-generating proteins that include the REEP family member REEP5. The REEP1 subfamily, consisting of four proteins in mammals (REEP1-4), is less abundant and lack a N-terminal region. Mutations in REEP1 and REEP2 cause Hereditary Spastic Paraplegia, but the function of these four REEP proteins remains enigmatic. Here we show that REEP1-4 reside in a unique vesicular compartment and identify features that determine their localization. Mutations in REEP1-4 that compromise curvature generation, including those causing disease, relocalize the proteins to the bulk ER. These mutants interact with wild-type proteins to retain them in the ER, consistent with their autosomal-dominant disease inheritance. REEP1 vesicles contain the membrane fusogen atlastin-1, but not general ER proteins. We propose that REEP1-4 generate these vesicles themselves by budding from the ER, and that they cycle back to the ER by atlastin-mediated fusion. The vesicles may serve to regulate ER tubule dynamics. REEP domain-containing proteins generate membrane curvature, and some are known to shape the endoplasmic reticulum (ER). Here, the authors show that four understudied members, REEPs 1-4, localize to vesicles that appear to bud out of, and fuse back with, ER. [ABSTRACT FROM AUTHOR]

Published

2024

9. 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

10. Early Diagnosis of AP5Z1 /SPG48 Spastic Paraplegia: Case Report and Review of the Literature.

Author

Papoff, Francesca M. A., Astrea, Guja, Mero, Serena, Chicca, Laura, Satolli, Sara, Pasquariello, Rosa, Battini, Roberta, Tessa, Alessandra, and Santorelli, Filippo M.

Subjects

*FAMILIAL spastic paraplegia, *MAGNETIC resonance imaging, *LITERATURE reviews, *LYSOSOMAL storage diseases, *CORPUS callosum, *GENETIC disorder diagnosis

Abstract

Hereditary spastic paraplegias (HSPs) are a genetically heterogeneous group of neurodegenerative disorders clinically characterized by progressive lower limb spasticity with pyramidal weakness. Around a dozen potential molecular mechanisms are recognized. Childhood HSP is a significant diagnostic challenge in clinical practice. Mutations in AP5Z1 , which are associated with spastic paraplegia type 48 (SPG48), are extremely rare and seldom described in children. We report the clinical, radiologic, and molecular studies performed in a child harboring novel biallelic mutations in AP5Z1. The child presented a neurodevelopmental disorder with slight lower limb pyramidal signs. Brain magnetic resonance imaging (MRI) showed minimal white matter changes in the frontal horns of the lateral ventricles and a normally shaped corpus callosum. Western blotting in cultured skin fibroblasts indicated reduced protein expression, which confirmed the genetic diagnosis and framed this as a case of protein reduction in a context of impaired autophagy. Our findings expand the spectrum of phenotypes associated with mutations in AP5Z1 , highlighting their clinical and pathophysiologic overlap with lysosomal storage disorders. SPG48 should be considered in the differential diagnosis of neurodevelopmental disorders even when pyramidal signs are minimal and brain MRI not fully informative. [ABSTRACT FROM AUTHOR]

Published

2024

11. 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

12. Investigating the genetic basis of hereditary spastic paraplegia and cerebellar Ataxia in Pakistani families.

Author

Azeem, Arfa, Ahmed, Asif Naveed, Khan, Niamat, Voutsina, Nikol, Ullah, Irfan, Ubeyratna, Nishanka, Yasin, Muhammad, Baple, Emma L., Crosby, Andrew H., Rawlins, Lettie E., and Saleha, Shamim

Subjects

*RESOURCE-limited settings, *PAKISTANIS, *CEREBELLAR ataxia, *GENETIC counseling, *NEURODEGENERATION, *FAMILIAL spastic paraplegia

Abstract

Background: Hereditary Spastic Paraplegias (HSPs) and Hereditary Cerebellar Ataxias (HCAs) are progressive neurodegenerative disorders encompassing a spectrum of neurogenetic conditions with significant overlaps of clinical features. Spastic ataxias are a group of conditions that have features of both cerebellar ataxia and spasticity, and these conditions are frequently clinically challenging to distinguish. Accurate genetic diagnosis is crucial but challenging, particularly in resource-limited settings. This study aims to investigate the genetic basis of HSPs and HCAs in Pakistani families. Methods: Families from Khyber Pakhtunkhwa with at least two members showing HSP or HCA phenotypes, and who had not previously been analyzed genetically, were included. Families were referred for genetic analysis by local neurologists based on the proband's clinical features and signs of a potential genetic neurodegenerative disorder. Whole Exome Sequencing (WES) and Sanger sequencing were then used to identify and validate genetic variants, and to analyze variant segregation within families to determine inheritance patterns. The mean age of onset and standard deviation were calculated to assess variability among affected individuals, and the success rate was compared with literature reports using differences in proportions and Cohen's h. Results: Pathogenic variants associated with these conditions were identified in five of eight families, segregating according to autosomal recessive inheritance. These variants included previously reported SACS c.2182 C > T, p.(Arg728*), FA2H c.159_176del, p.(Arg53_Ile58del) and SPG11 c.2146 C > T, p.(Gln716*) variants, and two previously unreported variants in SACS c.2229del, p.(Phe743Leufs*8) and ZFYVE26 c.1926_1941del, p.(Tyr643Metfs*2). Additionally, FA2H and SPG11 variants were found to have recurrent occurrences, suggesting a potential founder effect within the Pakistani population. Onset age among affected individuals ranged from 1 to 14 years (M = 6.23, SD = 3.96). The diagnostic success rate was 62.5%, with moderate effect sizes compared to previous studies. Conclusions: The findings of this study expand the genotypic and phenotypic spectrum of HSPs and HCAs in Pakistan and emphasize the importance of utilizing exome/genome sequencing for accurate diagnosis or support accurate differential diagnosis. This approach can improve genetic counseling and clinical management, addressing the challenges of diagnosing neurodegenerative disorders in resource-limited settings. [ABSTRACT FROM AUTHOR]

Published

2024

13. Hereditary spastic paraplegia and extensive leukoencephalopathy: a case report of a unique phenotype associated with a GJB1/Cx32 p.Pro174Ser variant.

Author

Nakamura, Haruko, Doi, Hiroshi, Miyaji, Yosuke, Wada, Taishi, Takahashi, Erisa, Tada, Mikiko, Fukuda, Hiromi, Fujita, Atsushi, Higashiyama, Yuichi, Nagao, Yuri, Kimura, Kazue, Hayashi, Masaharu, Hoshino, Kyoko, Matsumoto, Naomichi, and Tanaka, Fumiaki

Subjects

*CHARCOT-Marie-Tooth disease, *CENTRAL nervous system, *MAGNETIC resonance imaging, *SOMATOSENSORY evoked potentials, *WHITE matter (Nerve tissue), *FAMILIAL spastic paraplegia

Abstract

Background: Pathogenic variants in Gap junction protein beta 1 (GJB1), which encodes Connexin 32, are known to cause X-linked Charcot-Marie-Tooth disease (CMTX), the second most common form of CMT. CMTX presents with the following five central nervous systems (CNS) phenotypes: subclinical electrophysiological abnormalities, mild fixed abnormalities on neurological examination and/or imaging, transient CNS dysfunction, cognitive impairment, and persistent CNS manifestations. Case presentation: A 40-year-old Japanese male showed CNS symptoms, including nystagmus, prominent spastic paraplegia, and mild cerebellar ataxia, accompanied by subclinical peripheral neuropathy. Brain magnetic resonance imaging revealed hyperintensities in diffusion-weighted images of the white matter, particularly along the pyramidal tract, which had persisted since childhood. Nerve conduction assessment showed a mild decrease in motor conduction velocity, and auditory brainstem responses beyond wave II were absent. Peripheral and central conduction times in somatosensory evoked potentials elicited by stimulation of the median nerve were prolonged. Genetic analysis identified a hemizygous GJB1 variant, NM_000166.6:c.520C > T p.Pro174Ser. Conclusions: The patient in the case described here, with a GJB1 p.Pro174Ser variant, presented with a unique CNS-dominant phenotype, characterized by spastic paraplegia and persistent extensive leukoencephalopathy, rather than CMTX. Similar phenotypes have also been observed in patients with GJC2 and CLCN2 variants, likely because of the common function of these genes in regulating ion and water balance, which is essential for maintaining white matter function. CMTX should be considered within the spectrum of GJB1-related disorders, which can include patients with predominant CNS symptoms, some of which can potentially be classified as a new type of spastic paraplegia. [ABSTRACT FROM AUTHOR]

Published

2024

14. A Novel MAG Variant Causes Hereditary Spastic Paraplegia in a Consanguineous Pakistani Family.

Author

Akram, Rabia, Anwar, Haseeb, Muzaffar, Humaira, Turchetti, Valentina, Lau, Tracy, Vona, Barbara, Makhdoom, Ehtisham Ul Haq, Iqbal, Javed, Mahmood Baig, Shahid, Hussain, Ghulam, Efthymiou, Stephanie, and Houlden, Henry

Subjects

*FAMILIAL spastic paraplegia, *PAKISTANIS, *SYMPTOMS, *CEREBELLAR ataxia, *RNA analysis

