Jump from Pre-mutation to Pathologic Expansion in C9orf72

Zhengrui Xi; Marka van Blitterswijk; Ming Zhang; Philip McGoldrick; Jesse R. McLean; Yana Yunusova; Erin Knock; Danielle Moreno; Christine Sato; Paul M. McKeever; Raphael Schneider; Julia Keith; Nicolae Petrescu; Paul Fraser; Maria Carmela Tartaglia; Matthew C. Baker; Neill R. Graff-Radford; Kevin B. Boylan; Dennis W. Dickson; Ian R. Mackenzie; Rosa Rademakers; Janice Robertson; Lorne Zinman; Ekaterina Rogaeva

doi:10.1016/j.ajhg.2015.04.016

Jump from Pre-mutation to Pathologic Expansion in C9orf72

Zhengrui Xi, Marka van Blitterswijk, Ming Zhang, Philip McGoldrick, Jesse R. McLean, Yana Yunusova, Erin Knock, Danielle Moreno, Christine Sato, Paul M. McKeever, Raphael Schneider, Julia Keith, Nicolae Petrescu, Paul Fraser, Maria Carmela Tartaglia, Matthew C. Baker, Neill R. Graff-Radford, Kevin B. Boylan, Dennis W. Dickson, Ian R. MackenzieRosa Rademakers, Janice Robertson, Lorne Zinman, Ekaterina Rogaeva

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Abstract

An expanded G₄C₂ repeat in C9orf72 represents the most common known genetic cause of amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration (FTLD). However, the lower limit for pathological expansions is unknown (the suggested cutoff is 30 repeats). It has been proposed that the expansion might have occurred only once in human history and subsequently spread throughout the population. However, our present findings support a hypothesis of multiple origins for the expansion. We report a British-Canadian family in whom a ∼70-repeat allele from the father (unaffected by ALS or FTLD at age 89 years) expanded during parent-offspring transmission and started the first generation affected by ALS (four children carry an ∼1,750-repeat allele). Epigenetic and RNA-expression analyses further discriminated the offspring's large expansions (which were methylated and associated with reduced C9orf72 expression) from the ∼70-repeat allele (which was unmethylated and associated with upregulation of C9orf72). Moreover, RNA foci were only detected in fibroblasts from offspring with large expansions, but not in the father, who has the ∼70-repeat allele. All family members with expansions were found to have an ancient known risk haplotype, although it was inherited on a unique 5-Mb genetic backbone. We conclude that small expansions (e.g., 70 repeats) might be considered “pre-mutations” to reflect their propensity to expand in the next generation. Follow-up studies might help explain the high frequency of ALS- or FTLD-affected individuals with an expansion but without a familial history (e.g., 21% among Finnish ALS subjects).

Original language	English (US)
Pages (from-to)	962-970
Number of pages	9
Journal	American journal of human genetics
Volume	96
Issue number	6
DOIs	https://doi.org/10.1016/j.ajhg.2015.04.016
State	Published - May 1 2015

ASJC Scopus subject areas

Genetics
Genetics(clinical)

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10.1016/j.ajhg.2015.04.016

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Xi, Z., van Blitterswijk, M., Zhang, M., McGoldrick, P., McLean, J. R., Yunusova, Y., Knock, E., Moreno, D., Sato, C., McKeever, P. M., Schneider, R., Keith, J., Petrescu, N., Fraser, P., Tartaglia, M. C., Baker, M. C., Graff-Radford, N. R., Boylan, K. B., Dickson, D. W., ... Rogaeva, E. (2015). Jump from Pre-mutation to Pathologic Expansion in C9orf72. American journal of human genetics, 96(6), 962-970. https://doi.org/10.1016/j.ajhg.2015.04.016

Xi, Z, van Blitterswijk, M, Zhang, M, McGoldrick, P, McLean, JR, Yunusova, Y, Knock, E, Moreno, D, Sato, C, McKeever, PM, Schneider, R, Keith, J, Petrescu, N, Fraser, P, Tartaglia, MC, Baker, MC, Graff-Radford, NR, Boylan, KB, Dickson, DW, Mackenzie, IR, Rademakers, R, Robertson, J, Zinman, L & Rogaeva, E 2015, 'Jump from Pre-mutation to Pathologic Expansion in C9orf72', American journal of human genetics, vol. 96, no. 6, pp. 962-970. https://doi.org/10.1016/j.ajhg.2015.04.016

