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Modeling the pathological long-range regulatory effects of human structural variation with patient-specific hiPSCs

Modeling the pathological long-range regulatory effects of human structural variation with patient-specific hiPSCs
Modeling the pathological long-range regulatory effects of human structural variation with patient-specific hiPSCs

The pathological consequences of structural variants disrupting 3D genome organization can be difficult to elucidate in vivo due to differences in gene dosage sensitivity between mice and humans. This is illustrated by branchiooculofacial syndrome (BOFS), a rare congenital disorder caused by heterozygous mutations within TFAP2A, a neural crest regulator for which humans, but not mice, are haploinsufficient. Here, we present a BOFS patient carrying a heterozygous inversion with one breakpoint located within a topologically associating domain (TAD) containing enhancers essential for TFAP2A expression in human neural crest cells (hNCCs). Using patient-specific hiPSCs, we show that, although the inversion shuffles the TFAP2A hNCC enhancers with novel genes within the same TAD, this does not result in enhancer adoption. Instead, the inversion disconnects one TFAP2A allele from its cognate enhancers, leading to monoallelic and haploinsufficient TFAP2A expression in patient hNCCs. Our work illustrates the power of hiPSC differentiation to unveil long-range pathomechanisms. Elucidating the long-range pathomechanisms of structural variants in vivo is often difficult due to differences in gene dosage sensitivity between mice and humans. Laugsch et al. combined neural crest cells derived from patient-specific hiPSCs and functional genomics to demonstrate that an inversion causes BOFS by disconnecting TFAP2A from its enhancers.

BOFS, enhancer adoption, enhancer disconnection, enhancers, haploinsufficiency, long-range regulation, neural crest, structural variation, TAD, TFAP2A
1934-5909
736-752.e12
Laugsch, Magdalena
4e37840a-1e9b-4666-aca0-b48088482cc1
Bartusel, Michaela
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Rehimi, Rizwan
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Alirzayeva, Hafiza
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Karaolidou, Agathi
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Crispatzu, Giuliano
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Zentis, Peter
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Nikolic, Milos
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Bleckwehl, Tore
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Kolovos, Petros
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van Ijcken, Wilfred F.J.
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Šarić, Tomo
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Koehler, Katrin
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Frommolt, Peter
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Lachlan, Katherine
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Baptista, Julia
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Rada-Iglesias, Alvaro
ec0f5702-4f62-4356-8c66-e8898512b3dc
Laugsch, Magdalena
4e37840a-1e9b-4666-aca0-b48088482cc1
Bartusel, Michaela
9af9e9e9-fb93-408d-8437-ab872942e8fd
Rehimi, Rizwan
be792e1c-104a-4b01-9695-6fafce91d91a
Alirzayeva, Hafiza
cfa78e0a-ff0c-45ac-82fe-9fff4e640ab7
Karaolidou, Agathi
cf45f665-950a-47e4-b907-1f6d97688d1a
Crispatzu, Giuliano
5b85eb14-6a2d-4405-8695-b29ac4204d7f
Zentis, Peter
0fd93538-2833-42f4-80c9-ceaf9703dca1
Nikolic, Milos
e300a8fa-360c-4a6a-9dfb-0cd150ba451d
Bleckwehl, Tore
4478a68b-56e8-43de-98fa-fc079175a63c
Kolovos, Petros
31a6f3a5-1003-4114-b98f-1e5df3fa90a5
van Ijcken, Wilfred F.J.
273cc935-3d60-457b-a596-d17f7aedd60d
Šarić, Tomo
e2d5c586-eb2a-457a-a687-f43887c1d9fa
Koehler, Katrin
b5a80424-8f7f-494b-9a5f-6cf588dd10c6
Frommolt, Peter
639b1d97-b167-4f48-b42d-a7fad96e062e
Lachlan, Katherine
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Baptista, Julia
92a1ad49-3c8a-44c3-8bb1-1950f3c255b1
Rada-Iglesias, Alvaro
ec0f5702-4f62-4356-8c66-e8898512b3dc

Laugsch, Magdalena, Bartusel, Michaela, Rehimi, Rizwan, Alirzayeva, Hafiza, Karaolidou, Agathi, Crispatzu, Giuliano, Zentis, Peter, Nikolic, Milos, Bleckwehl, Tore, Kolovos, Petros, van Ijcken, Wilfred F.J., Šarić, Tomo, Koehler, Katrin, Frommolt, Peter, Lachlan, Katherine, Baptista, Julia and Rada-Iglesias, Alvaro (2019) Modeling the pathological long-range regulatory effects of human structural variation with patient-specific hiPSCs. Cell Stem Cell, 24 (5), 736-752.e12. (doi:10.1016/j.stem.2019.03.004).

Record type: Article

Abstract

The pathological consequences of structural variants disrupting 3D genome organization can be difficult to elucidate in vivo due to differences in gene dosage sensitivity between mice and humans. This is illustrated by branchiooculofacial syndrome (BOFS), a rare congenital disorder caused by heterozygous mutations within TFAP2A, a neural crest regulator for which humans, but not mice, are haploinsufficient. Here, we present a BOFS patient carrying a heterozygous inversion with one breakpoint located within a topologically associating domain (TAD) containing enhancers essential for TFAP2A expression in human neural crest cells (hNCCs). Using patient-specific hiPSCs, we show that, although the inversion shuffles the TFAP2A hNCC enhancers with novel genes within the same TAD, this does not result in enhancer adoption. Instead, the inversion disconnects one TFAP2A allele from its cognate enhancers, leading to monoallelic and haploinsufficient TFAP2A expression in patient hNCCs. Our work illustrates the power of hiPSC differentiation to unveil long-range pathomechanisms. Elucidating the long-range pathomechanisms of structural variants in vivo is often difficult due to differences in gene dosage sensitivity between mice and humans. Laugsch et al. combined neural crest cells derived from patient-specific hiPSCs and functional genomics to demonstrate that an inversion causes BOFS by disconnecting TFAP2A from its enhancers.

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More information

Accepted/In Press date: 6 March 2019
e-pub ahead of print date: 11 April 2019
Published date: 2 May 2019
Keywords: BOFS, enhancer adoption, enhancer disconnection, enhancers, haploinsufficiency, long-range regulation, neural crest, structural variation, TAD, TFAP2A
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Identifiers

Local EPrints ID: 432812
URI: http://eprints.soton.ac.uk/id/eprint/432812
DOI: doi:10.1016/j.stem.2019.03.004
ISSN: 1934-5909
PURE UUID: ca1ab550-8b48-49c6-9921-d32eb59aff50

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Date deposited: 26 Jul 2019 16:30
Last modified: 17 Mar 2024 12:26

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Contributors

Author: Magdalena Laugsch
Author: Michaela Bartusel
Author: Rizwan Rehimi
Author: Hafiza Alirzayeva
Author: Agathi Karaolidou
Author: Giuliano Crispatzu
Author: Peter Zentis
Author: Milos Nikolic
Author: Tore Bleckwehl
Author: Petros Kolovos
Author: Wilfred F.J. van Ijcken
Author: Tomo Šarić
Author: Katrin Koehler
Author: Peter Frommolt
Author: Katherine Lachlan
Author: Julia Baptista
Author: Alvaro Rada-Iglesias

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