| 51. |
- Bergh, Johan, 1983-
(author)
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Structural investigation of SOD1 aggregates in ALS : identification of prion strains using anti-peptide antibodies
- 2018
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Doctoral thesis (other academic/artistic)abstract
- Amyotrophic Lateral Sclerosis (ALS) is a fatal neurodegenerative syndrome characterized by progressive degeneration of motor neurons that result in muscle wasting. The symptoms advance gradually to paralysis and eventually death. Most patients suffer from sporadic ALS (sALS) but 10% report a familial predisposition. Mutations in the gene encoding superoxide dismutase-1 (SOD1) were the first identified cause of ALS. The disease mechanism is debated but there is a consensus that mutations in this protein confer a cytotoxic gain of function. SOD1 aggregates in motor neurons are hallmarks of ALS both in patients and in transgenic mouse models expressing a mutated form of human SOD1 (hSOD1). Recently, our group showed that SOD1 aggregates are present also in sALS patients, thus indicating a broader involvement of this protein in ALS. Misfolding and aggregation of SOD1 are difficult to study in vivo since aggregate concentration in the central nervous system (CNS) is exceedingly low. The aim of this thesis was to find a method circumventing this problem to investigate the hSOD1 aggregate structure, distribution and spread in ALS disease.Many studies provide circumstantial evidence that the wild-type hSOD1 protein can be neurotoxic. We developed the first homozygous mouse model that highly overexpresses the wild-type enzyme. These mice developed an ALS-like syndrome and become terminally ill after around 370 days. Motor neuron loss and SOD1 aggregate accumulation in the CNS were observed. This lends further support to the hypothesis of a more general involvement of SOD1 in human disease.A panel of polyclonal antibodies covering 90% of the SOD1 protein was developed by our laboratory. These antibodies were shown to be highly specific for misfolded SOD1. Aggregated hSOD1 was purified from the CNS of terminally ill hSOD1 mice. Disordered segments in aggregated hSOD1 could be identified with these antibodies. Two aggregate strains with different structural architectures, molecular properties, and growth kinetics, were found using this novel method. The strains, denoted A and B, were also associated with different disease progression. Aggregates formed in vitro were structurally different from these strains. The results gave rise to questions about aggregate development and possible prion-like spread. To investigate this, inoculations of purified strain A and B hSOD1 seeds was performed in lumbar spinal cords of 100-day old mice carrying a hSOD1G85R mutation. Mice seeded with A or B aggregates developed premature signs of ALS and became terminally ill 200 days earlier than mice inoculated with control preparation. Interestingly, a templated spread of aggregates along the neuraxis was concomitantly observed, with strain A and B provoking the buildup of their respective hSOD1 aggregate structure. The phenotypes initiated by the A and B strains differed regarding progression rates, distribution, end-stage aggregate levels, and histopathology. To further establish the importance of hSOD1 aggregates in human disease, purification and inoculation of aggregate seeds from spinal cords of ALS patients and mice carrying the hSOD1G127X mutation were performed. Inoculation of both human and mouse seeds as described above, induced strain A aggregation and premature fatal ALS-like disease.In conclusion, the data presented in this thesis provide a new, straightforward method for characterization of aggregate strains in ALS, and plausibly also in other neurodegenerative diseases. Two different prion strains of hSOD1 aggregates were identified in mice that resulted in ALS-like disease. Emerging data suggest that prion-like growth and spread of hSOD1 aggregation could be the primary pathogenic mechanism not only in hSOD1 transgenic models, but also in human ALS.
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| 52. |
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| 53. |
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| 54. |
- Burkhardt, Christian, et al.
