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Acta Neuropathologica Communications
Published in: Acta Neuropathologica Communications 1/2018

Open Access 01-12-2018 | Research

Progressive striatonigral degeneration in a transgenic mouse model of multiple system atrophy: translational implications for interventional therapies

Authors: Violetta Refolo, Francesco Bez, Alexia Polissidis, Daniela Kuzdas-Wood, Edith Sturm, Martina Kamaratou, Werner Poewe, Leonidas Stefanis, M. Angela Cenci, Marina Romero-Ramos, Gregor K. Wenning, Nadia Stefanova

Published in: Acta Neuropathologica Communications | Issue 1/2018

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Abstract

Multiple system atrophy (MSA) is a rapidly progressive neurodegenerative disorder characterized by widespread oligodendroglial cytoplasmic inclusions of filamentous α-synuclein, and neuronal loss in autonomic centres, basal ganglia and cerebellar circuits. It has been suggested that primary oligodendroglial α-synucleinopathy may represent a trigger in the pathogenesis of MSA, but the mechanisms underlying selective vulnerability and disease progression are unclear. The post-mortem analysis of MSA brains provides a static final picture of the disease neuropathology, but gives no clear indication on the sequence of pathogenic events in MSA. Therefore, alternative methods are needed to address these issues. We investigated selective vulnerability and disease progression in the transgenic PLP-α-syn mouse model of MSA characterized by targeted oligodendroglial α-synuclein overexpression aiming to provide a neuropathological correlate of motor deterioration. We show progressive motor deficits that emerge at 6 months of age and deteriorate up to 18 months of follow-up. The motor phenotype was associated with dopaminergic cell loss in the substantia nigra pars compacta at 6 months, followed by loss of striatal dopaminergic terminals and DARPP32-positive medium sized projection neurons at 12 months. Olivopontocerebellar motor loops remained spared in the PLP-α-syn model of MSA. These findings replicate progressive striatonigral degeneration underlying Parkinson-variant MSA. The initiation of the degenerative process was linked to an increase of soluble oligomeric α-synuclein species between 2 and 6 months. Early region-specific α-synuclein-associated activation profile of microglia was found in MSA substantia nigra. The role of abnormal neuroinflammatory signalling in disease progression was further supported by increased levels of CD68, CCL3, CCL5 and M-CSF with a peak in aged PLP-α-syn mice. In summary, transgenic PLP-α-syn mice show a distinctive oligodendroglial α-synucleinopathy that is associated with progressive striatonigral degeneration linked to abnormal neuroinflammatory response. The model provides a relevant tool for preclinical therapeutic target discovery for human Parkinson-variant MSA.
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Literature
1.
Anderson JP, Walker DE, Goldstein JM, de Laat R, Banducci K, Caccavello RJ, Barbour R, Huang J, Kling K, Lee M, Diep L, Keim PS, Shen X, Chataway T, Schlossmacher MG, Seubert P, Schenk D, Sinha S, Gai WP, Chilcote TJ (2006) Phosphorylation of Ser-129 is the dominant pathological modification of alpha-synuclein in familial and sporadic Lewy body disease. J Biol Chem 281:29739–29752CrossRefPubMed
2.
Asi YT, Simpson JE, Heath PR, Wharton SB, Lees AJ, Revesz T, Houlden H, Holton JL (2014) Alpha-synuclein mRNA expression in oligodendrocytes in MSA. Glia 62:964–970CrossRefPubMedPubMedCentral
3.
Barkholt P, Sanchez-Guajardo V, Kirik D, Romero-Ramos M (2012) Long-term polarization of microglia upon alpha-synuclein overexpression in nonhuman primates. Neuroscience 208:85–96CrossRefPubMed
4.
Bassil F, Guerin PA, Dutheil N, Li Q, Klugmann M, Meissner WG, Bezard E, Fernagut PO (2017) Viral-mediated oligodendroglial alpha-synuclein expression models multiple system atrophy. Mov Disord 32:1230–1239CrossRefPubMed
5.
Benarroch EE (2003) Brainstem in multiple system atrophy: clinicopathological correlations. Cell Mol Neurobiol 23:519–526CrossRefPubMed
6.
