Differential Expression Analyses on Human Aortic Tissue Reveal Novel Genes and Pathways Associated With Abdominal Aortic Aneurysm Onset and Progression

Gerard Temprano-Sagrera; Olga Peypoch; Begoña Soto; Jaume Dilmé; Laura Calsina Juscafresa; David Davtian; Mireia de la Rosa Estadella; Lluís Nieto; Andrew Brown; José Román Escudero; Ana Viñuela; Mercedes Camacho; Maria Sabater-Lleal

doi:10.1161/JAHA.124.036082

Differential Expression Analyses on Human Aortic Tissue Reveal Novel Genes and Pathways Associated With Abdominal Aortic Aneurysm Onset and Progression

Gerard Temprano-Sagrera, Olga Peypoch, Begoña Soto, Jaume Dilmé, Laura Calsina Juscafresa, David Davtian, Mireia de la Rosa Estadella, Lluís Nieto, Andrew Brown, José Román Escudero, Ana Viñuela, Mercedes Camacho, Maria Sabater-Lleal (Lead / Corresponding author)

Population Health and Genomics

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Abstract

BACKGROUND: Abdominal aortic aneurysms (AAAs) are focal dilatations of the abdominal aorta that expand progressively, increasing their risk of rupture. Rupture of an AAA is associated with high mortality rates, but the mechanisms underlying the initiation, expansion, and rupture of AAAs are not yet fully understood. We aimed to characterize the pathophysiology of AAAs and identify new genes associated with AAA initiation and progression.

METHODS AND RESULTS: This study used RNA sequencing data on 140 samples, becoming the largest RNA sequencing data set for differential expression studies of AAAs. We performed differential expression analyses and analyses of differential splicing between dilated and nondilated aortic tissue samples, and between AAAs of different diameters. We identified 3002 differentially expressed genes between AAAs and controls that were independent of ischemic time, 1425 of which were new. Additionally, 8 genes (EXTL3, ZFR, DUSP8, DISP1, USP33, VPS37C, ZNF784, RFX1) were differentially expressed between AAAs of varying diameters and between AAAs and control samples. Finally, 7 genes (SPP1, FHL1, GNAS, MORF4L2, HMGN1, ARL1, RNASE4) with differential splicing patterns were also differentially expressed genes between AAAs and controls, suggesting that splicing differences in these genes may contribute to the observed expression changes and disease development.

CONCLUSIONS: This study identifies new genes and splicing patterns associated with AAAs and validates previous relevant pathways on AAAs. These findings contribute to the understanding of the complex mechanisms underlying AAAs and may provide potential targets to limit AAA progression and mortality risk.

Original language	English
Article number	e036082
Number of pages	16
Journal	Journal of the American Heart Association
Volume	13
Issue number	24
Early online date	10 Dec 2024
DOIs	https://doi.org/10.1161/JAHA.124.036082
Publication status	Published - 17 Dec 2024

Keywords

abdominal aortic aneurysm
allele-specific expression
alternative splicing
differential expression
transcriptomics

ASJC Scopus subject areas

Cardiology and Cardiovascular Medicine

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10.1161/JAHA.124.036082Licence: CC BY-NC

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Temprano-Sagrera, G., Peypoch, O., Soto, B., Dilmé, J., Juscafresa, L. C., Davtian, D., Estadella, M. D. L. R., Nieto, L., Brown, A., Escudero, J. R., Viñuela, A., Camacho, M., & Sabater-Lleal, M. (2024). Differential Expression Analyses on Human Aortic Tissue Reveal Novel Genes and Pathways Associated With Abdominal Aortic Aneurysm Onset and Progression. Journal of the American Heart Association, 13(24), Article e036082. https://doi.org/10.1161/JAHA.124.036082