Abstract

Background and objectives: Hereditary spastic paraplegia (HSP) is characterized by unsteady gait, motor incoordination, speech impairment, abnormal eye movement, progressive spasticity and lower limb weakness. Spastic paraplegia 75 (SPG75) results from a mutation in the gene that encodes myelin associated glycoprotein (MAG). Only a limited number of MAG variants associated with SPG75 in families of European, Middle Eastern, North African, Turkish and Palestinian ancestry have been documented so far. This study aims to provide further insight into the clinical and molecular manifestations of HSP. Methods: Using whole-exome sequencing, we investigated a consanguineous Pakistani family where three individuals presented with clinical signs of HSP. Sanger sequencing was used to carry out segregation analysis on available family members, and a minigene splicing assay was utilized to evaluate the effect of the splicing variant. Results: We identified a novel homozygous pathogenic splice donor variant in MAG (c.46 + 1G > T) associated with SPG75. RNA analysis revealed exon skipping that resulted in the loss of a start codon for ENST00000361922.8 isoform. Affected individuals exhibited variable combinations of nystagmus, developmental delay, cognitive impairments, spasticity, dysarthria, delayed gait and ataxia. The proband displayed a quadrupedal stride, and his siblings experienced frequent falls and ataxic gait as one of the prominent features that have not been previously reported in SPG75. Conclusions: Thus, the present study presents an uncommon manifestation of SPG75, the first from the Pakistani population, and broadens the spectrum of MAG variants. [ABSTRACT FROM AUTHOR]

Published

2024

15. Patients with complex and very-early-onset ATL1-related spastic paraplegia offer insights on genotype/phenotype correlations and support for autosomal recessive forms of SPG3A.

Author

Hamamie-Chaar, Angélique, Renaud, Mathilde, Gençpinar, Pinar, Bruel, Ange-Line, Philippe, Christophe, Maraval, Julien, Racine, Caroline, Hadouiri, Nawale, Lambert, Laetitia, Schmitt, Emmanuelle, Banneau, Guillaume, Hocquel, Armand, Thauvin-Robinet, Christel, Faivre, Laurence, and Thomas, Quentin

Subjects

*MOVEMENT disorders, *CEREBRAL palsy, *SPASTICITY, *GENETIC variation, *MISSENSE mutation, *FAMILIAL spastic paraplegia, *SPASTIC paralysis

Abstract

Spastic paraplegia type 3A (SPG3A) is the second most common form of hereditary spastic paraplegia (HSP). This autosomal-dominant-inherited motor disorder is caused by heterozygous variants in the ATL1 gene which usually presents as a pure childhood-onset spastic paraplegia. Affected individuals present muscle weakness and spasticity in the lower limbs, with symptom onset in the first decade of life. Individuals with SPG3A typically present a slow progression and remain ambulatory throughout their life. Here we report three unrelated individuals presenting with very-early-onset (before 7 months) complex, and severe HSP phenotypes (axial hypotonia, spastic quadriplegia, dystonia, seizures and intellectual disability). For 2 of the 3 patients, these phenotypes led to the initial diagnosis of cerebral palsy (CP). These individuals carried novel ATL1 pathogenic variants (a de novo ATL1 missense p.(Lys406Glu), a homozygous frameshift p.(Arg403Glufs*3) and a homozygous missense variant (p.Tyr367His)). The parents carrying the heterozygous frameshift and missense variants were asymptomatic. Through these observations, we increase the knowledge on genotype–phenotype correlations in SPG3A and offer additional proof for possible autosomal recessive forms of SPG3A, while raising awareness on these exceptional phenotypes. Their ability to mimic CP also implies that genetic testing should be considered for patients with atypical forms of CP, given the implications for genetic counseling. [ABSTRACT FROM AUTHOR]

Published

2024

16. Expanding SPG18 clinical spectrum: autosomal dominant mutation causes complicated hereditary spastic paraplegia in a large family.

Author

Trinchillo, Assunta, Valente, Valeria, Esposito, Marcello, Migliaccio, Miriana, Iovino, Aniello, Picciocchi, Michele, Cuomo, Nunzia, Caccavale, Carmela, Nocerino, Cristofaro, De Rosa, Laura, Salvatore, Elena, Pierantoni, Giovanna Maria, Menchise, Valeria, Paladino, Simona, and Criscuolo, Chiara

Subjects

*AMYOTROPHIC lateral sclerosis, *LIPID rafts, *TEMPORAL lobe epilepsy, *ENDOPLASMIC reticulum, *FAMILIAL spastic paraplegia, *PHENOTYPES

Abstract

Background: SPG18 is caused by mutations in the endoplasmic reticulum lipid raft associated 2 (ERLIN2) gene. Autosomal recessive (AR) mutations are usually associated with complicated hereditary spastic paraplegia (HSP), while autosomal dominant (AD) mutations use to cause pure SPG18. Aim: To define the variegate clinical spectrum of the SPG18 and to evaluate a dominant negative effect of erlin2 (encoded by ERLIN2) on oligomerization as causing differences between AR and AD phenotypes. Methods: In a four-generation pedigree with an AD pattern, a spastic paraplegia multigene panel test was performed. Oligomerization of erlin2 was analyzed with velocity gradient assay in fibroblasts of the proband and healthy subjects. Results: Despite the common p.V168M mutation identified in ERLIN2, a phenoconversion to amyotrophic lateral sclerosis (ALS) was observed in the second generation, pure HSP in the third generation, and a complicated form with psychomotor delay and epilepsy in the fourth generation. Erlin2 oligomerization was found to be normal. Discussion: We report the first AD SPG18 family with a complicated phenotype, and we ruled out a dominant negative effect of V168M on erlin2 oligomerization. Therefore, our data do not support the hypothesis of a relationship between the mode of inheritance and the phenotype, but confirm the multifaceted nature of SPG18 on both genetic and clinical point of view. Clinicians should be aware of the importance of conducting an in-depth clinical evaluation to unmask all the possible manifestations associated to an only apparently pure SPG18 phenotype. We confirm the genotype–phenotype correlation between V168M and ALS emphasizing the value of close follow-up. [ABSTRACT FROM AUTHOR]

Published

2024

17. Resolving unsolved whole- genome sequencing data in paediatric neurological disorders: a cohort study.

Author

Ching-Shiang Chi, Chi-Ren Tsai, and Hsiu-Fen Lee

Subjects

MITOCHONDRIAL DNA abnormalities, HEREDITY, MEDICAL genetics, GENETIC variation, GENETIC testing, FAMILIAL spastic paraplegia, EPILEPSY

Published

2024

18. GROWING A PERSONALISED CURE.

Author

Cullen, Denise

Subjects

AMYOTROPHIC lateral sclerosis, INDUCED pluripotent stem cells, INFLAMMATORY bowel diseases, KREBS cycle, NEURAL stem cells, FAMILIAL spastic paraplegia

Abstract

This article from Cosmos Magazine explores the use of brain organoids in groundbreaking research to find a cure for debilitating genetic diseases in children. The focus is on a five-year-old girl named Tallulah Moon, who was diagnosed with a rare genetic disease called Hereditary Spastic Paraplegia Type 56 (SPG56). Researchers at the University of Queensland's Australian Institute of Bioengineering and Nanotechnology (AIBN) have created brain organoids from Tallulah's skin cells and are studying their electrical activity to understand the disease better. The ultimate goal is to develop gene therapy to replace the faulty gene causing the disease. The article highlights the challenges and uncertainties involved in this research but emphasizes the potential for personalized medicine and the hope it brings to individuals with rare diseases. [Extracted from the article]

Published

2024

19. Exploring the neuroprotective potential of Nrf2-pathway activators against annonacin toxicity.

Author

Costa, Márcia F. D., Rösler, Thomas W., and Höglinger, Günter U.

Subjects

*NEUROPROTECTIVE agents, *TAUOPATHIES, *CELL survival, *NEURODEGENERATION, *CELLULAR signal transduction, *DOPAMINE receptors, *FAMILIAL spastic paraplegia

Abstract

Modulation of the Nrf2 pathway, a master regulator of the antioxidant response and cellular metabolism, has been suggested as a promising therapeutic strategy in tauopathies, a heterogeneous group of neurodegenerative disorders characterized by intracellular proteinaceous inclusions of abnormally phosphorylated tau. Here, we explored the neuroprotective potential of different Nrf2-pathway activators in human immortalized dopaminergic neurons against annonacin-induced toxicity, a mitochondrial inhibitor associated with a PSP-like syndrome and capable of mimicking tauopathy-like features. Interestingly, we observed heterogenous and compound-dependent neuroprotective effects among the different Nrf2-pathway activators. With the exception of Fyn inhibitors, all the selected Nrf2-pathway activators improved cell viability and the oxidative status, and reduced the annonacin-induced tau hyperphosphorylation and neurite degeneration, particularly the p62-activators. However, improvement of the impaired mitochondrial function was only observed by the Bach-1 inhibitor. Surprisingly, we found evidence that ezetimibe, an approved drug for hypercholesterolemia, prevents the transcriptional upregulation of 4R-tau triggered by annonacin insult. Overall, our results suggest that the neuroprotective effects of the Nrf2-pathway activators against annonacin toxicity may rely on the specific mechanism of action, intrinsic to each compound, and possibly on the concomitant modulation of additional signaling pathways. Further research will be needed to fully understand how synergistic modulation of metabolic adaptation and cell survival can be exploit to develop new therapeutical strategies for tauopathies and eventually other neurodegenerative diseases. [ABSTRACT FROM AUTHOR]

Published

2024

20. Metabolite profile in hereditary spastic paraplegia analyzed using magnetic resonance spectroscopy: a cross-sectional analysis in a longitudinal study.

