Transmission of multiple system atrophy prions to transgenic mice

Watts, Joel C.; Giles, Kurt; Oehler, Abby; Middleton, Lefkos; Dexter, David T.; Gentleman, Steve; DeArmond, Stephen J.; Prusiner, Stanley B.

doi:10.1073/pnas.1318268110

Cited by 383 publications

(452 citation statements)

References 49 publications

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“…In both cases, αS pathology is associated with a rapidly progressive motor phenotype that is subtly distinct from that in untreated, aged M83 Tg mice due to the initial foot drop presentation and the heightened neuroinflammatory response. From our findings, IM injections appear to induce a more rapid lethal motor phenotype (50-120 d incubation time) than reported in some studies where either homozygous or hemizygous M83 Tg were intracerebrally inoculated with CNS extracts from symptomatic M83 Tg (∼200 d incubation time) (23,24). However, Luk et al (21) reported that, in similar M83 Tg CNS extract transmission studies or with intracerebral injection of recombinant fib αS in homozygous M83 Tg mice, the incubation time to cause motor impairments was closer to what we observed resulting from IM injection of fib αS (i.e., ∼100 d) (21).…”

Section: Discussionsupporting

confidence: 43%

“…Our ability to now synchronously and rapidly induce a motor phenotype and αS pathology by a peripheral injection of αS may prove invaluable in future studies exploring mechanisms of pathology induction and αS toxicity and may extend recent studies showing rapid induction following intracerebral inoculation (21)(22)(23)(24)(25)(26). Our finding that disease onset in M83 Tg mice can be shortened, predicted, and synchronized through a simple manipulation provides a valuable model to accelerate studies designed to fully understand the mechanisms underlying induction of the inclusion pathology and motor phenotype, but also to enable much more rapid and cost-effective preclinical testing of novel PD therapies.…”

Section: Discussionmentioning

confidence: 95%

“…And it has been suggested that αS pathology might originate in the nerves of the PNS and spread to the CNS (14). Experimentally, it has been reported that intracerebral injections of preformed amyloidogenic αS fibrils in nontransgenic (nTg) and αS transgenic (Tg) mice induce the formation of intracellular αS inclusions that appear to progress from the site of injection (21)(22)(23)(24)(25)(26). Collectively, these studies support the notion that αS inclusion pathology may propagate via a prion-like conformational self-templating mechanism (27,28).…”

mentioning

confidence: 99%

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Intramuscular injection of α-synuclein induces CNS α-synuclein pathology and a rapid-onset motor phenotype in transgenic mice

Sacino¹,

Brooks²,

Thomas³

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

289

343

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It has been hypothesized that α-synuclein (αS) misfolding may begin in peripheral nerves and spread to the central nervous system (CNS), leading to Parkinson disease and related disorders. Although recent data suggest that αS pathology can spread within the mouse brain, there is no direct evidence for spread of disease from a peripheral site. In the present study, we show that hind limb intramuscular (IM) injection of αS can induce pathology in the CNS in the human Ala53Thr (M83) and wild-type (M20) αS transgenic (Tg) mouse models. Within 2-3 mo after IM injection in αS homozygous M83 Tg mice and 3-4 mo for hemizygous M83 Tg mice, these animals developed a rapid, synchronized, and predictable induction of widespread CNS αS inclusion pathology, accompanied by astrogliosis, microgliosis, and debilitating motor impairments. In M20 Tg mice, starting at 4 mo after IM injection, we observed αS inclusion pathology in the spinal cord, but motor function remained intact. Transection of the sciatic nerve in the M83 Tg mice significantly delayed the appearance of CNS pathology and motor symptoms, demonstrating the involvement of retrograde transport in inducing αS CNS inclusion pathology. Outside of scrapie-mediated prion disease, to our knowledge, this findiing is the first evidence that an entire neurodegenerative proteinopathy associated with a robust, lethal motor phenotype can be initiated by peripheral inoculation with a pathogenic protein. Furthermore, this facile, synchronized rapid-onset model of α-synucleinopathy will be highly valuable in testing disease-modifying therapies and dissecting the mechanism(s) that drive αS-induced neurodegeneration.amyloid | Parkinson disease S ynucleinopathies are a group of diseases defined by the presence of amyloidogenic α-synuclein (αS) inclusions that can occur in neurons and glia of the central nervous system (CNS) (1-4). In Parkinson disease (PD), a causative role for αS has been established via the discovery of mutations in the αS gene SNCA resulting in autosomal-dominant PD (4-11). Although αS inclusions (e.g., Lewy bodies) are the hallmark pathology of PD, how they contribute to disease pathogenesis remains controversial (1,3,4,12).Postmortem studies have suggested that αS pathology may spread following neuroanatomical tracts (13-15) and between cells (16-18). αS pathology has also been found in the peripheral nervous system (PNS): for example, in the enteric and pelvic plexus (19,20). And it has been suggested that αS pathology might originate in the nerves of the PNS and spread to the CNS (14). Experimentally, it has been reported that intracerebral injections of preformed amyloidogenic αS fibrils in nontransgenic (nTg) and αS transgenic (Tg) mice induce the formation of intracellular αS inclusions that appear to progress from the site of injection (21-26). Collectively, these studies support the notion that αS inclusion pathology may propagate via a prion-like conformational self-templating mechanism (27, 28). A caveat of the direct intracerebral injection of αS is tha...

