Association of genetic variation in COL11A1 with adolescent idiopathic scoliosis

Hao Yu; Anas M. Khanshour; Aki Ushiki; Nao Otomo; Yoshinao Koike; Elisabet Einarsdottir; Yanhui Fan; Lilian Antunes; Yared H. Kidane; Reuel Cornelia; Rory R. Sheng; Yichi Zhang; Jimin Pei; Nick V. Grishin; Bret M. Evers; Jason Pui Yin Cheung; John A. Herring; Chikashi Terao; You Qiang Song; Christina A. Gurnett; Paul Gerdhem; Shiro Ikegawa; Jonathan J. Rios; Nadav Ahituv; Carol A. Wise

doi:10.7554/eLife.89762

Association of genetic variation in COL11A1 with adolescent idiopathic scoliosis

Hao Yu, Anas M. Khanshour, Aki Ushiki, Nao Otomo, Yoshinao Koike, Elisabet Einarsdottir, Yanhui Fan, Lilian Antunes, Yared H. Kidane, Reuel Cornelia, Rory R. Sheng, Yichi Zhang, Jimin Pei, Nick V. Grishin, Bret M. Evers, Jason Pui Yin Cheung, John A. Herring, Chikashi Terao, You Qiang Song, Christina A. GurnettPaul Gerdhem, Shiro Ikegawa, Jonathan J. Rios, Nadav Ahituv, Carol A. Wise

Research output: Contribution to journal › Article › peer-review

Abstract

Adolescent idiopathic scoliosis (AIS) is a common and progressive spinal deformity in children that exhibits striking sexual dimorphism, with girls at more than fivefold greater risk of severe disease compared to boys. Despite its medical impact, the molecular mechanisms that drive AIS are largely unknown. We previously defined a female-specific AIS genetic risk locus in an enhancer near the PAX1 gene. Here, we sought to define the roles of PAX1 and newly identified AIS-associated genes in the developmental mechanism of AIS. In a genetic study of 10,519 individuals with AIS and 93,238 unaffected controls, significant association was identified with a variant in COL11A1 encoding collagen (α1) XI (rs3753841; NM_080629.2_c.4004C>T; p.(Pro1335Leu); p=7.07E^–11, OR = 1.118). Using CRISPR mutagenesis we generated Pax1 knockout mice (Pax1^-/-). In postnatal spines we found that PAX1 and collagen (α1) XI protein both localize within the inter-vertebral disc-vertebral junction region encompassing the growth plate, with less collagen (α1) XI detected in Pax1^-/- spines compared to wild-type. By genetic targeting we found that wild-type Col11a1 expression in costal chondrocytes suppresses expression of Pax1 and of Mmp3, encoding the matrix metalloproteinase 3 enzyme implicated in matrix remodeling. However, the latter suppression was abrogated in the presence of the AIS-associated COL11A1^P1335L mutant. Further, we found that either knockdown of the estrogen receptor gene Esr2 or tamoxifen treatment significantly altered Col11a1 and Mmp3 expression in chondrocytes. We propose a new molecular model of AIS pathogenesis wherein genetic variation and estrogen signaling increase disease susceptibility by altering a PAX1-COL11a1-MMP3 signaling axis in spinal chondrocytes.

Original language	English (US)
Article number	RP89762
Journal	eLife
Volume	13
DOIs	https://doi.org/10.7554/eLife.89762
State	Published - 2024

ASJC Scopus subject areas

General Immunology and Microbiology
General Biochemistry, Genetics and Molecular Biology
General Neuroscience

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Yu, H., Khanshour, A. M., Ushiki, A., Otomo, N., Koike, Y., Einarsdottir, E., Fan, Y., Antunes, L., Kidane, Y. H., Cornelia, R., Sheng, R. R., Zhang, Y., Pei, J., Grishin, N. V., Evers, B. M., Cheung, J. P. Y., Herring, J. A., Terao, C., Song, Y. Q., ... Wise, C. A. (2024). Association of genetic variation in COL11A1 with adolescent idiopathic scoliosis. eLife, 13, Article RP89762. https://doi.org/10.7554/eLife.89762

