An oligodendrocyte silencer element underlies the pathogenic impact of lamin B1 structural variants

Bruce Nmezi; Guillermo Rodriguez Bey; Talia De Francesco Oranburg; Kseniia Dudnyk; Santana M. Lardo; Nathan Herdman; Anastasia Jacko; Sandy Rubio; Emanuel Loeza-Alcocer; Julia Kofler; Dongkyeong Kim; Julia Rankin; Emma Kivuva; Nicholas Gutowski; Katherine Schon; Jelle van den Ameele; Patrick F. Chinnery; Sérgio B. Sousa; Filipe Palavra; Camilo Toro; Filippo Pinto e Vairo; Jonas Saute; Lisa Pan; Murad Alturkustani; Robert Hammond; Francois Gros-Louis; Michael S. Gold; Yungki Park; Geneviève Bernard; Raili Raininko; Jian Zhou; Sarah J. Hainer; Quasar S. Padiath

doi:10.1038/s41467-025-56378-9

An oligodendrocyte silencer element underlies the pathogenic impact of lamin B1 structural variants

Bruce Nmezi
, Guillermo Rodriguez Bey
, Talia De Francesco Oranburg
, Kseniia Dudnyk
, Santana M. Lardo
, Nathan Herdman
, Anastasia Jacko
, Sandy Rubio
, Emanuel Loeza-Alcocer
, Julia Kofler
, Dongkyeong Kim
, Julia Rankin
, Emma Kivuva
, Nicholas Gutowski
, Katherine Schon
, Jelle van den Ameele
, Patrick F. Chinnery
, Sérgio B. Sousa
, Filipe Palavra
, Camilo Toro

Filippo Pinto e Vairo, Jonas Saute, Lisa Pan, Murad Alturkustani, Robert Hammond, Francois Gros-Louis, Michael S. Gold, Yungki Park, Geneviève Bernard, Raili Raininko, Jian Zhou, Sarah J. Hainer, Quasar S. Padiath

Biochemistry

University at Buffalo

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

3 Scopus citations

Abstract

The role of non-coding regulatory elements and how they might contribute to tissue type specificity of disease phenotypes is poorly understood. Autosomal Dominant Leukodystrophy (ADLD) is a fatal, adult-onset, neurological disorder that is characterized by extensive CNS demyelination. Most cases of ADLD are caused by tandem genomic duplications involving the lamin B1 gene (LMNB1) while a small subset are caused by genomic deletions upstream of the gene. Utilizing data from recently identified families that carry LMNB1 gene duplications but do not exhibit demyelination, ADLD patient tissues, CRISPR edited cell lines and mouse models, we have identified a silencer element that is lost in ADLD patients and that specifically targets expression to oligodendrocytes. This element consists of CTCF binding sites that mediate three-dimensional chromatin looping involving LMNB1 and the recruitment of the PRC2 transcriptional repressor complex. Loss of the silencer element in ADLD identifies a role for non-coding regulatory elements in tissue specificity and disease causation.

Original language	English
Article number	1373
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-56378-9
State	Published - Dec 2025

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Nmezi, B., Rodriguez Bey, G., Oranburg, T. D. F., Dudnyk, K., Lardo, S. M., Herdman, N., Jacko, A., Rubio, S., Loeza-Alcocer, E., Kofler, J., Kim, D., Rankin, J., Kivuva, E., Gutowski, N., Schon, K., van den Ameele, J., Chinnery, P. F., Sousa, S. B., Palavra, F., ... Padiath, Q. S. (2025). An oligodendrocyte silencer element underlies the pathogenic impact of lamin B1 structural variants. Nature Communications, 16(1), Article 1373. https://doi.org/10.1038/s41467-025-56378-9

@article{b25f99021c1a405db5aa9d86b1902e17,

title = "An oligodendrocyte silencer element underlies the pathogenic impact of lamin B1 structural variants",

abstract = "The role of non-coding regulatory elements and how they might contribute to tissue type specificity of disease phenotypes is poorly understood. Autosomal Dominant Leukodystrophy (ADLD) is a fatal, adult-onset, neurological disorder that is characterized by extensive CNS demyelination. Most cases of ADLD are caused by tandem genomic duplications involving the lamin B1 gene (LMNB1) while a small subset are caused by genomic deletions upstream of the gene. Utilizing data from recently identified families that carry LMNB1 gene duplications but do not exhibit demyelination, ADLD patient tissues, CRISPR edited cell lines and mouse models, we have identified a silencer element that is lost in ADLD patients and that specifically targets expression to oligodendrocytes. This element consists of CTCF binding sites that mediate three-dimensional chromatin looping involving LMNB1 and the recruitment of the PRC2 transcriptional repressor complex. Loss of the silencer element in ADLD identifies a role for non-coding regulatory elements in tissue specificity and disease causation.",