Author

Montanaro, Domenico, Vavla, Marinela, Frijia, Francesca, Coi, Alessio, Baratto, Alessandra, Pasquariello, Rosa, Stefan, Cristina, and Martinuzzi, Andrea

Subjects

FAMILIAL spastic paraplegia, NUCLEAR magnetic resonance spectroscopy, PYRAMIDAL tract, CROSS-sectional method, NEURODEGENERATION

Abstract

Background: Hereditary Spastic Paraplegias (HSP) are genetic neurodegenerative disorders affecting the corticospinal tract. No established neuroimaging biomarker is associated with this condition. Methods: A total of 46 patients affected by HSP, genetically and clinically evaluated and tested with SPRS scores, and 46 healthy controls (HC) matched by age and gender underwent a single-voxel Magnetic Resonance Spectroscopy sampling (MRS) of bilateral pre-central and pre-frontal regions. MRS data were analyzed cross-sectionally (at T0 and T1) and longitudinally (T0 vs. T1). Results: Statistically significant data showed that T0 mI/Cr in the pre-central areas of HSP patients was higher than in HC. In the left (L) pre-central area, NAA/Cr was significantly lower in HSP than in HC. In the right (R) pre-frontal area, NAA/Cr was significantly lower in HSP patients than in HC. HSP SPG4 subjects had significantly lower Cho/Cr concentrations in the L pre-central area compared to HC. Among the HSP subjects, non-SPG4 patients had significantly higher mI/Cr in the L pre-central area compared to SPG4 patients. In the R pre-frontal area, NAA/Cr was reduced, and ml/Cr was higher in non-SPG4 patients compared to SPG4 patients. Comparing "pure" and "complex" forms, NAA/Cr was higher in pHSP than in cHSP in the R pre-central and R pre-frontal areas. The longitudinal analysis, which involved fewer patients (n = 30), showed an increase in mI/Cr concentration in the L pre-frontal area among HSP subjects with respect to baseline. The patients had significantly higher SPRS scores at follow-up, with a significant positive correlation between SPRS scores and mI/Cr in the L precentral area, while in bilateral pre-frontal areas, lower SPRS scores corresponded to higher NAA/Cr concentrations. To explore the discriminating power of MRS in correctly identifying HSP and controls, an inference tree methodology classified HSP subjects and controls with an overall accuracy of 73.9%, a sensitivity of 87.0%, and a specificity of 60.9%. Conclusion: This pilot study indicates that brain MRS is a valuable approach that could potentially serve as an objective biomarker in HSP. [ABSTRACT FROM AUTHOR]

Published

2024

21. 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

22. Case report: Comprehensive exploration of a novel PFKM mutation in glycogen storage disease Type VII.

Author

Ying Chen, Xinyu Wang, Na Ji, Qi Fang, Xin Chang, and Meirong Liu

Subjects

GLYCOGEN storage disease, WHOLE genome sequencing, SYMPTOMS, MUSCLE weakness, DELAYED diagnosis, FAMILIAL spastic paraplegia

Abstract

Glycogen Storage Disease Type VII (GSD VII) is a rare glycogen metabolism disorder resulting from mutations in the PFKM gene, inherited in an autosomal recessive manner. It is characterized by exercise intolerance, muscle cramps, myoglobinuria, compensatory hemolysis, and later onset de novo myasthenia and mild myopathy, contributing to its clinical heterogeneity and diagnostic challenges. Here, we report a rare case of a 17-year-old Chinese woman exhibiting substantial muscle weakness and compensated hemolysis. Muscle biopsies showed glycogen deposition, and blood tests showed hyperuricemia and significantly elevated creatine kinase. Whole genome sequencing (WGS) and whole exome sequencing (WES) identified two compound heterozygous mutations in the PFKM (NM_000289.6) gene: c.626G>A and c.1376G>A in exons 7 and 15, respectively. According to the clinical presentation, diagnostic examination, and WES results, the patient was finally diagnosed with GSDVII. The discovery of these two new PFKM mutations expands the genetic spectrum, and understanding the clinical manifestations of these mutations is critical to preventing diagnostic delays and timely intervention and treatment. [ABSTRACT FROM AUTHOR]

Published

2024

23. 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

FAMILIAL spastic paraplegia, CHINESE people, GENETIC variation, PATIENTS' families, PATERNITY

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 lateonset SPG4 in a Han Chinese male, manifesting primarily as gait disturbances from lower extremity spasticity. Uncovered through wholegenome 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. [ABSTRACT FROM AUTHOR]

Published

2024

24. Mobile digital gait analysis captures effects of botulinum toxin in hereditary spastic paraplegia.

Author

Ibrahim, Alzhraa A., Ollenschläger, Malte, Klebe, Stephan, Schüle, Rebecca, Jeschonneck, Nicole, Kellner, Melanie, Loris, Evelyn, Greinwalder, Teresa, Eskofier, Bjoern M., Winkler, Jürgen, Gaßner, Heiko, and Regensburger, Martin

Subjects

*FAMILIAL spastic paraplegia, *BOTULINUM toxin, *BOTULINUM A toxins, *GOAL Attainment Scaling, *GAIT in humans

Abstract

Background and purpose: Hereditary spastic paraplegias (HSPs) comprise a group of inherited neurodegenerative disorders characterized by progressive spasticity and weakness. Botulinum toxin has been approved for lower limb spasticity following stroke and cerebral palsy, but its effects in HSPs remain underexplored. We aimed to characterize the effects of botulinum toxin on clinical, gait, and patient‐reported outcomes in HSP patients and explore the potential of mobile digital gait analysis to monitor treatment effects and predict treatment response. Methods: We conducted a prospective, observational, multicenter study involving ambulatory HSP patients treated with botulinum toxin tailored to individual goals. Comparing data at baseline, after 1 month, and after 3 months, treatment response was assessed using clinical parameters, goal attainment scaling, and mobile digital gait analysis. Machine learning algorithms were used for predicting individual goal attainment based on baseline parameters. Results: A total of 56 patients were enrolled. Despite the heterogeneity of treatment goals and targeted muscles, botulinum toxin led to a significant improvement in specific clinical parameters and an improvement in specific gait characteristics, peaking at the 1‐month and declining by the 3‐month follow‐up. Significant correlations were identified between gait parameters and clinical scores. With a mean balanced accuracy of 66%, machine learning algorithms identified important denominators to predict treatment response. Conclusions: Our study provides evidence supporting the beneficial effects of botulinum toxin in HSP when applied according to individual treatment goals. The use of mobile digital gait analysis and machine learning represents a novel approach for monitoring treatment effects and predicting treatment response. [ABSTRACT FROM AUTHOR]

Published

2024

25. Relationship between brain white matter damage and grey matter atrophy in hereditary spastic paraplegia types 4 and 5.

Author

Tu, Yuqing, Liu, Ying, Fan, Shuping, Weng, Jiaqi, Li, Mengcheng, Zhang, Fan, Fu, Ying, and Hu, Jianping

Subjects

*FAMILIAL spastic paraplegia, *WHITE matter (Nerve tissue), *ATROPHY, *MAGNETIC resonance imaging, *GENE expression

Abstract

Background and purpose: White matter (WM) damage is the main target of hereditary spastic paraplegia (HSP), but mounting evidence indicates that genotype‐specific grey matter (GM) damage is not uncommon. Our aim was to identify and compare brain GM and WM damage patterns in HSP subtypes and investigate how gene expression contributes to these patterns, and explore the relationship between GM and WM damage. Methods: In this prospective single‐centre cohort study from 2019 to 2022, HSP patients and controls underwent magnetic resonance imaging evaluations. The alterations of GM and WM patterns were compared between groups by applying a source‐based morphometry approach. Spearman rank correlation was used to explore the associations between gene expression and GM atrophy patterns in HSP subtypes. Mediation analysis was conducted to investigate the interplay between GM and WM damage. Results: Twenty‐one spastic paraplegia type 4 (SPG4) patients (mean age 50.7 years ± 12.0 SD, 15 men), 21 spastic paraplegia type 5 (SPG5) patients (mean age 29.1 years ± 12.8 SD, 14 men) and 42 controls (sex‐ and age‐matched) were evaluated. Compared to controls, SPG4 and SPG5 showed similar WM damage but different GM atrophy patterns. GM atrophy patterns in SPG4 and SPG5 were correlated with corresponding gene expression (ρ = 0.30, p = 0.008, ρ = 0.40, p < 0.001, respectively). Mediation analysis indicated that GM atrophy patterns were mediated by WM damage in HSP. Conclusions: Grey matter atrophy patterns were distinct between SPG4 and SPG5 and were not only secondary to WM damage but also associated with disease‐related gene expression. Clinical trial registration no. NCT04006418. [ABSTRACT FROM AUTHOR]

Published

2024

26. Hereditary spastic paraparesis type 18 (SPG18): new ERLIN2 variants in a series of Italian patients, shedding light upon genetic and phenotypic variability.