Yu, H, Khanshour, AM, Ushiki, A, Otomo, N, Koike, Y, Einarsdottir, E, Fan, Y, Antunes, L, Kidane, YH, Cornelia, R, Sheng, RR, Zhang, Y, Pei, J, Grishin, NV , Evers, BM, Cheung, JPY, Herring, JA, Terao, C, Song, YQ, Gurnett, CA, Gerdhem, P, Ikegawa, S, Rios, JJ, Ahituv, N & Wise, CA 2024, 'Association of genetic variation in COL11A1 with adolescent idiopathic scoliosis', eLife, vol. 13, RP89762. https://doi.org/10.7554/eLife.89762

@article{dfca187c4aba4c8d9cc45d20074a35db,

title = "Association of genetic variation in COL11A1 with adolescent idiopathic scoliosis",

abstract = "Adolescent idiopathic scoliosis (AIS) is a common and progressive spinal deformity in children that exhibits striking sexual dimorphism, with girls at more than fivefold greater risk of severe disease compared to boys. Despite its medical impact, the molecular mechanisms that drive AIS are largely unknown. We previously defined a female-specific AIS genetic risk locus in an enhancer near the PAX1 gene. Here, we sought to define the roles of PAX1 and newly identified AIS-associated genes in the developmental mechanism of AIS. In a genetic study of 10,519 individuals with AIS and 93,238 unaffected controls, significant association was identified with a variant in COL11A1 encoding collagen (α1) XI (rs3753841; NM_080629.2_c.4004C>T; p.(Pro1335Leu); p=7.07E–11, OR = 1.118). Using CRISPR mutagenesis we generated Pax1 knockout mice (Pax1-/-). In postnatal spines we found that PAX1 and collagen (α1) XI protein both localize within the inter-vertebral disc-vertebral junction region encompassing the growth plate, with less collagen (α1) XI detected in Pax1-/- spines compared to wild-type. By genetic targeting we found that wild-type Col11a1 expression in costal chondrocytes suppresses expression of Pax1 and of Mmp3, encoding the matrix metalloproteinase 3 enzyme implicated in matrix remodeling. However, the latter suppression was abrogated in the presence of the AIS-associated COL11A1P1335L mutant. Further, we found that either knockdown of the estrogen receptor gene Esr2 or tamoxifen treatment significantly altered Col11a1 and Mmp3 expression in chondrocytes. We propose a new molecular model of AIS pathogenesis wherein genetic variation and estrogen signaling increase disease susceptibility by altering a PAX1-COL11a1-MMP3 signaling axis in spinal chondrocytes.",

author = "Hao Yu and Khanshour, {Anas M.} and Aki Ushiki and Nao Otomo and Yoshinao Koike and Elisabet Einarsdottir and Yanhui Fan and Lilian Antunes and Kidane, {Yared H.} and Reuel Cornelia and Sheng, {Rory R.} and Yichi Zhang and Jimin Pei and Grishin, {Nick V.} and Evers, {Bret M.} and Cheung, {Jason Pui Yin} and Herring, {John A.} and Chikashi Terao and Song, {You Qiang} and Gurnett, {Christina A.} and Paul Gerdhem and Shiro Ikegawa and Rios, {Jonathan J.} and Nadav Ahituv and Wise, {Carol A.}",

note = "Publisher Copyright: {\textcopyright} Yu, Khanshour, Ushiki et al.",

year = "2024",

doi = "10.7554/eLife.89762",

language = "English (US)",

volume = "13",

journal = "eLife",

issn = "2050-084X",

publisher = "eLife Sciences Publications",

}

TY - JOUR

T1 - Association of genetic variation in COL11A1 with adolescent idiopathic scoliosis

AU - Yu, Hao

AU - Khanshour, Anas M.

AU - Ushiki, Aki

AU - Otomo, Nao

AU - Koike, Yoshinao

AU - Einarsdottir, Elisabet

AU - Fan, Yanhui

AU - Antunes, Lilian

AU - Kidane, Yared H.

AU - Cornelia, Reuel

AU - Sheng, Rory R.

AU - Zhang, Yichi

AU - Pei, Jimin

AU - Grishin, Nick V.

AU - Evers, Bret M.

AU - Cheung, Jason Pui Yin

AU - Herring, John A.