author = "Bruce Nmezi and \{Rodriguez Bey\}, Guillermo and Oranburg, \{Talia De Francesco\} and Kseniia Dudnyk and Lardo, \{Santana M.\} and Nathan Herdman and Anastasia Jacko and Sandy Rubio and Emanuel Loeza-Alcocer and Julia Kofler and Dongkyeong Kim and Julia Rankin and Emma Kivuva and Nicholas Gutowski and Katherine Schon and \{van den Ameele\}, Jelle and Chinnery, \{Patrick F.\} and Sousa, \{S{\'e}rgio B.\} and Filipe Palavra and Camilo Toro and \{Pinto e Vairo\}, Filippo and Jonas Saute and Lisa Pan and Murad Alturkustani and Robert Hammond and Francois Gros-Louis and Gold, \{Michael S.\} and Yungki Park and Genevi{\`e}ve Bernard and Raili Raininko and Jian Zhou and Hainer, \{Sarah J.\} and Padiath, \{Quasar S.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = dec,

doi = "10.1038/s41467-025-56378-9",

language = "English",

volume = "16",

journal = "Nature Communications",

issn = "2041-1723",

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Nmezi, B, Rodriguez Bey, G, Oranburg, TDF, Dudnyk, K, Lardo, SM, Herdman, N, Jacko, A, Rubio, S, Loeza-Alcocer, E, Kofler, J, Kim, D, Rankin, J, Kivuva, E, Gutowski, N, Schon, K, van den Ameele, J, Chinnery, PF, Sousa, SB, Palavra, F, Toro, C, Pinto e Vairo, F, Saute, J, Pan, L, Alturkustani, M, Hammond, R, Gros-Louis, F, Gold, MS, Park, Y, Bernard, G, Raininko, R, Zhou, J, Hainer, SJ & Padiath, QS 2025, 'An oligodendrocyte silencer element underlies the pathogenic impact of lamin B1 structural variants', Nature Communications, vol. 16, no. 1, 1373. https://doi.org/10.1038/s41467-025-56378-9

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AU - Nmezi, Bruce

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AU - Oranburg, Talia De Francesco

AU - Dudnyk, Kseniia

AU - Lardo, Santana M.

AU - Herdman, Nathan

AU - Jacko, Anastasia

AU - Rubio, Sandy

AU - Loeza-Alcocer, Emanuel

AU - Kofler, Julia

AU - Kim, Dongkyeong

AU - Rankin, Julia

AU - Kivuva, Emma

AU - Gutowski, Nicholas

AU - Schon, Katherine

AU - van den Ameele, Jelle

AU - Chinnery, Patrick F.

AU - Sousa, Sérgio B.

AU - Palavra, Filipe

AU - Toro, Camilo

AU - Pinto e Vairo, Filippo

AU - Saute, Jonas

AU - Pan, Lisa

AU - Alturkustani, Murad

AU - Hammond, Robert

AU - Gros-Louis, Francois

AU - Gold, Michael S.

AU - Park, Yungki

AU - Bernard, Geneviève

AU - Raininko, Raili

AU - Zhou, Jian

AU - Hainer, Sarah J.

AU - Padiath, Quasar S.

PY - 2025/12

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N2 - The role of non-coding regulatory elements and how they might contribute to tissue type specificity of disease phenotypes is poorly understood. Autosomal Dominant Leukodystrophy (ADLD) is a fatal, adult-onset, neurological disorder that is characterized by extensive CNS demyelination. Most cases of ADLD are caused by tandem genomic duplications involving the lamin B1 gene (LMNB1) while a small subset are caused by genomic deletions upstream of the gene. Utilizing data from recently identified families that carry LMNB1 gene duplications but do not exhibit demyelination, ADLD patient tissues, CRISPR edited cell lines and mouse models, we have identified a silencer element that is lost in ADLD patients and that specifically targets expression to oligodendrocytes. This element consists of CTCF binding sites that mediate three-dimensional chromatin looping involving LMNB1 and the recruitment of the PRC2 transcriptional repressor complex. Loss of the silencer element in ADLD identifies a role for non-coding regulatory elements in tissue specificity and disease causation.

AB - The role of non-coding regulatory elements and how they might contribute to tissue type specificity of disease phenotypes is poorly understood. Autosomal Dominant Leukodystrophy (ADLD) is a fatal, adult-onset, neurological disorder that is characterized by extensive CNS demyelination. Most cases of ADLD are caused by tandem genomic duplications involving the lamin B1 gene (LMNB1) while a small subset are caused by genomic deletions upstream of the gene. Utilizing data from recently identified families that carry LMNB1 gene duplications but do not exhibit demyelination, ADLD patient tissues, CRISPR edited cell lines and mouse models, we have identified a silencer element that is lost in ADLD patients and that specifically targets expression to oligodendrocytes. This element consists of CTCF binding sites that mediate three-dimensional chromatin looping involving LMNB1 and the recruitment of the PRC2 transcriptional repressor complex. Loss of the silencer element in ADLD identifies a role for non-coding regulatory elements in tissue specificity and disease causation.

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U2 - 10.1038/s41467-025-56378-9

DO - 10.1038/s41467-025-56378-9

M3 - Article

C2 - 39910058

SN - 2041-1723

VL - 16

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 1373

ER -

An oligodendrocyte silencer element underlies the pathogenic impact of lamin B1 structural variants

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