Author

Cioffi, Ettore, Gioiosa, Valeria, Tessa, Alessandra, Petrucci, Antonio, Trovato, Rosanna, Santorelli, Filippo Maria, and Casali, Carlo

Subjects

*GENETIC variation, *PHENOTYPIC plasticity, *CENTRAL nervous system diseases, *AMYOTROPHIC lateral sclerosis, *GENETIC testing, *FAMILIAL spastic paraplegia, *MOLECULAR diagnosis, *VIRAL shedding, *PARAPARESIS

Abstract

Introduction: Hereditary spastic paraparesis (HSP) is a group of central nervous system diseases primarily affecting the spinal upper motor neurons, with different inheritance patterns and phenotypes. SPG18 is a rare, early-onset, complicated HSP, first reported as linked to biallelic ERLIN2 mutations. Recent cases of late-onset, pure HSP with monoallelic ERLIN2 variants prompt inquiries into the zygosity of such genetic conditions. The observed relationship between phenotype and mode of inheritance suggests a potential dominant negative effect of mutated ERLIN2 protein, potentially resulting in a milder phenotype. This speculation suggests that a wider range of HSP genes could be linked to various inheritance patterns. Purpose and background: With documented cases of HSP loci exhibiting both dominant and recessive patterns, this study emphasizes that the concept of zygosity is no longer a limiting factor in the establishment of molecular diagnoses for HSP. Recent cases have demonstrated phenoconversion in SPG18, from HSP to an amyotrophic lateral sclerosis (ALS)-like syndrome. Methods and results: This report highlights two cases out of five exhibiting HSP-ALS phenoconversion, discussing an observed prevalence in autosomal dominant SPG18. Additionally, the study emphasizes the relatively high incidence of the c.502G>A variant in monoallelic SPG18 cases. This mutation appears to be particularly common in cases of HSPALS phenoconversion, indicating its potential role as a hotspot for a distinctive SPG18 phenotype with an ALS-like syndrome. Conclusions: Clinicians need to be aware that patients with HSP may show ALS signs and symptoms. On the other hand, HSP panels must be included in genetic testing methods for instances of familial ALS. [ABSTRACT FROM AUTHOR]

Published

2024

27. A case of monozygotic twins with hereditary spastic paraplegia type 4 and epilepsy, of whom only one developed narcolepsy type 1.

Author

Mizuno, Yuri, Uehara, Taira, Nakamura, Yuri, Okadome, Toshiki, Mukaino, Takahiko, Koh, Kishin, Takiyama, Yoshihisa, Kanbayashi, Takashi, Isobe, Noriko, Kira, Jun‐ichi, Murai, Hiroyuki, and Shigeto, Hiroshi

Subjects

*MONOZYGOTIC twins, *DROWSINESS, *FAMILIAL spastic paraplegia, *TWINS, *NARCOLEPSY, *SLEEP latency, *EPILEPSY

Abstract

Summary: We report a case of monozygotic twin sisters with hereditary spastic paraplegia type 4 (SPG4) and epilepsy, only one of whom had a diagnosis of narcolepsy type 1 (NT1). The older sister with NT1 exhibited excessive daytime sleepiness, cataplexy, sleep‐onset rapid eye movement period in the multiple sleep latency test, and decreased orexin levels in cerebrospinal fluid. Both sisters had HLA‐DRB1*15:01‐DQB1*06:02 and were further identified to have a novel missense mutation (c.1156A > C, p.Asn386His) in the coding exon of the spastin (SPAST) gene. The novel missense mutation might be involved in the development of epilepsy. This case is characterised by a combined diagnosis of SPG4 and epilepsy, and it is the first report of NT1 combined with epilepsy and genetically confirmed SPG4. The fact that only one of the twins has NT1 suggests that acquired and environmental factors are important in the pathogenesis of NT1. [ABSTRACT FROM AUTHOR]

Published

2024

28. A Novel Pathogenic TUBA1A Variant in a Croatian Infant Is Linked to a Severe Tubulinopathy with Walker–Warburg-like Features.

Author

Saidin, Akzam, Papazovska Cherepnalkovski, Anet, Shaukat, Zeeshan, Arsov, Todor, Hussain, Rashid, Roberts, Ben J., Bucat, Marija, Cogelja, Klara, Ricos, Michael G., and Dibbens, Leanne M.

Subjects

*CEREBRAL ventricles, *CESAREAN section, *NEUROLOGICAL disorders, *RESPIRATORY insufficiency, *NEUROLOGIC examination, *FAMILIAL spastic paraplegia

Abstract

Tubulinopathies are associated with malformations of cortical development but not Walker–Warburg Syndrome. Intensive monitoring of a Croatian infant presenting as Walker–Warburg Syndrome in utero began at 21 weeks due to increased growth of cerebral ventricles and foetal biparietal diameter. Monitoring continued until Caesarean delivery at 34 weeks where the infant was eutrophic. Clinical assessment of a progressive neurological disorder of unknown aetiology found a macrocephalic head and markedly hypoplastic genitalia with a micropenis. Neurological examination showed generalized hypotonia with very rare spontaneous movements, hypotonia-induced respiratory insufficiency and ventilator dependence, and generalized myoclonus intensifying during manipulation. With clinical features of hypotonia, lissencephaly, and brain malformations, Walker–Warburg Syndrome was suspected; however, eye anomalies were absent. Genetic trio analysis via whole-exome sequencing only identified a novel de novo mutation in the TUBA1A gene (NM_006009.4:c.848A>G; NP_006000.2:p.His283Arg) in the infant, who died at 2 months of age, as the likely cause. We report a previously unpublished, very rare heterozygous TUBA1A mutation with clinical features of macrocephaly and hypoplastic genitalia which have not previously been associated with the gene. The absence of eye phenotypes or mutations in Walker–Warburg-associated genes confirm this as not a new presentation of Walker–Warburg Syndrome but a novel TUBA1A tubulinopathy for neonatologists to be aware of. [ABSTRACT FROM AUTHOR]

Published

2024

29. Primary lateral sclerosis: application and validation of the 2020 consensus diagnostic criteria in an expert opinion-based PLS cohort.

Author

Witzel, Simon, Micca, Veronika, Müller, Hans P., Huss, André, Bachhuber, Franziska, Dorst, Johannes, Lulé, Dorothée E., Tumani, Hayrettin, Kassubek, Jan, and Ludolph, Albert C.

Subjects

MOTOR neuron diseases, AMYOTROPHIC lateral sclerosis, VITAMIN B12 deficiency, TEXTURE analysis (Image processing), BLOOD protein electrophoresis, FRONTOTEMPORAL lobar degeneration, FAMILIAL spastic paraplegia

Published

2024

30. Genetic link between KIF1A mutations and amyotrophic lateral sclerosis: evidence from whole-exome sequencing.

Author

Wei Zheng, Ji He, Lu Chen, Weiyi Yu, Nan Zhang, Xiaoxuan Liu, and Dongsheng Fan

Subjects

GENETICS of amyotrophic lateral sclerosis, PERIPHERAL neuropathy, RESEARCH funding, CELL physiology, FAMILIES, DNA, DESCRIPTIVE statistics, GENE expression, CYTOPLASM, NERVOUS system, GENETIC disorders, GENETIC mutation, KINESIN, FAMILIAL spastic paraplegia, DATA analysis software, GENETICS, SEQUENCE analysis, MOLECULAR motor proteins, COGNITION

Abstract

Objectives: Genetics have been shown to have a substantial impact on amyotrophic lateral sclerosis (ALS). The ALS process involves defects in axonal transport and cytoskeletal dynamics. It has been identified that KIF1A, responsible for encoding a kinesin-3 motor protein that carries synaptic vesicles, is considered a genetic predisposing factor for ALS. Methods: The analysis of whole-exome sequencing data from 1,068 patients was conducted to examine the genetic link between ALS and KIF1A. For patients with KIF1A gene mutations and a family history, we extended the analysis to their families and reanalyzed them using Sanger sequencing for cosegregation analysis. Results: In our cohort, the KIF1A mutation frequency was 1.31% (14/1,068). Thirteen nonsynonymous variants were detected in 14 ALS patients. Consistent with the connection between KIF1A and ALS, the missense mutation p.A1083T (c.3247G>A) was shown to cosegregate with disease. The mutations related to ALS in our study were primarily located in the cargo-binding region at the C-terminal, as opposed to the mutations of motor domain at the N-terminal of KIF1A which were linked to hereditary peripheral neuropathy and spastic paraplegia. We observed high clinical heterogeneity in ALS patients with missense mutations in the KIF1A gene. KIF5A is a more frequent determinant of ALS in the European population, while KIF1A accounts for a similar proportion of ALS in both the European and Chinese populations. Conclusion: Our investigation revealed that mutations in the C-terminus of KIF1A could increase the risk of ALS, support the pathogenic role of KIF1A in ALS and expand the phenotypic and genetic spectrum of KIF1A-related ALS. [ABSTRACT FROM AUTHOR]