Bliederhaeuser C, Grozdanov V, Speidel A, Zondler L, Ruf WP, Bayer H, Kiechle M, Feiler MS, Freischmidt A, Brenner D, Witting A, Hengerer B, Fandrich M, Ludolph AC, Weishaupt JH, Gillardon F, Danzer KM (2016) Age-dependent defects of alpha-synuclein oligomer uptake in microglia and monocytes. Acta Neuropathol 131:379–391CrossRefPubMed
7.
Boudes M, Uvin P, Pinto S, Voets T, Fowler CJ, Wenning GK, De RD, Stefanova N (2013) Bladder dysfunction in a transgenic mouse model of multiple system atrophy. Mov Disord 28:347–355CrossRefPubMedPubMedCentral
8.
Brudek T, Winge K, Rasmussen NB, Bahl JM, Tanassi J, Agander TK, Hyde TM, Pakkenberg B (2016) Altered alpha-synuclein, parkin, and synphilin isoform levels in multiple system atrophy brains. J Neurochem 136:172–185CrossRefPubMed
9.
Chandra G, Rangasamy SB, Roy A, Kordower JH, Pahan K (2016) Neutralization of RANTES and Eotaxin prevents the loss of Dopaminergic neurons in a mouse model of Parkinson disease. J Biol Chem 291:15267–15281CrossRefPubMedPubMedCentral
10.
Cykowski MD, Coon EA, Powell SZ, Jenkins SM, Benarroch EE, Low PA, Schmeichel AM, Parisi JE (2015) Expanding the spectrum of neuronal pathology in multiple system atrophy. Brain 138:2293–2309CrossRefPubMedPubMedCentral
11.
Dodel R, Spottke A, Gerhard A, Reuss A, Reinecker S, Schimke N, Trenkwalder C, Sixel-Doring F, Herting B, Kamm C, Gasser T, Sawires M, Geser F, Kollensperger M, Seppi K, Kloss M, Krause M, Daniels C, Deuschl G, Bottger S, Naumann M, Lipp A, Gruber D, Kupsch A, Du Y, Turkheimer F, Brooks DJ, Klockgether T, Poewe W, Wenning G, Schade-Brittinger C, Oertel WH, Eggert K (2010) Minocycline 1-year therapy in multiple-system-atrophy: effect on clinical symptoms and [(11)C] (R)-PK11195 PET (MEMSA-trial). Mov Disord 25:97–107CrossRefPubMed
12.
Doorn KJ, Breve JJ, Drukarch B, Boddeke HW, Huitinga I, Lucassen PJ, van Dam AM (2015) Brain region-specific gene expression profiles in freshly isolated rat microglia. Front Cell Neurosci 9:84CrossRefPubMedPubMedCentral
13.
14.
Fearnley JM, Lees AJ (1990) Striatonigral degeneration. A clinicopathological study. Brain 113(Pt 6):1823–1842CrossRefPubMed
15.
Fellner L, Irschick R, Schanda K, Reindl M, Klimaschewski L, Poewe W, Wenning GK, Stefanova N (2013) Toll-like receptor 4 is required for alpha-synuclein dependent activation of microglia and astroglia. Glia 61:349–360CrossRefPubMedPubMedCentral
16.
Fellner L, Jellinger KA, Wenning GK, Stefanova N (2011) Glial dysfunction in the pathogenesis of alpha-synucleinopathies: emerging concepts. Acta Neuropathol 121:675–693CrossRefPubMedPubMedCentral
17.
Fernagut PO, Diguet E, Stefanova N, Biran M, Wenning GK, Canioni P, Bioulac B, Tison F (2002) Subacute systemic 3-nitropropionic acid intoxication induces a distinct motor disorder in adult C57B1/6 mice: Behavioural and histopathological characterisation. Neuroscience 114:1005–1017CrossRefPubMed
18.
Fernagut PO, Meissner WG, Biran M, Fantin M, Bassil F, Franconi JM, Tison F (2014) Age-related motor dysfunction and neuropathology in a transgenic mouse model of multiple system atrophy. Synapse 68:98–106CrossRefPubMed
19.
Flabeau O, Meissner WG, Ozier A, Berger P, Tison F, Fernagut PO (2014) Breathing variability and brainstem serotonergic loss in a genetic model of multiple system atrophy. Mov Disord 29:388–395CrossRefPubMed
20.
