Unraveling the role of TGFβ signaling in thoracic aortic aneurysm and dissection using Fbn1 mutant mouse models

Violette Deleeuw; Eric Carlson; Marjolijn Renard; Keith D. Zientek; Phillip A. Wilmarth; Ashok P. Reddy; Elise C. Manalo; Sara F. Tufa; Douglas R. Keene; Margie Olbinado; Marco Stampanoni; Sachiko Kanki; Hiromi Yanagisawa; Laura Muiño Mosquera; Patrick Sips; Julie De Backer; Lynn Y. Sakai

doi:10.1016/j.matbio.2023.09.001

Unraveling the role of TGFβ signaling in thoracic aortic aneurysm and dissection using Fbn1 mutant mouse models

Violette Deleeuw, Eric Carlson, Marjolijn Renard, Keith D. Zientek, Phillip A. Wilmarth, Ashok P. Reddy, Elise C. Manalo, Sara F. Tufa, Douglas R. Keene, Margie Olbinado, Marco Stampanoni, Sachiko Kanki, Hiromi Yanagisawa, Laura Muiño Mosquera, Patrick Sips, Julie De Backer, Lynn Y. Sakai

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

3 Scopus citations

Abstract

Although abnormal TGFβ signaling is observed in several heritable forms of thoracic aortic aneurysms and dissections including Marfan syndrome, its precise role in aortic disease progression is still disputed. Using a mouse genetic approach and quantitative isobaric labeling proteomics, we sought to elucidate the role of TGFβ signaling in three Fbn1 mutant mouse models representing a range of aortic disease from microdissection (without aneurysm) to aneurysm (without rupture) to aneurysm and rupture. Results indicated that reduced TGFβ signaling and increased mast cell proteases were associated with microdissection. In contrast, increased abundance of extracellular matrix proteins, which could be reporters for positive TGFβ signaling, were associated with aneurysm. Marked reductions in collagens and fibrillins, and increased TGFβ signaling, were associated with aortic rupture. Our data indicate that TGFβ signaling performs context-dependent roles in the pathogenesis of thoracic aortic disease.

Original language	English (US)
Pages (from-to)	17-33
Number of pages	17
Journal	Matrix Biology
Volume	123
DOIs	https://doi.org/10.1016/j.matbio.2023.09.001
State	Published - Nov 2023

Keywords

Aortic aneurysm and dissection
Fibrillin
Marfan syndrome
Mouse models
TGFβ signaling

ASJC Scopus subject areas

Molecular Biology

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10.1016/j.matbio.2023.09.001

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Deleeuw, V., Carlson, E., Renard, M., Zientek, K. D., Wilmarth, P. A., Reddy, A. P., Manalo, E. C., Tufa, S. F., Keene, D. R., Olbinado, M., Stampanoni, M., Kanki, S., Yanagisawa, H., Mosquera, L. M., Sips, P., De Backer, J., & Sakai, L. Y. (2023). Unraveling the role of TGFβ signaling in thoracic aortic aneurysm and dissection using Fbn1 mutant mouse models. Matrix Biology, 123, 17-33. https://doi.org/10.1016/j.matbio.2023.09.001

Deleeuw, V, Carlson, E, Renard, M, Zientek, KD, Wilmarth, PA, Reddy, AP, Manalo, EC, Tufa, SF, Keene, DR, Olbinado, M, Stampanoni, M, Kanki, S, Yanagisawa, H, Mosquera, LM, Sips, P, De Backer, J & Sakai, LY 2023, 'Unraveling the role of TGFβ signaling in thoracic aortic aneurysm and dissection using Fbn1 mutant mouse models', Matrix Biology, vol. 123, pp. 17-33. https://doi.org/10.1016/j.matbio.2023.09.001