Published

2024

31. Novel PRKAR1A mutation in Carney complex: a case report and literature review.

Author

Huaqiang Zheng, Hong Kang, Yizhen Qiu, Liangxiao Xie, Jinzhi Wu, Pengbin Lai, and Jiapeng Kang

Subjects

LITERATURE reviews, ADRENAL tumors, CUSHING'S syndrome, ADRENAL cortex, GENETIC testing, FAMILIAL spastic paraplegia, ADRENAL glands

Abstract

Objective: Carney complex is a rare autosomal dominant syndrome that has been shown to be associated with inactivation due to PRKAR1A mutations. We revealed a novel PRKAR1A gene mutation in Chinese patient with Carney complex and review the literature to enhance understanding of Carney complex. Case presentation: A 23-year-old Chinese male patient with a family history cardiac myxoma was admitted to our Department of Endocrinology because of central obesity and hyperpigmentation. Physical examination revealed a maximum blood pressure of 150/93mmHg, awaist circumference of 102cm, aweight of 70kg, a height of 170cm, and a BMI of 24.22kg/m2. Additionally, there was spotty skin pigmentation on the lip mucosa, purple striae on the abdomen, thin skin on both legs, and visible veins. Blood examination revealed hypercortisolemia, decreased adrenocorticotropic hormone (ACTH) levels and failure to suppress cortisol with lowand high-dose dexamethasone suppression tests.Magnetic resonance imaging (MRI) scan revealedmultiple small adrenal nodules and Retroperitoneal neurogenic tumor. Genetic testing showed a novel heterozygous mutation in exon 5 of PRKAR1A (c.500_;502 + 8delAAGGTAAGGGC). The patient underwent resection of the right adrenal gland and retroperitoneal neoplasms in 2020. Postoperative pathology following the right adrenal gland resection showed nodular hyperplasia of the adrenal cortex. The pathology from the retroperitoneal tumor resection revealed spindle cell tumors rich in pigment and cells. The patient was diagnosed as Carney complex according to Stratakis CA in 2001 guidelines. After long-term follow-up, the patient's condition was stable, with weight loss, waist circumference reduction, significantly lower cortisol levels, and normal blood lipids. Conclusion: This case reported a Carney complex in a Chinese patient, characterized clinically by non-ACTH-dependent Cushing's syndrome, familial recurrent cardiac myxomas, psammomatous melanotic schwannoma (PMS) and skin and mucosal pigmentation. A novel subtype of PRKAR1A mutation was discovered, which may affect the characteristics of the PRKAR1A protein and contribute to the development of Carney complex. [ABSTRACT FROM AUTHOR]

Published

2024

32. De Novo DNM1L Mutation in a Patient with Encephalopathy, Cardiomyopathy and Fatal Non-Epileptic Paroxysmal Refractory Vomiting.

Author

Berti, Beatrice, Verrigni, Daniela, Nasca, Alessia, Di Nottia, Michela, Leone, Daniela, Torraco, Alessandra, Rizza, Teresa, Bellacchio, Emanuele, Legati, Andrea, Palermo, Concetta, Marchet, Silvia, Lamperti, Costanza, Novelli, Antonio, Mercuri, Eugenio Maria, Bertini, Enrico Silvio, Pane, Marika, Ghezzi, Daniele, and Carrozzo, Rosalba

Subjects

*MITOCHONDRIAL dynamics, *CELL respiration, *BRAIN diseases, *GENETIC variation, *CARDIOMYOPATHIES, *FAMILIAL spastic paraplegia, *RESPIRATION in plants, *HEART, *SUDDEN death

Abstract

Mitochondrial fission and fusion are vital dynamic processes for mitochondrial quality control and for the maintenance of cellular respiration; they also play an important role in the formation and maintenance of cells with high energy demand including cardiomyocytes and neurons. The DNM1L (dynamin-1 like) gene encodes for the DRP1 protein, an evolutionary conserved member of the dynamin family that is responsible for the fission of mitochondria; it is ubiquitous but highly expressed in the developing neonatal heart. De novo heterozygous pathogenic variants in the DNM1L gene have been previously reported to be associated with neonatal or infantile-onset encephalopathy characterized by hypotonia, developmental delay and refractory epilepsy. However, cardiac involvement has been previously reported only in one case. Next-Generation Sequencing (NGS) was used to genetically assess a baby girl characterized by developmental delay with spastic–dystonic, tetraparesis and hypertrophic cardiomyopathy of the left ventricle. Histochemical analysis and spectrophotometric determination of electron transport chain were performed to characterize the muscle biopsy; moreover, the morphology of mitochondria and peroxisomes was evaluated in cultured fibroblasts as well. Herein, we expand the phenotype of DNM1L-related disorder, describing the case of a girl with a heterozygous mutation in DNM1L and affected by progressive infantile encephalopathy, with cardiomyopathy and fatal paroxysmal vomiting correlated with bulbar transitory abnormal T2 hyperintensities and diffusion-weighted imaging (DWI) restriction areas, but without epilepsy. In patients with DNM1L mutations, careful evaluation for cardiac involvement is recommended. [ABSTRACT FROM AUTHOR]

Published

2024

33. Stress-Related Chronic Fatigue Syndrome: A Case Report with a Positive Response to Alpha-Methyl-P-Tyrosine (AMPT) Treatment.

Author

Ljungström, Maria, Oltra, Elisa, and Pardo, Marta

Subjects

*CHRONIC fatigue syndrome, *POSTURAL orthostatic tachycardia syndrome, *AUTONOMIC nervous system, *FAMILIAL spastic paraplegia, *TYROSINE hydroxylase, *THERAPEUTICS

Abstract

Chronic fatigue syndrome (CFS) is a heterogeneous disorder with a genetically associated vulnerability of the catecholamine metabolism (e.g., catechol O-methyltransferase polymorphisms), in which environmental factors have an important impact. Alpha-methyl-p-tyrosine (AMPT; also referred to as metyrosine) is an approved medication for the treatment of pheochromocytoma. As a tyrosine hydroxylase inhibitor, AMPT may be a potential candidate for the treatment of diseases involving catecholamine alterations. However, only small-scale clinical trials have tested AMPT repurposing in a few other illnesses. The current case report compiles genetic and longitudinal biochemical data for over a year of follow-up of a male patient sequentially diagnosed with sustained overstress, neurasthenia, CFS (diagnosed in 2012 as per the Center for Disease Control (CDC/Fukuda)), and postural orthostatic tachycardia syndrome (POTS) over a 10-year period and reports the patient's symptom improvement in response to low–medium doses of AMPT. This case was recognized as a stress-related CFS case. Data are reported from medical records provided by the patient to allow a detailed response to treatment targeting the hyperadrenergic state presented by the patient. We highlight the lack of a positive response to classical approaches to treating CFS, reflecting the limitations of CFS diagnosis and available treatments to alleviate patients' symptoms. The current pathomechanism hypothesis emphasizes monoamine alterations (hyperadrenergic state) in the DA/adrenergic system and a dysfunctional autonomic nervous system resulting from sympathetic overactivity. The response of the patient to AMPT treatment highlights the relevance of pacing with regard to stressful situations and increased activity. Importantly, the results do not indicate causality between AMPT and its action on the monoamine system, and future studies should evaluate the implications of other targets. [ABSTRACT FROM AUTHOR]

Published

2024

34. The Role of Glia in Wilson's Disease: Clinical, Neuroimaging, Neuropathological and Molecular Perspectives.

Author

Gromadzka, Grażyna, Wilkaniec, Anna, Tarnacka, Beata, Hadrian, Krzysztof, Bendykowska, Maria, Przybyłkowski, Adam, and Litwin, Tomasz

Subjects

*HEPATOLENTICULAR degeneration, *NEURAL transmission, *BLOOD-brain barrier, *FAMILIAL spastic paraplegia, *ALZHEIMER'S disease, *HOMEOSTASIS, *COPPER, *IRON in the body, *PARKINSON'S disease

Abstract

Wilson's disease (WD) is inherited in an autosomal recessive manner and is caused by pathogenic variants of the ATP7B gene, which are responsible for impaired copper transport in the cell, inhibition of copper binding to apoceruloplasmin, and biliary excretion. This leads to the accumulation of copper in the tissues. Copper accumulation in the CNS leads to the neurological and psychiatric symptoms of WD. Abnormalities of copper metabolism in WD are associated with impaired iron metabolism. Both of these elements are redox active and may contribute to neuropathology. It has long been assumed that among parenchymal cells, astrocytes have the greatest impact on copper and iron homeostasis in the brain. Capillary endothelial cells are separated from the neuropil by astrocyte terminal legs, putting astrocytes in an ideal position to regulate the transport of iron and copper to other brain cells and protect them if metals breach the blood–brain barrier. Astrocytes are responsible for, among other things, maintaining extracellular ion homeostasis, modulating synaptic transmission and plasticity, obtaining metabolites, and protecting the brain against oxidative stress and toxins. However, excess copper and/or iron causes an increase in the number of astrocytes and their morphological changes observed in neuropathological studies, as well as a loss of the copper/iron storage function leading to macromolecule peroxidation and neuronal loss through apoptosis, autophagy, or cuproptosis/ferroptosis. The molecular mechanisms explaining the possible role of glia in copper- and iron-induced neurodegeneration in WD are largely understood from studies of neuropathology in Parkinson's disease and Alzheimer's disease. Understanding the mechanisms of glial involvement in neuroprotection/neurotoxicity is important for explaining the pathomechanisms of neuronal death in WD and, in the future, perhaps for developing more effective diagnostic/treatment methods. [ABSTRACT FROM AUTHOR]

Published

2024

35. Variety of genetic defects in GnRH and hypothalamic-pituitary signaling and development in normosmic patients with IHH.