Franklin KBJ, Paxinos G (1997) The mouse brain in stereotaxic coordinates. Academic Press, New York
21.
Fujiwara H, Hasegawa M, Dohmae N, Kawashima A, Masliah E, Goldberg MS, Shen J, Takio K, Iwatsubo T (2002) Alpha-Synuclein is phosphorylated in synucleinopathy lesions. Nat Cell Biol 4:160–164CrossRefPubMed
22.
German DC, Quintero EM, Liang C, Xie C, Dietschy JM (2001) Degeneration of neurons and glia in the Niemann-pick C mouse is unrelated to the low-density lipoprotein receptor. Neuroscience 105:999–1005CrossRefPubMed
23.
Gilman S, Wenning GK, Low PA, Brooks DJ, Mathias CJ, Trojanowski JQ, Wood NW, Colosimo C, Durr A, Fowler CJ, Kaufmann H, Klockgether T, Lees A, Poewe W, Quinn N, Revesz T, Robertson D, Sandroni P, Seppi K, Vidailhet M (2008) Second consensus statement on the diagnosis of multiple system atrophy. Neurology 71:670–676CrossRefPubMedPubMedCentral
24.
Halliday GM, Holton JL, Revesz T, Dickson DW (2011) Neuropathology underlying clinical variability in patients with synucleinopathies. Acta Neuropathol 122:187–204CrossRefPubMed
25.
Halliday GM, Stevens CH (2011) Glia: initiators and progressors of pathology in Parkinson's disease. Mov Disord 26:6–17CrossRefPubMed
26.
Hartner L, Keil TW, Kreuzer M, Fritz EM, Wenning GK, Stefanova N, Fenzl T (2016) Distinct parameters in the EEG of the PLP alpha-SYN mouse model for multiple system atrophy reinforce face validity. Front Behav Neurosci 10:252PubMed
27.
Hasegawa-Ishii S, Takei S, Chiba Y, Furukawa A, Umegaki H, Iguchi A, Kawamura N, Yoshikawa K, Hosokawa M, Shimada A (2011) Morphological impairments in microglia precede age-related neuronal degeneration in senescence-accelerated mice. Neuropathology 31:20–28CrossRefPubMed
28.
Ishizawa K, Komori T, Arai N, Mizutani T, Hirose T (2008) Glial cytoplasmic inclusions and tissue injury in multiple system atrophy: a quantitative study in white matter (olivopontocerebellar system) and gray matter (nigrostriatal system). Neuropathology 28:249–257CrossRefPubMed
29.
Ishizawa K, Komori T, Sasaki S, Arai N, Mizutani T, Hirose T (2004) Microglial activation parallels system degeneration in multiple system atrophy. J Neuropathol Exp Neurol 63:43–52CrossRefPubMed
30.
Jecmenica-Lukic M, Poewe W, Tolosa E, Wenning GK (2012) Premotor signs and symptoms of multiple system atrophy. Lancet Neurol 11:361–368CrossRefPubMed
31.
Jellinger KA, Lantos PL (2010) Papp-Lantos inclusions and the pathogenesis of multiple system atrophy: an update. Acta Neuropathol 119:657–667CrossRefPubMed
32.
Kahle PJ, Neumann M, Ozmen L, Muller V, Jacobsen H, Spooren W, Fuss B, Mallon B, Macklin WB, Fujiwara H, Hasegawa M, Iwatsubo T, Kretzschmar HA, Haass C (2002) Hyperphosphorylation and insolubility of alpha-synuclein in transgenic mouse oligodendrocytes. EMBO Rep 3:583–588CrossRefPubMedPubMedCentral
33.
Kovacs GG, Wagner U, Dumont B, Pikkarainen M, Osman AA, Streichenberger N, Leisser I, Verchere J, Baron T, Alafuzoff I, Budka H, Perret-Liaudet A, Lachmann I (2012) An antibody with high reactivity for disease-associated alpha-synuclein reveals extensive brain pathology. Acta Neuropathol 124:37–50CrossRefPubMed
34.
35.
Kuzdas D, Stemberger S, Gaburro S, Stefanova N, Singewald N, Wenning GK (2013) Oligodendroglial alpha-synucleinopathy and MSA-like cardiovascular autonomic failure: experimental evidence. Exp Neurol 247:531–536CrossRefPubMedPubMedCentral
36.