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title = "Unraveling the role of TGFβ signaling in thoracic aortic aneurysm and dissection using Fbn1 mutant mouse models",

abstract = "Although abnormal TGFβ signaling is observed in several heritable forms of thoracic aortic aneurysms and dissections including Marfan syndrome, its precise role in aortic disease progression is still disputed. Using a mouse genetic approach and quantitative isobaric labeling proteomics, we sought to elucidate the role of TGFβ signaling in three Fbn1 mutant mouse models representing a range of aortic disease from microdissection (without aneurysm) to aneurysm (without rupture) to aneurysm and rupture. Results indicated that reduced TGFβ signaling and increased mast cell proteases were associated with microdissection. In contrast, increased abundance of extracellular matrix proteins, which could be reporters for positive TGFβ signaling, were associated with aneurysm. Marked reductions in collagens and fibrillins, and increased TGFβ signaling, were associated with aortic rupture. Our data indicate that TGFβ signaling performs context-dependent roles in the pathogenesis of thoracic aortic disease.",

keywords = "Aortic aneurysm and dissection, Fibrillin, Marfan syndrome, Mouse models, TGFβ signaling",

author = "Violette Deleeuw and Eric Carlson and Marjolijn Renard and Zientek, {Keith D.} and Wilmarth, {Phillip A.} and Reddy, {Ashok P.} and Manalo, {Elise C.} and Tufa, {Sara F.} and Keene, {Douglas R.} and Margie Olbinado and Marco Stampanoni and Sachiko Kanki and Hiromi Yanagisawa and Mosquera, {Laura Mui{\~n}o} and Patrick Sips and {De Backer}, Julie and Sakai, {Lynn Y.}",

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year = "2023",

month = nov,

doi = "10.1016/j.matbio.2023.09.001",

language = "English (US)",

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T1 - Unraveling the role of TGFβ signaling in thoracic aortic aneurysm and dissection using Fbn1 mutant mouse models

AU - Deleeuw, Violette

AU - Carlson, Eric

AU - Renard, Marjolijn

AU - Zientek, Keith D.

AU - Wilmarth, Phillip A.

AU - Reddy, Ashok P.

AU - Manalo, Elise C.

AU - Tufa, Sara F.

AU - Keene, Douglas R.

AU - Olbinado, Margie

AU - Stampanoni, Marco

AU - Kanki, Sachiko

AU - Yanagisawa, Hiromi

AU - Mosquera, Laura Muiño

AU - Sips, Patrick

AU - De Backer, Julie

AU - Sakai, Lynn Y.

PY - 2023/11

Y1 - 2023/11

N2 - Although abnormal TGFβ signaling is observed in several heritable forms of thoracic aortic aneurysms and dissections including Marfan syndrome, its precise role in aortic disease progression is still disputed. Using a mouse genetic approach and quantitative isobaric labeling proteomics, we sought to elucidate the role of TGFβ signaling in three Fbn1 mutant mouse models representing a range of aortic disease from microdissection (without aneurysm) to aneurysm (without rupture) to aneurysm and rupture. Results indicated that reduced TGFβ signaling and increased mast cell proteases were associated with microdissection. In contrast, increased abundance of extracellular matrix proteins, which could be reporters for positive TGFβ signaling, were associated with aneurysm. Marked reductions in collagens and fibrillins, and increased TGFβ signaling, were associated with aortic rupture. Our data indicate that TGFβ signaling performs context-dependent roles in the pathogenesis of thoracic aortic disease.

AB - Although abnormal TGFβ signaling is observed in several heritable forms of thoracic aortic aneurysms and dissections including Marfan syndrome, its precise role in aortic disease progression is still disputed. Using a mouse genetic approach and quantitative isobaric labeling proteomics, we sought to elucidate the role of TGFβ signaling in three Fbn1 mutant mouse models representing a range of aortic disease from microdissection (without aneurysm) to aneurysm (without rupture) to aneurysm and rupture. Results indicated that reduced TGFβ signaling and increased mast cell proteases were associated with microdissection. In contrast, increased abundance of extracellular matrix proteins, which could be reporters for positive TGFβ signaling, were associated with aneurysm. Marked reductions in collagens and fibrillins, and increased TGFβ signaling, were associated with aortic rupture. Our data indicate that TGFβ signaling performs context-dependent roles in the pathogenesis of thoracic aortic disease.

KW - Aortic aneurysm and dissection

KW - Fibrillin

KW - Marfan syndrome

KW - Mouse models

KW - TGFβ signaling

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Unraveling the role of TGFβ signaling in thoracic aortic aneurysm and dissection using Fbn1 mutant mouse models

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