Author

Kałużna, Małgorzata, Budny, Bartłomiej, Rabijewski, Michał, Dubiel, Agnieszka, Trofimiuk-Müldner, Małgorzata, Szutkowski, Kosma, Piotrowski, Adam, Wrotkowska, Elżbieta, Hubalewska-Dydejczyk, Alicja, Ruchała, Marek, and Ziemnicka, Katarzyna

Subjects

GONADOTROPIN releasing hormone, FAMILIAL spastic paraplegia, PITUITARY gland, PITUITARY dwarfism, HYPOGONADISM

Abstract

Introduction: Normosmic isolated hypogonadotropic hypogonadism (nIHH) is a clinically and genetically heterogeneous disorder. Deleterious variants in over 50 genes have been implicated in the etiology of IHH, which also indicates a possible role of digenicity and oligogenicity. Both classes of genes controlling GnRH neuron migration/development and hypothalamic/pituitary signaling and development are strongly implicated in nIHH pathogenesis. The study aimed to investigate the genetic background of nIHH and further expand the genotype-phenotype correlation. Methods: A total of 67 patients with nIHH were enrolled in the study. NGS technology and a 38-gene panel were applied. Results: Causative defects regarded as at least one pathogenic/likely pathogenic (P/LP) variant were found in 23 patients (34%). For another 30 individuals, variants of unknown significance (VUS) or benign (B) were evidenced (45%). The most frequently mutated genes presenting P/LP alterations were GNRHR (n = 5), TACR3 (n = 3), and CHD7, FGFR1, NSMF, BMP4, and NROB1 (n = 2 each). Monogenic variants with solid clinical significance (P/LP) were observed in 15% of subjects, whereas oligogenic defects were detected in 19% of patients. Regarding recurrence, 17 novel pathogenic variants affecting 10 genes were identified for 17 patients. The most recurrent pathogenic change was GNRHR: p.Arg139His, detected in four unrelated subjects. Another interesting observation is that P/LP defects were found more often in genes related to hypothalamic-pituitary pathways than those related to GnRH. Conclusions: The growing importance of the neuroendocrine pathway and related genes is drawing increasing attention to nIHH. However, the underestimated potential of VUS variants in IHH etiology, particularly those presenting recurrence, should be further elucidated. [ABSTRACT FROM AUTHOR]

Published

2024

36. Clinical and genetic characteristics in a Chinese cohort of complex spastic paraplegia type 4.

Author

Yao, Li, Cao, Yuwen, Zhang, Chao, Huang, Xiaojun, Tian, Wotu, and Cao, Li

Subjects

*FAMILIAL spastic paraplegia, *FRAMESHIFT mutation, *PARAPLEGIA, *WHITE matter (Nerve tissue), *AGE of onset

Abstract

Spastic paraplegia type 4 (SPG4), caused by SPAST mutations, is the most predominant subtype of hereditary spastic paraplegia. Most documented SPG4 patients present as pure form, with the complex form rarely reported. We described the clinical and genetic features of 20 patients with complex phenotypes of SPG4 and further explored the genotype–phenotype correlations. We collected detailed clinical data of all SPG4 patients and assessed their phenotypes. SPAST gene mutations were identified by Multiplex ligation‐dependent probe amplification in combination with whole exome sequencing. We further performed statistical analysis in genotype and phenotype among patients with various manifestations and different variants. Out of 90 SPG4 patients, 20 patients (male:female = 16:4) with additional neurologic deficits, namely complex form, were included in our study. The bimodal distribution of age of onset at 0–10 and 21–40 years old is concluded. On cranial MRI, obvious white matter lesions can be observed in five patients. We identified 9 novel and 8 reported SPAST mutations, of which 11 mutations were located in AAA (ATPase associated with various cellular activities) domain. The AAA cassette of spastin is the hottest mutated region among complex SPG4. All patients with cognitive impairment (CI) are males (n = 9/9). Additionally, 80% patients with ataxia are due to frameshift mutations (n = 4/5). Overall, our study summarized and analyzed the genetic and phenotypic characteristics of complex SPG4, making up over 1/5 of in‐house SPG4 cohort, among which CI and ataxia are the most common features. Further studies are expected to explore the underlying mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

37. Clinical and genetic variability among Bulgarian patients with autosomal recessive spastic ataxia of Charlevoix–Saguenay.

Author

Chamova, Teodora, Ivanova, Neviana, Cherninkova, Sylvia, Koleva, Maya, Zlatareva, Dora, Bojinova, Veneta, Mihova, Kalina, Georgiev, Martin, Ferdinandov, Dilyan, Bichev, Stoyan, Kaneva, Radka, Mitev, Vanio, Jordanova, Albena, and Tournev, Ivailo

Subjects

*GENETIC variation, *FAMILIAL spastic paraplegia, *ATAXIA, *CEREBELLAR ataxia, *WORLD maps, *ETHNIC groups

Abstract

Background: Autosomal recessive spastic ataxia ofCharlevoix–Saguenay (ARSACS) is a rare neurodegenerative disorder characterizedby early‐onset cerebellar ataxia, peripheral sensorimotor neuropathy, and lowerlimb spasticity. We present clinical andgenetic data of the first Bulgarian patients diagnosed with ARSACS by wholeexome sequencing (WES). Methods: Variant filtering was performed usinglocally established pipeline and the selected variants were analysed by Sangersequencing. All patients underwent clinical examination and testingincluding the standard rating scales for spastic paraplegia and ataxia. Results: Five different SACS gene variants, three of which novel, have been identified inpatients from three different ethnic groups. In addition to the classicalclinical triad, brain MRI revealed cerebellar atrophy, linear pontineT2‐hypointensities, and hyperintense rim lateral tothalamus combined with retinal nerve fiber layer thickening on opticcoherence tomography (OCT). Conclusion: We expand the mutation, geographic, and phenotypic spectrum of ARSACS, adding Bulgaria to the world map of the disease, and drawing attention to the fact that it is still misdiagnosed. We demonstrated that brain MRI and OCT are necessary clinical tests for ARSACS diagnosis, even if one of the cardinal clinical features is lacking [ABSTRACT FROM AUTHOR]

Published

2024

38. 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

39. The various forms of hereditary motor neuron disorders and their historical descriptions.

Author

Mathis, Stéphane, Beauvais, Diane, Duval, Fanny, Solé, Guilhem, and Le Masson, Gwendal

Subjects

*MOTOR neurons, *MOVEMENT disorders, *FAMILIAL spastic paraplegia, *SPINAL muscular atrophy, *AMYOTROPHIC lateral sclerosis, *NEUROLOGICAL disorders, *BLOOD coagulation factor XIII, *DELAYED onset of disease

Abstract

Motor neuron disorders comprise a clinically and pathologically heterogeneous group of neurologic diseases characterized by progressive degeneration of motor neurons (including both sporadic and hereditary diseases), affecting the upper motor neurons, lower motor neurons, or both. Hereditary motor neuron disorders themselves represent a vast and heterogeneous group, with numerous clinical and genetic overlaps that can be a source of error. This narrative review aims at providing an overview of the main types of inherited motor neuron disorders by recounting the stages in their historical descriptions. For practical purposes, this review of the literature sets out their various clinical characteristics and updates the list of all the genes involved in the various forms of inherited motor neuron disorders, including spinal muscular atrophy, familial amyotrophic lateral sclerosis, hereditary spastic paraplegia, distal hereditary motor neuropathies/neuronopathies, Kennedy's disease, riboflavin transporter deficiencies, VCPopathy and the neurogenic scapuloperoneal syndrome. [ABSTRACT FROM AUTHOR]

Published

2024

40. Characterization of a novel TFG variant causing autosomal recessive pure hereditary spastic paraplegia.

Author

Hsiao, Cheng‐Tsung, Tsai, Tzu‐Yun, Shen, Ting‐Yi, Tsai, Yu‐Shuen, Liao, Yi‐Chu, Lee, Yi‐Chung, and Tsai, Pei‐Chien

Subjects

*FAMILIAL spastic paraplegia, *RECESSIVE genes, *MUTANT proteins

Abstract

Objective: TFG mutations have previously been implicated in autosomal recessive hereditary spastic paraplegia (HSP), also known as SPG57. This study aimed to investigate the clinical and molecular features of TFG mutations in a Taiwanese HSP cohort. Methods: Genetic analysis of TFG was conducted in 242 unrelated Taiwanese HSP patients using a targeted resequencing panel covering the entire coding regions of TFG. Functional assays were performed using an in vitro cell model to assess the impact of TFG variants on protein function. Additionally, other representative TFG mutant proteins were examined to understand the broader implications of TFG mutations in HSP. Results: The study identified a novel homozygous TFG c.177A>C (p.(Lys59Asn)) variant in a family with adolescent‐onset, pure form HSP. Functional analysis revealed that the Lys59Asn TFG variant, similar to other HSP‐associated TFG mutants, exhibited a low affinity between TFG monomers and abnormal assembly of TFG homo‐oligomers. These structural alterations led to aberrant intracellular distribution, compromising TFG's protein secretion function and resulting in decreased cellular viability. Interpretation: These findings confirm that the homozygous TFG c.177A>C (p.(Lys59Asn)) variant is a novel cause of SPG57. The study expands our understanding of the clinical and mutational spectrum of TFG‐associated diseases, highlighting the functional defects associated with this specific TFG variant. Overall, this research contributes to the broader comprehension of the genetic and molecular mechanisms underlying HSP. [ABSTRACT FROM AUTHOR]

