Mutant superoxide dismutase aggregates from human spinal cord transmit amyotrophic lateral sclerosis

Elaheh Ekhtiari Bidhendi; Johan Bergh; Per Zetterström; Karin Forsberg; Bente Pakkenberg; Peter M. Andersen; Stefan L. Marklund; Thomas Brännström

doi:10.1007/s00401-018-1915-y

Mutant superoxide dismutase aggregates from human spinal cord transmit amyotrophic lateral sclerosis

Elaheh Ekhtiari Bidhendi, Johan Bergh, Per Zetterström, Karin Forsberg, Bente Pakkenberg, Peter M. Andersen, Stefan L. Marklund^*, Thomas Brännström

^*Corresponding author for this work

Department of Clinical Medicine

19 Citations (Scopus)

40 Downloads (Pure)

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 hSOD1 ^G127Gfs*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 hSOD1 ^G127Gfs*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 hSOD1 ^G127Gfs*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.

Original language	English
Journal	Acta Neuropathologica
Volume	136
Issue number	6
Pages (from-to)	939-953
Number of pages	15
ISSN	0001-6322
DOIs	https://doi.org/10.1007/s00401-018-1915-y
Publication status	Published - 2018

Keywords

Aggregation
Motor neuron disease
Prion-like
Propagation
Superoxide dismutase

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10.1007/s00401-018-1915-y

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title = "Mutant superoxide dismutase aggregates from human spinal cord transmit amyotrophic lateral sclerosis",

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 hSOD1 G127Gfs*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 hSOD1 G127Gfs*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 hSOD1 G127Gfs*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. ",

keywords = "Aggregation, Motor neuron disease, Prion-like, Propagation, Superoxide dismutase",

author = "{Ekhtiari Bidhendi}, Elaheh and Johan Bergh and Per Zetterstr{\"o}m and Karin Forsberg and Bente Pakkenberg and Andersen, {Peter M.} and Marklund, {Stefan L.} and Thomas Br{\"a}nnstr{\"o}m",

year = "2018",

doi = "10.1007/s00401-018-1915-y",

language = "English",

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T1 - Mutant superoxide dismutase aggregates from human spinal cord transmit amyotrophic lateral sclerosis

AU - Ekhtiari Bidhendi, Elaheh

AU - Bergh, Johan

AU - Zetterström, Per

AU - Forsberg, Karin

AU - Pakkenberg, Bente

AU - Andersen, Peter M.

AU - Marklund, Stefan L.

AU - Brännström, Thomas

PY - 2018

Y1 - 2018

N2 - 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 hSOD1 G127Gfs*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 hSOD1 G127Gfs*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 hSOD1 G127Gfs*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.

AB - 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 hSOD1 G127Gfs*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 hSOD1 G127Gfs*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 hSOD1 G127Gfs*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.

KW - Aggregation

KW - Motor neuron disease

KW - Prion-like

KW - Propagation

KW - Superoxide dismutase

U2 - 10.1007/s00401-018-1915-y

DO - 10.1007/s00401-018-1915-y

M3 - Journal article

C2 - 30284034

AN - SCOPUS:85054524158

SN - 0001-6322

VL - 136

SP - 939

EP - 953

JO - Acta Neuropathologica

JF - Acta Neuropathologica

IS - 6

ER -

Mutant superoxide dismutase aggregates from human spinal cord transmit amyotrophic lateral sclerosis

Abstract

Keywords

UN SDGs

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