Mandel RJ, Marmion DJ, Kirik D, Chu Y, Heindel C, McCown T, Gray SJ, Kordower JH (2017) Novel oligodendroglial alpha synuclein viral vector models of multiple system atrophy: studies in rodents and nonhuman primates. Acta Neuropathol Commun 5:47CrossRefPubMedPubMedCentral
37.
38.
Matcovitch-Natan O, Winter DR, Giladi A, Vargas AS, Spinrad A, Sarrazin S, Ben-Yehuda H, David E, Zelada GF, Perrin P, Keren-Shaul H, Gury M, Lara-Astaiso D, Thaiss CA, Cohen M, Bahar HK, Baruch K, Deczkowska A, Lorenzo-Vivas E, Itzkovitz S, Elinav E, Sieweke MH, Schwartz M, Amit I (2016) Microglia development follows a stepwise program to regulate brain homeostasis. Science 353:aad8670CrossRefPubMed
39.
NINDS-NET PD (2006) A randomized, double-blind, futility clinical trial of creatine and minocycline in early Parkinson disease. Neurology 66:664–671CrossRef
40.
NINDS-NET PD (2008) A pilot clinical trial of creatine and minocycline in early Parkinson disease: 18-month results. Clin Neuropharmacol 31:141–150CrossRef
41.
Nykjaer CH, Brudek T, Salvesen L, Pakkenberg B (2017) Changes in the cell population in brain white matter in multiple system atrophy. Mov Disord 32:1074-1082
42.
Papp MI, Kahn JE, Lantos PL (1989) Glial cytoplasmic inclusions in the CNS of patients with multiple system atrophy (striatonigral degeneration, olivopontocerebellar atrophy and shy-Drager syndrome). J Neurol Sci 94:79–100CrossRefPubMed
43.
Peschl P, Schanda K, Zeka B, Given K, Bohm D, Ruprecht K, Saiz A, Lutterotti A, Rostasy K, Hoftberger R, Berger T, Macklin W, Lassmann H, Bradl M, Bennett JL, Reindl M (2017) Human antibodies against the myelin oligodendrocyte glycoprotein can cause complement-dependent demyelination. J Neuroinflammation 14:208CrossRefPubMedPubMedCentral
44.
Rockenstein E, Nuber S, Overk CR, Ubhi K, Mante M, Patrick C, Adame A, Trejo-Morales M, Gerez J, Picotti P, Jensen PH, Campioni S, Riek R, Winkler J, Gage FH, Winner B, Masliah E (2014) Accumulation of oligomer-prone alpha-synuclein exacerbates synaptic and neuronal degeneration in vivo. Brain 137:1496–1513CrossRefPubMedPubMedCentral
45.
Salvesen L, Ullerup BH, Sunay FB, Brudek T, Lokkegaard A, Agander TK, Winge K, Pakkenberg B (2015) Changes in total cell numbers of the basal ganglia in patients with multiple system atrophy - a stereological study. Neurobiol Dis 74:104–113CrossRefPubMed
46.
Salvesen L, Winge K, Brudek T, Agander TK, Lokkegaard A, Pakkenberg B (2017) Neocortical neuronal loss in patients with multiple system atrophy: a stereological study. Cereb Cortex 27:400–410PubMed
47.
Sanchez-Guajardo V, Barnum CJ, Tansey MG, Romero-Ramos M (2013) Neuroimmunological processes in Parkinson's disease and their relation to alpha-synuclein: microglia as the referee between neuronal processes and peripheral immunity. ASN Neuro 5:113–139CrossRefPubMed
48.
Sanchez-Guajardo V, Febbraro F, Kirik D, Romero-Ramos M (2010) Microglia acquire distinct activation profiles depending on the degree of alpha-synuclein neuropathology in a rAAV based model of Parkinson's disease. PLoS One 5:e8784CrossRefPubMedPubMedCentral
49.
Shults CW, Rockenstein E, Crews L, Adame A, Mante M, Larrea G, Hashimoto M, Song D, Iwatsubo T, Tsuboi K, Masliah E (2005) Neurological and neurodegenerative alterations in a transgenic mouse model expressing human alpha-synuclein under oligodendrocyte promoter: implications for multiple system atrophy. J Neurosci 25:10689–10699CrossRefPubMed
50.