@article{9396afa3bac745dd90a09d4312d4c7e3,

title = "Jump from Pre-mutation to Pathologic Expansion in C9orf72",

abstract = "An expanded G4C2 repeat in C9orf72 represents the most common known genetic cause of amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration (FTLD). However, the lower limit for pathological expansions is unknown (the suggested cutoff is 30 repeats). It has been proposed that the expansion might have occurred only once in human history and subsequently spread throughout the population. However, our present findings support a hypothesis of multiple origins for the expansion. We report a British-Canadian family in whom a ∼70-repeat allele from the father (unaffected by ALS or FTLD at age 89 years) expanded during parent-offspring transmission and started the first generation affected by ALS (four children carry an ∼1,750-repeat allele). Epigenetic and RNA-expression analyses further discriminated the offspring's large expansions (which were methylated and associated with reduced C9orf72 expression) from the ∼70-repeat allele (which was unmethylated and associated with upregulation of C9orf72). Moreover, RNA foci were only detected in fibroblasts from offspring with large expansions, but not in the father, who has the ∼70-repeat allele. All family members with expansions were found to have an ancient known risk haplotype, although it was inherited on a unique 5-Mb genetic backbone. We conclude that small expansions (e.g., 70 repeats) might be considered “pre-mutations” to reflect their propensity to expand in the next generation. Follow-up studies might help explain the high frequency of ALS- or FTLD-affected individuals with an expansion but without a familial history (e.g., 21% among Finnish ALS subjects).",

author = "Zhengrui Xi and {van Blitterswijk}, Marka and Ming Zhang and Philip McGoldrick and McLean, {Jesse R.} and Yana Yunusova and Erin Knock and Danielle Moreno and Christine Sato and McKeever, {Paul M.} and Raphael Schneider and Julia Keith and Nicolae Petrescu and Paul Fraser and Tartaglia, {Maria Carmela} and Baker, {Matthew C.} and Graff-Radford, {Neill R.} and Boylan, {Kevin B.} and Dickson, {Dennis W.} and Mackenzie, {Ian R.} and Rosa Rademakers and Janice Robertson and Lorne Zinman and Ekaterina Rogaeva",

note = "Funding Information: This work was supported by the W. Garfield Weston Foundation (E.R., Z.X., J.R., J.K., and L.Z.), the James Hunter Family ALS Initiative (L.Z. and J.R.), an ALS Canada Bernice Ramsey Discovery Grant (Y.Y. and L.Z.), and NIH grant R01 NS080882. J.R. is a Tier 2 Canada Research Chair in ALS; P.M.M. holds an Alzheimer Society of Canada Doctoral Award; P.M. holds an American ALS Association Milton Safenowitz Postdoctoral Fellowship; J.R.M. is a James Hunter Senior Research Fellow; and M.v.B. is supported by the Milton Safenowitz Post-Doctoral Fellowship for ALS Research from the ALS Association. Publisher Copyright: {\textcopyright} 2015 The American Society of Human Genetics",

year = "2015",

month = may,

day = "1",

doi = "10.1016/j.ajhg.2015.04.016",

language = "English (US)",

volume = "96",

pages = "962--970",

journal = "American journal of human genetics",

issn = "0002-9297",

publisher = "Cell Press",

number = "6",

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TY - JOUR

T1 - Jump from Pre-mutation to Pathologic Expansion in C9orf72

AU - Xi, Zhengrui

AU - van Blitterswijk, Marka

AU - Zhang, Ming

AU - McGoldrick, Philip

AU - McLean, Jesse R.

AU - Yunusova, Yana

AU - Knock, Erin

AU - Moreno, Danielle

AU - Sato, Christine

AU - McKeever, Paul M.

