LRFN5 locus structure is associated with autism and influenced by the sex of the individual and locus conversions

LRFN5 is a regulator of synaptic development and the only gene in a 5.4 Mb mammalian‐specific conserved topologically associating domain (TAD); the LRFN5 locus. An association between locus structural changes and developmental delay (DD) and/or autism was suggested by several cases in DECIPHER and o...

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Autores principales: Lybæk, Helle, Robson, Michael, de Leeuw, Nicole, Hehir‐Kwa, Jayne Y., Jeffries, Aaron, Haukanes, Bjørn Ivar, Berland, Siren, de Bruijn, Diederik, Mundlos, Stefan, Spielmann, Malte, Houge, Gunnar
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley & Sons, Inc. 2022
Materias:
OMICS
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9305582/
https://www.ncbi.nlm.nih.gov/pubmed/35088940
http://dx.doi.org/10.1002/aur.2677
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author Lybæk, Helle
Robson, Michael
de Leeuw, Nicole
Hehir‐Kwa, Jayne Y.
Jeffries, Aaron
Haukanes, Bjørn Ivar
Berland, Siren
de Bruijn, Diederik
Mundlos, Stefan
Spielmann, Malte
Houge, Gunnar
author_facet Lybæk, Helle
Robson, Michael
de Leeuw, Nicole
Hehir‐Kwa, Jayne Y.
Jeffries, Aaron
Haukanes, Bjørn Ivar
Berland, Siren
de Bruijn, Diederik
Mundlos, Stefan
Spielmann, Malte
Houge, Gunnar
author_sort Lybæk, Helle
collection PubMed
description LRFN5 is a regulator of synaptic development and the only gene in a 5.4 Mb mammalian‐specific conserved topologically associating domain (TAD); the LRFN5 locus. An association between locus structural changes and developmental delay (DD) and/or autism was suggested by several cases in DECIPHER and own records. More significantly, we found that maternal inheritance of a specific LRFN5 locus haplotype segregated with an identical type of autism in distantly related males. This autism‐susceptibility haplotype had a specific TAD pattern. We also found a male/female quantitative difference in the amount histone‐3‐lysine‐9‐associated chromatin around the LRFN5 gene itself (p < 0.01), possibly related to the male‐restricted autism susceptibility. To better understand locus behavior, the prevalence of a 60 kb deletion polymorphism was investigated. Surprisingly, in three cohorts of individuals with DD (n = 8757), the number of deletion heterozygotes was 20%–26% lower than expected from Hardy–Weinberg equilibrium. This suggests allelic interaction, also because the conversions from heterozygosity to wild‐type or deletion homozygosity were of equal magnitudes. Remarkably, in a control group of medical students (n = 1416), such conversions were three times more common (p = 0.00001), suggesting a regulatory role of this allelic interaction. Taken together, LRFN5 regulation appears unusually complex, and LRFN5 dysregulation could be an epigenetic cause of autism. LAY SUMMARY: LRFN5 is involved with communication between brain cells. The gene sits alone in a huge genomic niche, called the LRFN5 locus, of complex structure and high mammalian conservation. We have found that a specific locus structure increases autism susceptibility in males, but we do not yet know how common this epigenetic cause of autism is. It is, however, a cause that potentially could explain why higher‐functioning autism is more common in males than females.
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spelling pubmed-93055822022-07-28 LRFN5 locus structure is associated with autism and influenced by the sex of the individual and locus conversions Lybæk, Helle Robson, Michael de Leeuw, Nicole Hehir‐Kwa, Jayne Y. Jeffries, Aaron Haukanes, Bjørn Ivar Berland, Siren de Bruijn, Diederik Mundlos, Stefan Spielmann, Malte Houge, Gunnar Autism Res OMICS LRFN5 is a regulator of synaptic development and the only gene in a 5.4 Mb mammalian‐specific conserved topologically associating domain (TAD); the LRFN5 locus. An association between locus structural changes and developmental delay (DD) and/or autism was suggested by several cases in DECIPHER and own records. More significantly, we found that maternal inheritance of a specific LRFN5 locus haplotype segregated with an identical type of autism in distantly related males. This autism‐susceptibility haplotype had a specific TAD pattern. We also found a male/female quantitative difference in the amount histone‐3‐lysine‐9‐associated chromatin around the LRFN5 gene itself (p < 0.01), possibly related to the male‐restricted autism susceptibility. To better understand locus behavior, the prevalence of a 60 kb deletion polymorphism was investigated. Surprisingly, in three cohorts of individuals with DD (n = 8757), the number of deletion heterozygotes was 20%–26% lower than expected from Hardy–Weinberg equilibrium. This suggests allelic interaction, also because the conversions from heterozygosity to wild‐type or deletion homozygosity were of equal magnitudes. Remarkably, in a control group of medical students (n = 1416), such conversions were three times more common (p = 0.00001), suggesting a regulatory role of this allelic interaction. Taken together, LRFN5 regulation appears unusually complex, and LRFN5 dysregulation could be an epigenetic cause of autism. LAY SUMMARY: LRFN5 is involved with communication between brain cells. The gene sits alone in a huge genomic niche, called the LRFN5 locus, of complex structure and high mammalian conservation. We have found that a specific locus structure increases autism susceptibility in males, but we do not yet know how common this epigenetic cause of autism is. It is, however, a cause that potentially could explain why higher‐functioning autism is more common in males than females. John Wiley & Sons, Inc. 2022-01-28 2022-03 /pmc/articles/PMC9305582/ /pubmed/35088940 http://dx.doi.org/10.1002/aur.2677 Text en © 2022 The Authors. Autism Research published by International Society for Autism Research and Wiley Periodicals LLC. https://creativecommons.org/licenses/by-nc/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc/4.0/ (https://creativecommons.org/licenses/by-nc/4.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.
spellingShingle OMICS
Lybæk, Helle
Robson, Michael
de Leeuw, Nicole
Hehir‐Kwa, Jayne Y.
Jeffries, Aaron
Haukanes, Bjørn Ivar
Berland, Siren
de Bruijn, Diederik
Mundlos, Stefan
Spielmann, Malte
Houge, Gunnar
LRFN5 locus structure is associated with autism and influenced by the sex of the individual and locus conversions
title LRFN5 locus structure is associated with autism and influenced by the sex of the individual and locus conversions
title_full LRFN5 locus structure is associated with autism and influenced by the sex of the individual and locus conversions
title_fullStr LRFN5 locus structure is associated with autism and influenced by the sex of the individual and locus conversions
title_full_unstemmed LRFN5 locus structure is associated with autism and influenced by the sex of the individual and locus conversions
title_short LRFN5 locus structure is associated with autism and influenced by the sex of the individual and locus conversions
title_sort lrfn5 locus structure is associated with autism and influenced by the sex of the individual and locus conversions
topic OMICS
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9305582/
https://www.ncbi.nlm.nih.gov/pubmed/35088940
http://dx.doi.org/10.1002/aur.2677
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