Published

2024

41. Late‐onset Krabbe disease presenting as spastic paraplegia – implications of GCase and CTSB/D.

Author

Mächtel, Rebecca, Dobert, Jan‐Philipp, Hehr, Ute, Weiss, Alexander, Kettwig, Matthias, Laugwitz, Lucia, Groeschel, Samuel, Schmidt, Manuel, Arnold, Philipp, Regensburger, Martin, and Zunke, Friederike

Subjects

*CATHEPSIN B, *CATHEPSIN D, *GAIT disorders, *PARAPLEGIA, *MISSENSE mutation, *FAMILIAL spastic paraplegia

Abstract

Objective: Krabbe disease (KD) is a multisystem neurodegenerative disorder with severe disability and premature death, mostly with an infancy/childhood onset. In rare cases of late‐onset phenotypes, symptoms are often milder and difficult to diagnose. We here present a translational approach combining diagnostic and biochemical analyses of a male patient with a progressive gait disorder starting at the age of 44 years, with a final diagnosis of late‐onset KD (LOKD). Methods: Additionally to cerebral MRI, protein structural analyses of the β‐galactocerebrosidase protein (GALC) were performed. Moreover, expression, lysosomal localization, and activities of β‐glucocerebrosidase (GCase), cathepsin B (CTSB), and cathepsin D (CTSD) were analyzed in leukocytes, fibroblasts, and lysosomes of fibroblasts. Results: Exome sequencing revealed biallelic likely pathogenic variants: GALC exons 11–17: 33 kb deletion; exon 4: missense variant (c.334A>G, p.Thr112Ala). We detected a reduced GALC activity in leukocytes and fibroblasts. While histological KD phenotypes were absent in fibroblasts, they showed a significantly decreased activities of GCase, CTSB, and CTSD in lysosomal fractions, while expression levels were unaffected. Interpretation: The presented LOKD case underlines the age‐dependent appearance of a mildly pathogenic GALC variant and its interplay with other lysosomal proteins. As GALC malfunction results in reduced ceramide levels, we assume this to be causative for the here described decrease in CTSB and CTSD activity, potentially leading to diminished GCase activity. Hence, we emphasize the importance of a functional interplay between the lysosomal enzymes GALC, CTSB, CTSD, and GCase, as well as between their substrates, and propose their conjoined contribution in KD pathology. [ABSTRACT FROM AUTHOR]

Published

2024

42. Diving deep: zebrafish models in motor neuron degeneration research.

Author

Garg, Vranda and Geurten, Bart R. H.

Subjects

MOTOR neurons, NEURODEGENERATION, FAMILIAL spastic paraplegia, DEEP diving, SPINAL muscular atrophy, DELAYED onset of disease

Abstract

In the dynamic landscape of biomedical science, the pursuit of effective treatments for motor neuron disorders like hereditary spastic paraplegia (HSP), amyotrophic lateral sclerosis (ALS), and spinal muscular atrophy (SMA) remains a key priority. Central to this endeavor is the development of robust animal models, with the zebrafish emerging as a prime candidate. Exhibiting embryonic transparency, a swift life cycle, and significant genetic and neuroanatomical congruencies with humans, zebrafish offer substantial potential for research. Despite the difference in locomotion--zebrafish undulate while humans use limbs, the zebrafish presents relevant phenotypic parallels to human motor control disorders, providing valuable insights into neurodegenerative diseases. This review explores the zebrafish's inherent traits and how they facilitate profound insights into the complex behavioral and cellular phenotypes associated with these disorders. Furthermore, we examine recent advancements in high-throughput drug screening using the zebrafish model, a promising avenue for identifying therapeutically potent compounds. [ABSTRACT FROM AUTHOR]

Published

2024

43. 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

44. Genotype-specific spinal cord damage in spinocerebellar ataxias: an ENIGMA-Ataxia study.

Author

Ribeiro Rezende, Thiago Junqueira, Adanyaguh, Isaac, Barsottini, Orlando G. P., Bender, Benjamin, Cendes, Fernando, Coutinho, Leo, Deistung, Andreas, Dogan, Imis, Durr, Alexandra, Fernandez-Ruiz, Juan, Göricke, Sophia L., Grisoli, Marina, Hernandez-Castillo, Carlos R., Lenglet, Christophe, Mariotti, Caterina, Martinez, Alberto R. M., Massuyama, Breno K., Mochel, Fanny, Nanetti, Lorenzo, and Nigri, Anna

Subjects

SPINOCEREBELLAR ataxia, SPINAL cord, FRIEDREICH'S ataxia, FAMILIAL spastic paraplegia, PYRAMIDAL tract, DORSAL root ganglia

Published

2024

45. Compound Heterozygous Mutations of SACS in a Korean Cohort Study of Charcot-Marie-Tooth Disease Concurrent Cerebellar Ataxia and Spasticity.

Author

Pi, Byung Kwon, Chung, Yeon Hak, Kim, Hyun Su, Nam, Soo Hyun, Lee, Ah Jin, Nam, Da Eun, Park, Hyung Jun, Kim, Sang Beom, Chung, Ki Wha, and Choi, Byung-Ok

Subjects

*CEREBELLAR ataxia, *CHARCOT-Marie-Tooth disease, *FAMILIAL spastic paraplegia, *SPASTICITY, *MAGNETIC resonance imaging, *GENETIC mutation

Abstract

Mutations in the SACS gene are associated with autosomal recessive spastic ataxia of Charlevoix-Saguenay disease (ARSACS) or complex clinical phenotypes of Charcot-Marie-Tooth disease (CMT). This study aimed to identify SACS mutations in a Korean CMT cohort with cerebellar ataxia and spasticity by whole exome sequencing (WES). As a result, eight pathogenic SACS mutations in four families were identified as the underlying causes of these complex phenotypes. The prevalence of CMT families with SACS mutations was determined to be 0.3%. All the patients showed sensory, motor, and gait disturbances with increased deep tendon reflexes. Lower limb magnetic resonance imaging (MRI) was performed in four patients and all had fatty replacements. Of note, they all had similar fatty infiltrations between the proximal and distal lower limb muscles, different from the neuromuscular imaging feature in most CMT patients without SACS mutations who had distal dominant fatty involvement. Therefore, these findings were considered a characteristic feature in CMT patients with SACS mutations. Although further studies with more cases are needed, our results highlight lower extremity MRI findings in CMT patients with SACS mutations and broaden the clinical spectrum. We suggest screening for SACS in recessive CMT patients with complex phenotypes of ataxia and spasticity. [ABSTRACT FROM AUTHOR]

Published

2024

46. Unexpected complexity in the molecular diagnosis of spastic paraplegia 11.

Author

Mademont‐Soler, Irene, Esteba‐Castillo, Susanna, Jiménez‐Xifra, Aida, Alemany, Berta, Ribas‐Vidal, Núria, Cutillas, Maria, Coll, Mònica, Pinsach, Mel·lina, Pagans, Sara, Alcalde, Mireia, Viñas‐Jornet, Marina, Montero‐Vale, Mercedes, de Castro‐Miró, Marta, Rodríguez, Jairo, Armengol, Lluís, Queralt, Xavier, and Obón, María

Subjects

*FAMILIAL spastic paraplegia, *MOLECULAR diagnosis, *PARAPLEGIA, *SINGLE nucleotide polymorphisms, *AGENESIS of corpus callosum, *CORPUS callosum

Abstract

Background: Spastic paraplegia 11 (SPG11) is the most prevalent form of autosomal recessive hereditary spastic paraplegia, resulting from biallelic pathogenic variants in the SPG11 gene (MIM *610844). Methods: The proband is a 36‐year‐old female referred for genetic evaluation due to cognitive dysfunction, gait impairment, and corpus callosum atrophy (brain MRI was normal at 25‐years‐old). Diagnostic approaches included CGH array, next‐generation sequencing, and whole transcriptome sequencing. Results: CGH array revealed a 180 kb deletion located upstream of SPG11. Sequencing of SPG11 uncovered two rare single nucleotide variants: the novel variant c.3143C>T in exon 17 (in cis with the deletion), and the previously reported pathogenic variant c.6409C>T in exon 34 (in trans). Whole transcriptome sequencing revealed that the variant c.3143C>T caused exon 17 skipping. Conclusion: We report a novel sequence variant in the SPG11 gene resulting in exon 17 skipping, which, along with a nonsense variant, causes Spastic Paraplegia 11 in our proband. In addition, a deletion upstream of SPG11 was identified in the patient, whose implication in the phenotype remains uncertain. Nonetheless, the deletion apparently affects cis‐regulatory elements of the gene, suggesting a potential new pathogenic mechanism underlying the disease in a subset of undiagnosed patients. Our findings further support the hypothesis that the origin of thin corpus callosum in patients with SPG11 is of progressive nature. [ABSTRACT FROM AUTHOR]