Sillitoe RV, Fu YH, Watson C (2012) The cerebellum. In: Watson C, Paxinos G, Puelles L (eds) The mouse nervous system. Academic Press, San Diego, pp 360–397CrossRef
51.
Slomianka L, West MJ (2005) Estimators of the precision of stereological estimates: an example based on the CA1 pyramidal cell layer of rats. Neuroscience 136:757–767CrossRefPubMed
52.
Song YJ, Lundvig DM, Huang Y, Gai WP, Blumbergs PC, Hojrup P, Otzen D, Halliday GM, Jensen PH (2007) p25alpha relocalizes in oligodendroglia from myelin to cytoplasmic inclusions in multiple system atrophy. Am J Pathol 171:1291–1303CrossRefPubMedPubMedCentral
53.
Spillantini MG, Crowther RA, Jakes R, Cairns NJ, Lantos PL, Goedert M (1998) Filamentous alpha-synuclein inclusions link multiple system atrophy with Parkinson's disease and dementia with Lewy bodies. Neurosci Lett 251:205–208CrossRefPubMed
54.
Stefanova N, Fellner L, Reindl M, Masliah E, Poewe W, Wenning GK (2011) Toll-like receptor 4 promotes alpha-synuclein clearance and survival of nigral dopaminergic neurons. Am J Pathol 179:954–963CrossRefPubMedPubMedCentral
55.
Stefanova N, Georgievska B, Eriksson H, Poewe W, Wenning GK (2012) Myeloperoxidase inhibition ameliorates multiple system atrophy-like degeneration in a transgenic mouse model. Neurotox Res 21:393–404CrossRefPubMed
56.
Stefanova N, Kaufmann WA, Humpel C, Poewe W, Wenning GK (2012) Systemic proteasome inhibition triggers neurodegeneration in a transgenic mouse model expressing human alpha-synuclein under oligodendrocyte promoter: implications for multiple system atrophy. Acta Neuropathol 124:51–65CrossRefPubMedPubMedCentral
57.
Stefanova N, Reindl M, Neumann M, Haass C, Poewe W, Kahle PJ, Wenning GK (2005) Oxidative stress in transgenic mice with oligodendroglial alpha-synuclein overexpression replicates the characteristic neuropathology of multiple system atrophy. Am J Pathol 166:869–876CrossRefPubMedPubMedCentral
58.
Stefanova N, Reindl M, Neumann M, Kahle PJ, Poewe W, Wenning GK (2007) Microglial activation mediates neurodegeneration related to oligodendroglial alpha-synucleinopathy: implications for multiple system atrophy. Mov Disord 22:2196–2203CrossRefPubMed
59.
Stefanova N, Tison F, Reindl M, Poewe W, Wenning GK (2005) Animal models of multiple system atrophy. Trends Neurosci 28:501–506CrossRefPubMed
60.
61.
Stemberger S, Poewe W, Wenning GK, Stefanova N (2010) Targeted overexpression of human alpha-synuclein in oligodendroglia induces lesions linked to MSA -like progressive autonomic failure. Exp Neurol 224:459–464CrossRefPubMedPubMedCentral
62.
Tansey MG, Goldberg MS (2010) Neuroinflammation in Parkinson's disease: its role in neuronal death and implications for therapeutic intervention. Neurobiol Dis 37:510–518CrossRefPubMed
63.
Tu PH, Galvin JE, Baba M, Giasson B, Tomita T, Leight S, Nakajo S, Iwatsubo T, Trojanowski JQ, Lee VM (1998) Glial cytoplasmic inclusions in white matter oligodendrocytes of multiple system atrophy brains contain insoluble alpha-synuclein. Ann Neurol 44:415–422CrossRefPubMed
64.
Ubhi K, Low P, Masliah E (2011) Multiple system atrophy: a clinical and neuropathological perspective. Trends Neurosci 34:581-590
65.
Ubhi K, Rockenstein E, Mante M, Inglis C, Adame A, Patrick C, Whitney K, Masliah E (2010) Neurodegeneration in a transgenic mouse model of multiple system atrophy is associated with altered expression of oligodendroglial-derived neurotrophic factors. J Neurosci 30:6236–6246CrossRefPubMedPubMedCentral
66.