(author)
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Is survival improved by the use of NIV and PEG in amyotrophic lateral sclerosis (ALS)? : A post-mortem study of 80 ALS patients
- 2017
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In: PLOS ONE. - : Public Library of Science (PLoS). - 1932-6203. ; 12:5
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Journal article (peer-reviewed)abstract
- Background: Non-invasive ventilation (NIV) and percutaneous gastrostomy (PEG) are guideline-recommended interventions for symptom management in amyotrophic lateral sclerosis (ALS). Their effect on survival is controversial and the impact on causes of death is unknown.Objective: To investigate the effect of NIV and PEG on survival and causes of death in ALS patients.Methods: Eighty deceased ALS patients underwent a complete post mortem analysis for causes of death between 2003 and 2015. Forty-two of these patients consented for genetic testing. Effects of NIV and PEG on survival and causes of death were analyzed in a multivariable Cox proportional hazard regression.Results: Six patients, who requested assisted suicide causing drug-induced hypoxia, were excluded from final analysis. Respiratory failure was the main cause of death in 72 out of 74 patients. Fifteen out of 74 died of aspiration pneumonia 23/74 of bronchopneumonia and 8/74 of a combination of aspiration pneumonia and bronchopneumonia. Twenty died of hypoxia without concomitant infection, and six patients had pulmonary embolism alone or in combination with pneumonia. NIV (p = 0.01) and PEG (p<0.01) had a significant impact on survival. In patients using NIV bronchopneumonia was significantly more frequent (p <0.04) compared to non-NIV patients. This effect was even more pronounced in limb onset patients (p<0.002). Patients with C9orf72 hexanucleotide repeat expansions showed faster disease progression and shorter survival (p = 0.01).Conclusion: The use of NIV and PEG prolongs survival in ALS. This study supports current AAN and EFNS guidelines which recommend NIV and PEG as a treatment option in ALS. The risk of bronchopneumonia as cause of death may be increased by NIV.
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| 55. |
- Canosa, Antonio, et al.
(author)
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A novel p.Ser108LeufsTer15 SOD1 mutation leading to the formation of a premature stop codon in an apparently sporadic ALS patient : insights into the underlying pathomechanisms
- 2018
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In: Neurobiology of Aging. - : Elsevier. - 0197-4580 .- 1558-1497. ; 72
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Journal article (peer-reviewed)abstract
- We report an apparently sporadic amyotrophic lateral sclerosis patient carrying a heterozygous novel frameshift SOD1 mutation (p.Ser108LeufsTer15), predicted to cause a premature protein truncation. RTPCR analysis of SOD1 mRNA and SDS-PAGE/Western blot analysis of PBMC demonstrated that mRNA from the mutant allele is expressed at levels similar to those of the wild-type allele, but the truncated protein is undetectable also in the insoluble fraction and after proteasome inhibition. Accordingly, the dismutation activity in erythrocytes is halved. Thus, the pathogenic mechanism associated with this mutation might be based on an insufficient activity of SOD1 that would make motor neurons more vulnerable to oxidative injury. However, it cannot be excluded that p.Ser108LeufsTer15 SOD1 is present in the nervous tissue and, being less charged and hence having less repulsive forces than the wild-type protein, may trigger toxic mechanisms as a consequence of its propensity to aggregate.
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| 56. |
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| 57. |
- De Carvalho, Mamede, et al.
(author)
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International Survey of ALS Experts about Critical Questions for Assessing Patients with ALS
- 2017
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In: Amyotrophic Lateral Sclerosis and Frontotemporal Degeneration. - : Taylor & Francis. - 2167-8421 .- 2167-9223. ; 18:7-8, s. 505-510
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Journal article (peer-reviewed)abstract
- Objective: To define an applicable dataset for ALS patient registries we weighted specific clinical items as scored by worldwide ALS experts.Methods: Sixty participants were invited based on relevant clinical work, publications and personal acquaintance. They rated 160 clinical items consensually agreed by the members of our project, incorporating specialists from five European Centres. Scoring scheme was defined as: 1 - essential; 2 - important; 3 - not very important. A mixed effect model was applied to rank items and to find possible correlations with geographical region (Europe vs. outside Europe).Results: We received 40 responses, 20 from Europe and 20 from outside; 42/160 data were scored as essential by >50% of the respondents, including: date of birth, gender, date of disease onset, date of diagnosis, ethnicity, region of onset, predominant upper neuron (UMN) or lower motor neuron (LMN) impairment, proximal versus distal weakness, respiratory symptoms, dysarthria, weight loss, signs of LMN/UMN involvement, emotional incontinence, cognitive changes, respiratory signs, neck weakness, body mass index, ALSFRS-R at entry, ALSFRS-R subscores at entry, timing and pattern of spreading and staging, electromyography, spirometry, MRI, CK level, riluzole intake, genetic background, history of physical exercise and previous and current main occupation. Four components were scored as non-relevant, including place of birth, blood pressure and pain at onset. There was no significant difference between regions (European vs. non-European countries).Conclusions: Our study identified a consensual set of clinical data with 42 specific items that can be used as a minimal data set for patient registers and for clinical trials.
