Selenoprotein deficiency disorder predisposes to aortic aneurysm formation

Erik Schoenmakers; Federica Marelli; Helle F. Jørgensen; W. Edward Visser; Carla Moran; Stefan Groeneweg; Carolina Avalos; Sean J. Jurgens; Nichola Figg; Alison Finigan; Neha Wali; Maura Agostini; Hannah Wardle-Jones; Greta Lyons; Rosemary Rusk; Deepa Gopalan; Philip Twiss; Jacob J. Visser; Martin Goddard; Samer A. M. Nashef; Robin Heijmen; Paul Clift; Sanjay Sinha; James P. Pirruccello; Patrick T. Ellinor; Elisabeth M. Busch-Nentwich; Ramiro Ramirez-Solis; Michael P. Murphy; Luca Persani; Martin Bennett; Krishna Chatterjee

doi:10.1038/s41467-023-43851-6

Selenoprotein deficiency disorder predisposes to aortic aneurysm formation

Erik Schoenmakers, Federica Marelli, Helle F. Jørgensen, W. Edward Visser, Carla Moran, Stefan Groeneweg, Carolina Avalos, Sean J. Jurgens, Nichola Figg, Alison Finigan, Neha Wali, Maura Agostini, Hannah Wardle-Jones, Greta Lyons, Rosemary Rusk, Deepa Gopalan, Philip Twiss, Jacob J. Visser, Martin Goddard, Samer A. M. NashefRobin Heijmen, Paul Clift, Sanjay Sinha, James P. Pirruccello, Patrick T. Ellinor, Elisabeth M. Busch-Nentwich, Ramiro Ramirez-Solis, Michael P. Murphy, Luca Persani, Martin Bennett, Krishna Chatterjee

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

1 Citation (Scopus)

Abstract

Aortic aneurysms, which may dissect or rupture acutely and be lethal, can be a part of multisystem disorders that have a heritable basis. We report four patients with deficiency of selenocysteine-containing proteins due to selenocysteine Insertion Sequence Binding Protein 2 (SECISBP2) mutations who show early-onset, progressive, aneurysmal dilatation of the ascending aorta due to cystic medial necrosis. Zebrafish and male mice with global or vascular smooth muscle cell (VSMC)-targeted disruption of Secisbp2 respectively show similar aortopathy. Aortas from patients and animal models exhibit raised cellular reactive oxygen species, oxidative DNA damage and VSMC apoptosis. Antioxidant exposure or chelation of iron prevents oxidative damage in patient’s cells and aortopathy in the zebrafish model. Our observations suggest a key role for oxidative stress and cell death, including via ferroptosis, in mediating aortic degeneration.

Original language	English
Article number	7994
Journal	Nature communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-43851-6
Publication status	Published - 1 Dec 2023

Access to Document

10.1038/s41467-023-43851-6

Cite this

Schoenmakers, E., Marelli, F., Jørgensen, H. F., Visser, W. E., Moran, C., Groeneweg, S., Avalos, C., Jurgens, S. J., Figg, N., Finigan, A., Wali, N., Agostini, M., Wardle-Jones, H., Lyons, G., Rusk, R., Gopalan, D., Twiss, P., Visser, J. J., Goddard, M., ... Chatterjee, K. (2023). Selenoprotein deficiency disorder predisposes to aortic aneurysm formation. Nature communications, 14(1), Article 7994. https://doi.org/10.1038/s41467-023-43851-6

@article{875f20bf6dbc4909b5816dfe4299ff67,

title = "Selenoprotein deficiency disorder predisposes to aortic aneurysm formation",

abstract = "Aortic aneurysms, which may dissect or rupture acutely and be lethal, can be a part of multisystem disorders that have a heritable basis. We report four patients with deficiency of selenocysteine-containing proteins due to selenocysteine Insertion Sequence Binding Protein 2 (SECISBP2) mutations who show early-onset, progressive, aneurysmal dilatation of the ascending aorta due to cystic medial necrosis. Zebrafish and male mice with global or vascular smooth muscle cell (VSMC)-targeted disruption of Secisbp2 respectively show similar aortopathy. Aortas from patients and animal models exhibit raised cellular reactive oxygen species, oxidative DNA damage and VSMC apoptosis. Antioxidant exposure or chelation of iron prevents oxidative damage in patient{\textquoteright}s cells and aortopathy in the zebrafish model. Our observations suggest a key role for oxidative stress and cell death, including via ferroptosis, in mediating aortic degeneration.",

author = "Erik Schoenmakers and Federica Marelli and J{\o}rgensen, {Helle F.} and Visser, {W. Edward} and Carla Moran and Stefan Groeneweg and Carolina Avalos and Jurgens, {Sean J.} and Nichola Figg and Alison Finigan and Neha Wali and Maura Agostini and Hannah Wardle-Jones and Greta Lyons and Rosemary Rusk and Deepa Gopalan and Philip Twiss and Visser, {Jacob J.} and Martin Goddard and Nashef, {Samer A. M.} and Robin Heijmen and Paul Clift and Sanjay Sinha and Pirruccello, {James P.} and Ellinor, {Patrick T.} and Busch-Nentwich, {Elisabeth M.} and Ramiro Ramirez-Solis and Murphy, {Michael P.} and Luca Persani and Martin Bennett and Krishna Chatterjee",