Published

2024

47. Clinical characteristics of a case of multiple mitochondrial dysfunction syndrome 3.

Author

Xu, Hai, Ma, Kai, Gao, Yuye, Song, Qijun, Chen, Chaojin, Xu, Xiao, Peng, Jiaxi, and Sun, Yan

Subjects

*NONSENSE mutation, *BLOOD lactate, *GENETIC testing, *MITOCHONDRIA, *LANGUAGE acquisition, *FAMILIAL spastic paraplegia, *KNEE

Abstract

Objective: To further comprehend the phenotype of multiple mitochondrial dysfunction syndrome type 3 (MMDS3:OMIM#615330) caused by IBA57 mutation. We present a case involving a patient who experienced acute neurological regression, and the literature was reviewed. Methods: Clinical data and laboratory test results were collected; early language and development progress were tested; and genetic testing was performed. Bioinformatics analysis was performed using Mutation Taster and PolyPhen‐2, and the literature in databases such as PubMed and CNKI was searched using MMDS3 and IBA57 as keywords. Results: The child, aged 1 year and 2 months, had motor decline, unable to sit alone, limited right arm movement, hypotonia, hyperreflexia of both knees, and Babinski sign positivity on the right side, accompanied by nystagmus. Blood lactate levels were elevated at 2.50 mmol/L. Brain MR indicated slight swelling in the bilateral frontoparietal and occipital white matter areas and the corpus callosum, with extensive abnormal signals on T1 and T2 images, along with the semioval center and occipital lobes bilaterally. The multiple abnormal signals in the brain suggested metabolic leukoencephalopathy. Whole‐exome sequencing analysis revealed that the child had two heterozygous mutations in the IBA57 gene, c.286T>C (p.Y96H) (likely pathogenic, LP) and c.992T>A (p.L331Q) (variant of uncertain significance, VUS). As of March 2023, a literature search showed that 56 cases of MMDS3 caused by IBA57 mutation had been reported worldwide, with 35 cases reported in China. Among the 35 IBA57 mutations listed in the HGMD database, there were 28 missense or nonsense mutations, 2 splicing mutations, 2 small deletions, and 3 small insertions. Conclusion: MMDS3 predominantly manifests in infancy, with primary symptoms including feeding difficulties, neurological functional regression, muscle weakness, with severe cases potentially leading to mortality. Diagnosis is supported by elevated lactate levels, multisystem impairment (including auditory and visual systems), and distinctive MRI findings. Whole‐exome sequencing is crucial for diagnosis. Currently, cocktail therapy offers symptomatic relief. [ABSTRACT FROM AUTHOR]

Published

2024

48. Novel ERLIN2 variant expands the phenotype of Spastic Paraplegia 18.

Author

de Souza, Guilherme Carvalho, Malta, Maria Carolina, Santos, Mirele Raíssa Silva, Fontes, Marshall Ítalo Barros, de Sousa Anjos, Juliana Lopes, Ribeiro, Diego Patrício, Kok, Fernando, and Figueiredo, Thalita

Subjects

*PARAPLEGIA, *FAMILIAL spastic paraplegia, *MEDICAL genetics, *PHENOTYPES, *CONSANGUINITY, *GENETIC disorders

Abstract

Background: The Brazilian Northeast region is notable for its high prevalence of consanguineous marriages and isolated populations, which has led to a significant prevalence of rare genetic disorders. This study describes the clinical presentation of four affected individuals from the same family, comprising two siblings and their cousins, with ages ranging from 11 to 20 years. Methods: In a small and isolated community in Northeastern Brazil, affected individuals initially underwent a clinical assessment. Subsequently, written consent was obtained from their legal guardians, and an extensive clinical evaluation was conducted at a medical genetics center. Family data provided the basis for constructing the pedigree, and biological samples (blood or oral swabs) were collected from both affected and unaffected family members. Following informed consent from one patient, Whole Exome Sequencing (WES) was carried out, encompassing exome sequencing, assembly, genotyping, and annotation. A potentially deleterious variant was then singled out for further segregation analysis through Sanger Sequencing, involving both the proband and select family members. Results and conclusion: These individuals exhibit severe neurodevelopmental delays, encompassing symptoms such as spastic paraplegia, neuropathy, intellectual impairments, and language challenges. Through next-generation sequencing (NGS) techniques, a previously unreported homozygous variant within the ERLIN2 gene linked to spastic paraplegia 18 (SPG18) was identified across all four patients. Also, all patients displayed childhood cataract, expanding the known clinical spectrum of SPG18. [ABSTRACT FROM AUTHOR]

Published

2024

49. Concomitant Botulinum Toxin Injections for Neurogenic Detrusor Overactivity and Spasticity—A Retrospective Analysis of Practice and Safety.

Author

Leilaz, Arnaud, Joussain, Charles, Denys, Pierre, Bensmail, Djamel, and Levy, Jonathan

Subjects

*BOTULINUM toxin, *BOTULINUM A toxins, *HEALTH facilities, *INJECTIONS, *SPASTICITY, *FAMILIAL spastic paraplegia

Abstract

As multiple indications for botulinum toxin injections (BTIs) can coexist for neurological patients, there are to date no description of concomitant injections (CIs) to treat both spasticity and neurogenic detrusor overactivity incontinence (NDOI) in patients with spinal cord injuries (SCIs) and multiple sclerosis (MS). We therefore identified patients followed at our institution by health data hub digging, using a specific procedure coding system in use in France, who have been treated at least once with detrusor and skeletal muscle BTIs within the same 1-month period, over the past 5 years (2017–2021). We analyzed 72 patients representing 319 CIs. Fifty (69%) were male, and the patients were mostly SCI (76%) and MS (18%) patients and were treated by a mean number of CIs of 4.4 ± 3.6 [1–14]. The mean cumulative dose was 442.1 ± 98.8 U, and 95% of CIs were performed within a 72 h timeframe. Among all CIs, five patients had symptoms evocative of distant spread but only one had a confirmed pathological jitter in single-fiber EMG. Eleven discontinued CIs for surgical alternatives: enterocystoplasty (five), tenotomy (three), intrathecal baclofen (two) and neurotomy (one). Concomitant BTIs for treating both spasticity and NDOI at the same time appeared safe when performed within a short delay and in compliance with actual knowledge for maximum doses. [ABSTRACT FROM AUTHOR]

Published

2024

50. Supra- and infra-tentorial degeneration patterns in primary lateral sclerosis: a multimodal longitudinal neuroradiology study.

Author

Kleinerova, Jana, Tahedl, Marlene, Tan, Ee Ling, Delaney, Siobhan, Hengeveld, Jennifer C., Doherty, Mark A., McLaughlin, Russell L., Hardiman, Orla, Chang, Kai Ming, Finegan, Eoin, and Bede, Peter

Subjects

*AMYOTROPHIC lateral sclerosis, *CEREBELLAR nuclei, *MOTOR neurons, *MOTOR cortex, *LONGITUDINAL method, *SPASTICITY, *THALAMIC nuclei, *FAMILIAL spastic paraplegia

Abstract

Background: Primary lateral sclerosis (PLS) is traditionally solely associated with progressive upper motor neuron dysfunction manifesting in limb spasticity, gait impairment, bulbar symptoms and pseudobulbar affect. Recent studies have described frontotemporal dysfunction in some patients resulting in cognitive manifestations. Cerebellar pathology is much less well characterised despite sporadic reports of cerebellar disease. Methods: A multi-timepoint, longitudinal neuroimaging study was conducted to characterise the evolution of both intra-cerebellar disease burden and cerebro-cerebellar connectivity. The volumes of deep cerebellar nuclei, cerebellar cortical volumes, cerebro-cerebellar structural and functional connectivity were assessed longitudinally in a cohort of 43 individuals with PLS. Results: Cerebello-frontal, -temporal, -parietal, -occipital and cerebello-thalamic structural disconnection was detected at baseline based on radial diffusivity (RD) and cerebello-frontal decoupling was also evident based on fractional anisotropy (FA) alterations. Functional connectivity changes were also detected in cerebello-frontal, parietal and occipital projections. Volume reductions were identified in the vermis, anterior lobe, posterior lobe, and crura. Among the deep cerebellar nuclei, the dorsal dentate was atrophic. Longitudinal follow-up did not capture statistically significant progressive changes. Significant primary motor cortex atrophy and inter-hemispheric transcallosal degeneration were also captured. Conclusions: PLS is not only associated with upper motor neuron dysfunction, but cerebellar cortical volume loss and deep cerebellar nuclear atrophy can also be readily detected. In addition to intra-cerebellar disease burden, cerebro-cerebellar connectivity alterations also take place. Our data add to the evolving evidence of widespread neurodegeneration in PLS beyond the primary motor regions. Cerebellar dysfunction in PLS is likely to exacerbate bulbar, gait and dexterity impairment and contribute to pseudobulbar affect. [ABSTRACT FROM AUTHOR]

Published

2024