AU - Terao, Chikashi

AU - Song, You Qiang

AU - Gurnett, Christina A.

AU - Gerdhem, Paul

AU - Ikegawa, Shiro

AU - Rios, Jonathan J.

AU - Ahituv, Nadav

AU - Wise, Carol A.

PY - 2024

Y1 - 2024

N2 - Adolescent idiopathic scoliosis (AIS) is a common and progressive spinal deformity in children that exhibits striking sexual dimorphism, with girls at more than fivefold greater risk of severe disease compared to boys. Despite its medical impact, the molecular mechanisms that drive AIS are largely unknown. We previously defined a female-specific AIS genetic risk locus in an enhancer near the PAX1 gene. Here, we sought to define the roles of PAX1 and newly identified AIS-associated genes in the developmental mechanism of AIS. In a genetic study of 10,519 individuals with AIS and 93,238 unaffected controls, significant association was identified with a variant in COL11A1 encoding collagen (α1) XI (rs3753841; NM_080629.2_c.4004C>T; p.(Pro1335Leu); p=7.07E–11, OR = 1.118). Using CRISPR mutagenesis we generated Pax1 knockout mice (Pax1-/-). In postnatal spines we found that PAX1 and collagen (α1) XI protein both localize within the inter-vertebral disc-vertebral junction region encompassing the growth plate, with less collagen (α1) XI detected in Pax1-/- spines compared to wild-type. By genetic targeting we found that wild-type Col11a1 expression in costal chondrocytes suppresses expression of Pax1 and of Mmp3, encoding the matrix metalloproteinase 3 enzyme implicated in matrix remodeling. However, the latter suppression was abrogated in the presence of the AIS-associated COL11A1P1335L mutant. Further, we found that either knockdown of the estrogen receptor gene Esr2 or tamoxifen treatment significantly altered Col11a1 and Mmp3 expression in chondrocytes. We propose a new molecular model of AIS pathogenesis wherein genetic variation and estrogen signaling increase disease susceptibility by altering a PAX1-COL11a1-MMP3 signaling axis in spinal chondrocytes.

AB - Adolescent idiopathic scoliosis (AIS) is a common and progressive spinal deformity in children that exhibits striking sexual dimorphism, with girls at more than fivefold greater risk of severe disease compared to boys. Despite its medical impact, the molecular mechanisms that drive AIS are largely unknown. We previously defined a female-specific AIS genetic risk locus in an enhancer near the PAX1 gene. Here, we sought to define the roles of PAX1 and newly identified AIS-associated genes in the developmental mechanism of AIS. In a genetic study of 10,519 individuals with AIS and 93,238 unaffected controls, significant association was identified with a variant in COL11A1 encoding collagen (α1) XI (rs3753841; NM_080629.2_c.4004C>T; p.(Pro1335Leu); p=7.07E–11, OR = 1.118). Using CRISPR mutagenesis we generated Pax1 knockout mice (Pax1-/-). In postnatal spines we found that PAX1 and collagen (α1) XI protein both localize within the inter-vertebral disc-vertebral junction region encompassing the growth plate, with less collagen (α1) XI detected in Pax1-/- spines compared to wild-type. By genetic targeting we found that wild-type Col11a1 expression in costal chondrocytes suppresses expression of Pax1 and of Mmp3, encoding the matrix metalloproteinase 3 enzyme implicated in matrix remodeling. However, the latter suppression was abrogated in the presence of the AIS-associated COL11A1P1335L mutant. Further, we found that either knockdown of the estrogen receptor gene Esr2 or tamoxifen treatment significantly altered Col11a1 and Mmp3 expression in chondrocytes. We propose a new molecular model of AIS pathogenesis wherein genetic variation and estrogen signaling increase disease susceptibility by altering a PAX1-COL11a1-MMP3 signaling axis in spinal chondrocytes.

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U2 - 10.7554/eLife.89762

DO - 10.7554/eLife.89762

M3 - Article

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AN - SCOPUS:85183502119

SN - 2050-084X

VL - 13

JO - eLife

JF - eLife

M1 - RP89762

ER -

Association of genetic variation in COL11A1 with adolescent idiopathic scoliosis

Abstract

ASJC Scopus subject areas

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