year = "2023",

month = dec,

day = "1",

doi = "10.1038/s41467-023-43851-6",

language = "English",

volume = "14",

journal = "Nature communications",

issn = "2041-1723",

publisher = "Nature Publishing Group",

number = "1",

}

Schoenmakers, E, Marelli, F, Jørgensen, HF, Visser, WE, Moran, C, Groeneweg, S, Avalos, C, Jurgens, SJ, Figg, N, Finigan, A, Wali, N, Agostini, M, Wardle-Jones, H, Lyons, G, Rusk, R, Gopalan, D, Twiss, P, Visser, JJ, Goddard, M, Nashef, SAM, Heijmen, R, Clift, P, Sinha, S, Pirruccello, JP, Ellinor, PT, Busch-Nentwich, EM, Ramirez-Solis, R, Murphy, MP, Persani, L, Bennett, M & Chatterjee, K 2023, 'Selenoprotein deficiency disorder predisposes to aortic aneurysm formation', Nature communications, vol. 14, no. 1, 7994. https://doi.org/10.1038/s41467-023-43851-6

TY - JOUR

T1 - Selenoprotein deficiency disorder predisposes to aortic aneurysm formation

AU - Schoenmakers, Erik

AU - Marelli, Federica

AU - Jørgensen, Helle F.

AU - Visser, W. Edward

AU - Moran, Carla

AU - Groeneweg, Stefan

AU - Avalos, Carolina

AU - Jurgens, Sean J.

AU - Figg, Nichola

AU - Finigan, Alison

AU - Wali, Neha

AU - Agostini, Maura

AU - Wardle-Jones, Hannah

AU - Lyons, Greta

AU - Rusk, Rosemary

AU - Gopalan, Deepa

AU - Twiss, Philip

AU - Visser, Jacob J.

AU - Goddard, Martin

AU - Nashef, Samer A. M.

AU - Heijmen, Robin

AU - Clift, Paul

AU - Sinha, Sanjay

AU - Pirruccello, James P.

AU - Ellinor, Patrick T.

AU - Busch-Nentwich, Elisabeth M.

AU - Ramirez-Solis, Ramiro

AU - Murphy, Michael P.

AU - Persani, Luca

AU - Bennett, Martin

AU - Chatterjee, Krishna

PY - 2023/12/1

Y1 - 2023/12/1

N2 - Aortic aneurysms, which may dissect or rupture acutely and be lethal, can be a part of multisystem disorders that have a heritable basis. We report four patients with deficiency of selenocysteine-containing proteins due to selenocysteine Insertion Sequence Binding Protein 2 (SECISBP2) mutations who show early-onset, progressive, aneurysmal dilatation of the ascending aorta due to cystic medial necrosis. Zebrafish and male mice with global or vascular smooth muscle cell (VSMC)-targeted disruption of Secisbp2 respectively show similar aortopathy. Aortas from patients and animal models exhibit raised cellular reactive oxygen species, oxidative DNA damage and VSMC apoptosis. Antioxidant exposure or chelation of iron prevents oxidative damage in patient’s cells and aortopathy in the zebrafish model. Our observations suggest a key role for oxidative stress and cell death, including via ferroptosis, in mediating aortic degeneration.

AB - Aortic aneurysms, which may dissect or rupture acutely and be lethal, can be a part of multisystem disorders that have a heritable basis. We report four patients with deficiency of selenocysteine-containing proteins due to selenocysteine Insertion Sequence Binding Protein 2 (SECISBP2) mutations who show early-onset, progressive, aneurysmal dilatation of the ascending aorta due to cystic medial necrosis. Zebrafish and male mice with global or vascular smooth muscle cell (VSMC)-targeted disruption of Secisbp2 respectively show similar aortopathy. Aortas from patients and animal models exhibit raised cellular reactive oxygen species, oxidative DNA damage and VSMC apoptosis. Antioxidant exposure or chelation of iron prevents oxidative damage in patient’s cells and aortopathy in the zebrafish model. Our observations suggest a key role for oxidative stress and cell death, including via ferroptosis, in mediating aortic degeneration.

UR - https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85178380449&origin=inward

UR - https://www.ncbi.nlm.nih.gov/pubmed/38042913

U2 - 10.1038/s41467-023-43851-6

DO - 10.1038/s41467-023-43851-6

M3 - Article

C2 - 38042913

SN - 2041-1723

VL - 14

JO - Nature communications

JF - Nature communications

IS - 1

M1 - 7994

ER -

Selenoprotein deficiency disorder predisposes to aortic aneurysm formation

Abstract

Access to Document

Other files and links

Cite this