AU - Schneider, Raphael

AU - Keith, Julia

AU - Petrescu, Nicolae

AU - Fraser, Paul

AU - Tartaglia, Maria Carmela

AU - Baker, Matthew C.

AU - Graff-Radford, Neill R.

AU - Boylan, Kevin B.

AU - Dickson, Dennis W.

AU - Mackenzie, Ian R.

AU - Rademakers, Rosa

AU - Robertson, Janice

AU - Zinman, Lorne

AU - Rogaeva, Ekaterina

N1 - Funding Information: This work was supported by the W. Garfield Weston Foundation (E.R., Z.X., J.R., J.K., and L.Z.), the James Hunter Family ALS Initiative (L.Z. and J.R.), an ALS Canada Bernice Ramsey Discovery Grant (Y.Y. and L.Z.), and NIH grant R01 NS080882. J.R. is a Tier 2 Canada Research Chair in ALS; P.M.M. holds an Alzheimer Society of Canada Doctoral Award; P.M. holds an American ALS Association Milton Safenowitz Postdoctoral Fellowship; J.R.M. is a James Hunter Senior Research Fellow; and M.v.B. is supported by the Milton Safenowitz Post-Doctoral Fellowship for ALS Research from the ALS Association. Publisher Copyright: © 2015 The American Society of Human Genetics

PY - 2015/5/1

Y1 - 2015/5/1

N2 - An expanded G4C2 repeat in C9orf72 represents the most common known genetic cause of amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration (FTLD). However, the lower limit for pathological expansions is unknown (the suggested cutoff is 30 repeats). It has been proposed that the expansion might have occurred only once in human history and subsequently spread throughout the population. However, our present findings support a hypothesis of multiple origins for the expansion. We report a British-Canadian family in whom a ∼70-repeat allele from the father (unaffected by ALS or FTLD at age 89 years) expanded during parent-offspring transmission and started the first generation affected by ALS (four children carry an ∼1,750-repeat allele). Epigenetic and RNA-expression analyses further discriminated the offspring's large expansions (which were methylated and associated with reduced C9orf72 expression) from the ∼70-repeat allele (which was unmethylated and associated with upregulation of C9orf72). Moreover, RNA foci were only detected in fibroblasts from offspring with large expansions, but not in the father, who has the ∼70-repeat allele. All family members with expansions were found to have an ancient known risk haplotype, although it was inherited on a unique 5-Mb genetic backbone. We conclude that small expansions (e.g., 70 repeats) might be considered “pre-mutations” to reflect their propensity to expand in the next generation. Follow-up studies might help explain the high frequency of ALS- or FTLD-affected individuals with an expansion but without a familial history (e.g., 21% among Finnish ALS subjects).

AB - An expanded G4C2 repeat in C9orf72 represents the most common known genetic cause of amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration (FTLD). However, the lower limit for pathological expansions is unknown (the suggested cutoff is 30 repeats). It has been proposed that the expansion might have occurred only once in human history and subsequently spread throughout the population. However, our present findings support a hypothesis of multiple origins for the expansion. We report a British-Canadian family in whom a ∼70-repeat allele from the father (unaffected by ALS or FTLD at age 89 years) expanded during parent-offspring transmission and started the first generation affected by ALS (four children carry an ∼1,750-repeat allele). Epigenetic and RNA-expression analyses further discriminated the offspring's large expansions (which were methylated and associated with reduced C9orf72 expression) from the ∼70-repeat allele (which was unmethylated and associated with upregulation of C9orf72). Moreover, RNA foci were only detected in fibroblasts from offspring with large expansions, but not in the father, who has the ∼70-repeat allele. All family members with expansions were found to have an ancient known risk haplotype, although it was inherited on a unique 5-Mb genetic backbone. We conclude that small expansions (e.g., 70 repeats) might be considered “pre-mutations” to reflect their propensity to expand in the next generation. Follow-up studies might help explain the high frequency of ALS- or FTLD-affected individuals with an expansion but without a familial history (e.g., 21% among Finnish ALS subjects).

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JO - American journal of human genetics

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ER -

Jump from Pre-mutation to Pathologic Expansion in C9orf72

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