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| 58. |
- Ekhtiari Bidhendi, Elaheh, et al.
(author)
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Mutant superoxide dismutase aggregates from human spinal cord transmit amyotrophic lateral sclerosis
- 2018
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In: Acta Neuropathologica. - : Springer. - 0001-6322 .- 1432-0533. ; 136:6, s. 939-953
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Journal article (peer-reviewed)abstract
- Motor neurons containing aggregates of superoxide dismutase 1 (SOD1) are hallmarks of amyotrophic lateral sclerosis (ALS) caused by mutations in the gene encoding SOD1. We have previously reported that two strains of mutant human (h) SOD1 aggregates (denoted A and B) can arise in hSOD1-transgenic models for ALS and that inoculation of such aggregates into the lumbar spinal cord of mice results in rostrally spreading, templated hSOD1 aggregation and premature fatal ALS-like disease. Here, we explored whether mutant hSOD1 aggregates with prion-like properties also exist in human ALS. Aggregate seeds were prepared from spinal cords from an ALS patient carrying the hSOD1G127Gfs*7 truncation mutation and from mice transgenic for the same mutation. To separate from mono-, di- or any oligomeric hSOD1 species, the seed preparation protocol included ultracentrifugation through a density cushion. The core structure of hSOD1G127Gfs*7 aggregates present in mice was strain A-like. Inoculation of the patient- or mouse-derived seeds into lumbar spinal cord of adult hSOD1-expressing mice induced strain A aggregation propagating along the neuraxis and premature fatal ALS-like disease (p < 0.0001). Inoculation of human or murine control seeds had no effect. The potencies of the ALS patient-derived seed preparations were high and disease was initiated in the transgenic mice by levels of hSOD1G127Gfs*7 aggregates much lower than those found in the motor system of patients carrying the mutation. The results suggest that prion-like growth and spread of hSOD1 aggregation could be the primary pathogenic mechanism, not only in hSOD1 transgenic rodent models, but also in human ALS.
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| 59. |
- Ekhtiari Bidhendi, Elaheh, 1986-
(author)
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SOD1 prions transmit templated aggregation and fatal ALS-like disease
- 2019
-
Doctoral thesis (other academic/artistic)abstract
- Amyotrophic lateral sclerosis (ALS) is an adult-onset fatal neurodegenerative disease characterized by a progressive degeneration of the upper and lower motor neurons. The resulting paresis begins focally, usually in one muscle, and spreads contiguously, leading to muscle wasting, progressive paralysis and eventually death. 90% of all ALS cases are sporadic, with no genetic background (sALS), while 10% are hereditary or familial (fALS). The first identified cause of ALS was mutations in the gene encoding the enzyme superoxide dismutase 1 (SOD1), which are found in 3-6% of the ALS patients. Mutations in SOD1 confer a cytotoxic gain of function on the enzyme. Cytosolic inclusions containing aggregated SOD1 in motor neurons are a hallmark of ALS, both in patients and transgenic (Tg) mice carrying mutant human SOD1s (hSOD1). These inclusions have also been reported in sporadic and familial ALS cases without SOD1 mutations, suggesting a broader role of this protein in the ALS pathology. However, the mechanism of SOD1 misfolding and aggregation, and their contribution to the disease pathogenesis, is unclear.Our research group has recently identified two structurally different strains of hSOD1 aggregates (denoted A and B) in the central nervous system of Tg murine models expressing full-length hSOD1 variants.The aim of this thesis is to investigate if the SOD1 aggregation is a collateral byproduct in the process of the disease, or if it drives ALS pathogenesis. In addition, this work investigates the spreading characteristic of the disease in vivo.Human SOD1 A and B seeds were prepared from spinal cords of terminally ill hSOD1 Tg mice by ultracentrifugation through a density gradient. Minute amounts of the aggregate seeds were micro-inoculated into the lumbar spinal cord of asymptomatic recipient Tg mice, overexpressing G85R mutant hSOD1 (hSOD1G85R). Mice inoculated with A or B aggregates developed