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Section: Discussionsupporting

confidence: 43%

Section: Discussionmentioning

confidence: 95%

mentioning

confidence: 99%

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Intramuscular injection of α-synuclein induces CNS α-synuclein pathology and a rapid-onset motor phenotype in transgenic mice

Sacino¹,

Brooks²,

Thomas³

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

289

343

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“…4 A and B). This coexistence distinguishes the hSOD1 D90A mice from previous disease models where the variation of strains is typically observed between individuals (1,34,35,41). Even so, the hSOD1 D90A mice highlight the notion that strain variation influences pathology, as previously observed for prions (27,28), and in patients and models for synucleopathies (33), Alzheimer's disease (1,35,36), and tauopathies (34).…”

Section: Discussionmentioning

confidence: 50%

Structural and kinetic analysis of protein-aggregate strains in vivo using binary epitope mapping

Bergh¹,

Zetterström²,

Andersen

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

108

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Despite considerable progress in uncovering the molecular details of protein aggregation in vitro, the cause and mechanism of protein-aggregation disease remain poorly understood. One reason is that the amount of pathological aggregates in neural tissue is exceedingly low, precluding examination by conventional approaches. We present here a method for determination of the structure and quantity of aggregates in small tissue samples, circumventing the above problem. The method is based on binary epitope mapping using anti-peptide antibodies. We assessed the usefulness and versatility of the method in mice modeling the neurodegenerative disease amyotrophic lateral sclerosis, which accumulate intracellular aggregates of superoxide dismutase-1. Two strains of aggregates were identified with different structural architectures, molecular properties, and growth kinetics. Both were different from superoxide dismutase-1 aggregates generated in vitro under a variety of conditions. The strains, which seem kinetically under fragmentation control, are associated with different disease progressions, complying with and adding detail to the growing evidence that seeding, infectivity, and strain dependence are unifying principles of neurodegenerative disease.

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“…These observations suggest that LBs serve as quality-control compartments that enable efficient digestion of toxic a-synuclein assemblies. Recent studies show that a-synuclein prionlike assemblies cause multiple system atrophy, which shares many features observed in PD (Watts et al 2013;Prusiner et al 2015).…”

Section: The Deposition Of Aggregates Is a Hallmark Of Neurodegeneratmentioning

confidence: 82%

Protein Quality Control in Health and Disease

Dubnikov

Ben‐Gedalya

Cohen

2016

Cold Spring Harb Perspect Biol

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Maintaining functional protein homeostasis ( proteostasis) is a constant challenge in the face of limited protein-folding capacity, environmental threats, and aging. Cells have developed several quality-control mechanisms that assist nascent polypeptides to fold properly, clear misfolded molecules, respond to the accumulation of protein aggregates, and deposit potentially toxic conformers in designated sites. Proteostasis collapse can lead to the development of diseases known as proteinopathies. Here we delineate the current knowledge on the different layers of protein quality-control mechanisms at the organelle and cellular levels with an emphasis on the prion protein (PrP). We also describe how protein quality control is integrated at the organismal level and discuss future perspectives on utilizing proteostasis maintenance as a strategy to develop novel therapies for the treatment of proteinopathies.

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Transmission of multiple system atrophy prions to transgenic mice

Cited by 383 publications

References 49 publications

Intramuscular injection of α-synuclein induces CNS α-synuclein pathology and a rapid-onset motor phenotype in transgenic mice

Intramuscular injection of α-synuclein induces CNS α-synuclein pathology and a rapid-onset motor phenotype in transgenic mice

Structural and kinetic analysis of protein-aggregate strains in vivo using binary epitope mapping

Protein Quality Control in Health and Disease

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