Venezia S, Refolo V, Polissidis A, Stefanis L, Wenning GK, Stefanova N (2017) Toll-like receptor 4 stimulation with monophosphoryl lipid a ameliorates motor deficits and nigral neurodegeneration triggered by extraneuronal alpha-synucleinopathy. Mol Neurodegener 12:52CrossRefPubMedPubMedCentral
67.
Wakabayashi K, Hayashi S, Kakita A, Yamada M, Toyoshima Y, Yoshimoto M, Takahashi H (1998) Accumulation of alpha-synuclein/NACP is a cytopathological feature common to Lewy body disease and multiple system atrophy. Acta Neuropathol (Berl) 96:445–452CrossRef
68.
Walker DG, Lue LF (2015) Immune phenotypes of microglia in human neurodegenerative disease: challenges to detecting microglial polarization in human brains. Alzheimers Res Ther 7:56CrossRefPubMedPubMedCentral
69.
Wenning GK, Ben Shlomo Y, Magalhaes M, Daniel SE, Quinn NP (1994) Clinical features and natural history of multiple system atrophy. An analysis of 100 cases. Brain 117(Pt 4):835–845CrossRefPubMed
70.
Wenning GK, Ben Shlomo Y, Magalhaes M, Daniel SE, Quinn NP (1995) Clinicopathological study of 35 cases of multiple system atrophy. J Neurol Neurosurg Psychiatry 58:160–166CrossRefPubMedPubMedCentral
71.
Wenning GK, Stefanova N, Jellinger KA, Poewe W, Schlossmacher MG (2008) Multiple system atrophy: a primary oligodendrogliopathy. Ann Neurol 64:239–246CrossRefPubMed
72.
Wight PA, Duchala CS, Readhead C, Macklin WB (1993) A myelin proteolipid protein-LacZ fusion protein is developmentally regulated and targeted to the myelin membrane in transgenic mice. J Cell Biol 123:443–454CrossRefPubMed
73.
Winner B, Jappelli R, Maji SK, Desplats PA, Boyer L, Aigner S, Hetzer C, Loher T, Vilar M, Campioni S, Tzitzilonis C, Soragni A, Jessberger S, Mira H, Consiglio A, Pham E, Masliah E, Gage FH, Riek R (2011) In vivo demonstration that alpha-synuclein oligomers are toxic. Proc Natl Acad Sci U S A 108:4194–4199CrossRefPubMedPubMedCentral
74.
Xilouri M, Brekk OR, Landeck N, Pitychoutis PM, Papasilekas T, Papadopoulou-Daifoti Z, Kirik D, Stefanis L (2013) Boosting chaperone-mediated autophagy in vivo mitigates alpha-synuclein-induced neurodegeneration. Brain 136:2130–2146CrossRefPubMed
75.
Yazawa I, Giasson BI, Sasaki R, Zhang B, Joyce S, Uryu K, Trojanowski JQ, Lee VM (2005) Mouse model of multiple system atrophy alpha-synuclein expression in oligodendrocytes causes glial and neuronal degeneration. Neuron 45:847–859CrossRefPubMed
76.
Zotova E, Bharambe V, Cheaveau M, Morgan W, Holmes C, Harris S, Neal JW, Love S, Nicoll JA, Boche D (2013) Inflammatory components in human Alzheimer's disease and after active amyloid-beta42 immunization. Brain 136:2677–2696CrossRefPubMed
Metadata
Title
Progressive striatonigral degeneration in a transgenic mouse model of multiple system atrophy: translational implications for interventional therapies
Authors
Violetta Refolo
Francesco Bez
Alexia Polissidis
Daniela Kuzdas-Wood
Edith Sturm
Martina Kamaratou
Werner Poewe
Leonidas Stefanis
M. Angela Cenci
Marina Romero-Ramos
Gregor K. Wenning
Nadia Stefanova
Publication date
01-12-2018
Publisher
BioMed Central
Published in
Acta Neuropathologica Communications / Issue 1/2018
Electronic ISSN: 2051-5960
DOI
https://doi.org/10.1186/s40478-017-0504-y

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