early-onset fatal ALS-like disease, becoming terminally ill around 100 days after inoculation. This is nearly 200 days earlier than hSOD1G85R Tg mice inoculated with a control preparation or non-inoculated mice. Concomitantly, exponentially growing templated hSOD1 aggregation developed in the recipient mice, spreading all along the neuraxis. The pathology provoked by the A and B strains differed in aggregation growth rates, disease progression rates, aggregate distribution along the neuraxis, rates of weight loss, end-stage amounts of aggregates, and histopathology.Next, we explored the existence of mutant hSOD1 aggregates with prion-like properties in the spinal cord of ALS patients. To this end, aggregate seeds were prepared from the spinal cord of the autopsy material of an ALS patient carrying the hSOD1G127X truncation mutation, as well as from mice transgenic for the same mutation. The aggregates showed a strain A-like core structure. Inoculation of both the murine and human derived seeds into the lumbar spinal cord of hSOD1 expressing mice efficiently transmitted strain A aggregation, propagating rostrally throughout the neuraxis and causing premature fatal ALS-like disease. The inoculation of human or murine control seeds had no effect. The potency of the ALS patient-derived seed was exceedingly high, and the disease was initiated under conditions plausible to exist also in the human motor system. These results demonstrate for the first time, the presence of hSOD1 aggregates with prion-like properties in human ALS.We extended the exploration of hSOD1 prion mechanisms by inoculating another recipient mouse line, with wild-type-like stability and essentially normal SOD activity. Mice that are hemizygous for the hSOD1D90A transgene insertion do not develop ALS pathology and have normal murine lifespans (>700 days). Homozygous mice develop ALS-like disease around 400 days-of-age. Interestingly, inoculations of both strain A and B seeds into the lumbar spinal cord of hemizygous hSOD1D90A mice induced progressive hSOD1 aggregations and premature fatal ALS-like disease after around 250 and 350 days, respectively. In contrast, hemizygous hSOD1D90A mice inoculated with a mouse control seed died from senescence-related causes at ages beyond 700 days.Altogether, data in this thesis shows that the hSOD1 aggregate strains are ALS transmitting prions, suggesting that prion-like growth and spread of hSOD1 aggregation is the core pathogenic mechanism of SOD1-induced ALS.
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| 60. |
- Ekhtiari Bidhendi, Elaheh, et al.
(author)
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Two superoxide dismutase prion strains transmit amyotrophic lateral sclerosis-like disease
- 2016
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In: Journal of Clinical Investigation. - 0021-9738 .- 1558-8238. ; 126:6, s. 2249-2253
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Journal article (peer-reviewed)abstract
- Amyotrophic lateral sclerosis (ALS) is an adult-onset degeneration of motor neurons that is commonly caused by mutations in the gene encoding superoxide dismutase 1 (SOD1). Both patients and Tg mice expressing mutant human SOD1 (hSOD1) develop aggregates of unknown importance. In Tg mice, 2 different strains of hSOD1 aggregates (denoted A and B) can arise; however, the role of these aggregates in disease pathogenesis has not been fully characterized. Here, minute amounts of strain A and B hSOD1 aggregate seeds that were prepared by centrifugation through a density cushion were inoculated into lumbar spinal cords of 100-day-old mice carrying a human SOD1 Tg. Mice seeded with A or B aggregates developed premature signs of ALS and became terminally ill after approximately 100 days, which is 200 days earlier than for mice that had not been inoculated or were given a control preparation. Concomitantly, exponentially growing strain A and B hSOD1 aggregations propagated rostrally throughout the spinal cord and brainstem. The phenotypes provoked by the A and B strains differed regarding progression rates, distribution, end-stage aggregate levels, and histopathology. Together, our data indicate that the aggregate strains are prions that transmit a templated, spreading aggregation of hSOD1, resulting in a fatal ALS-like disease.
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