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title = "Differential Expression Analyses on Human Aortic Tissue Reveal Novel Genes and Pathways Associated With Abdominal Aortic Aneurysm Onset and Progression",

abstract = "BACKGROUND: Abdominal aortic aneurysms (AAAs) are focal dilatations of the abdominal aorta that expand progressively, increasing their risk of rupture. Rupture of an AAA is associated with high mortality rates, but the mechanisms underlying the initiation, expansion, and rupture of AAAs are not yet fully understood. We aimed to characterize the pathophysiology of AAAs and identify new genes associated with AAA initiation and progression. METHODS AND RESULTS: This study used RNA sequencing data on 140 samples, becoming the largest RNA sequencing data set for differential expression studies of AAAs. We performed differential expression analyses and analyses of differential splicing between dilated and nondilated aortic tissue samples, and between AAAs of different diameters. We identified 3002 differentially expressed genes between AAAs and controls that were independent of ischemic time, 1425 of which were new. Additionally, 8 genes (EXTL3, ZFR, DUSP8, DISP1, USP33, VPS37C, ZNF784, RFX1) were differentially expressed between AAAs of varying diameters and between AAAs and control samples. Finally, 7 genes (SPP1, FHL1, GNAS, MORF4L2, HMGN1, ARL1, RNASE4) with differential splicing patterns were also differentially expressed genes between AAAs and controls, suggesting that splicing differences in these genes may contribute to the observed expression changes and disease development. CONCLUSIONS: This study identifies new genes and splicing patterns associated with AAAs and validates previous relevant pathways on AAAs. These findings contribute to the understanding of the complex mechanisms underlying AAAs and may provide potential targets to limit AAA progression and mortality risk.",

keywords = "abdominal aortic aneurysm, allele-specific expression, alternative splicing, differential expression, transcriptomics",

author = "Gerard Temprano-Sagrera and Olga Peypoch and Bego{\~n}a Soto and Jaume Dilm{\'e} and Juscafresa, {Laura Calsina} and David Davtian and Estadella, {Mireia de la Rosa} and Llu{\'i}s Nieto and Andrew Brown and Escudero, {Jos{\'e} Rom{\'a}n} and Ana Vi{\~n}uela and Mercedes Camacho and Maria Sabater-Lleal",

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year = "2024",

month = dec,

day = "17",

doi = "10.1161/JAHA.124.036082",

language = "English",

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Temprano-Sagrera, G, Peypoch, O, Soto, B, Dilmé, J, Juscafresa, LC, Davtian, D, Estadella, MDLR, Nieto, L, Brown, A, Escudero, JR, Viñuela, A, Camacho, M & Sabater-Lleal, M 2024, 'Differential Expression Analyses on Human Aortic Tissue Reveal Novel Genes and Pathways Associated With Abdominal Aortic Aneurysm Onset and Progression', Journal of the American Heart Association, vol. 13, no. 24, e036082. https://doi.org/10.1161/JAHA.124.036082

TY - JOUR

T1 - Differential Expression Analyses on Human Aortic Tissue Reveal Novel Genes and Pathways Associated With Abdominal Aortic Aneurysm Onset and Progression

AU - Temprano-Sagrera, Gerard

AU - Peypoch, Olga

AU - Soto, Begoña

AU - Dilmé, Jaume

AU - Juscafresa, Laura Calsina

AU - Davtian, David

AU - Estadella, Mireia de la Rosa

AU - Nieto, Lluís

AU - Brown, Andrew

AU - Escudero, José Román

AU - Viñuela, Ana

AU - Camacho, Mercedes

AU - Sabater-Lleal, Maria

PY - 2024/12/17

Y1 - 2024/12/17

N2 - BACKGROUND: Abdominal aortic aneurysms (AAAs) are focal dilatations of the abdominal aorta that expand progressively, increasing their risk of rupture. Rupture of an AAA is associated with high mortality rates, but the mechanisms underlying the initiation, expansion, and rupture of AAAs are not yet fully understood. We aimed to characterize the pathophysiology of AAAs and identify new genes associated with AAA initiation and progression. METHODS AND RESULTS: This study used RNA sequencing data on 140 samples, becoming the largest RNA sequencing data set for differential expression studies of AAAs. We performed differential expression analyses and analyses of differential splicing between dilated and nondilated aortic tissue samples, and between AAAs of different diameters. We identified 3002 differentially expressed genes between AAAs and controls that were independent of ischemic time, 1425 of which were new. Additionally, 8 genes (EXTL3, ZFR, DUSP8, DISP1, USP33, VPS37C, ZNF784, RFX1) were differentially expressed between AAAs of varying diameters and between AAAs and control samples. Finally, 7 genes (SPP1, FHL1, GNAS, MORF4L2, HMGN1, ARL1, RNASE4) with differential splicing patterns were also differentially expressed genes between AAAs and controls, suggesting that splicing differences in these genes may contribute to the observed expression changes and disease development. CONCLUSIONS: This study identifies new genes and splicing patterns associated with AAAs and validates previous relevant pathways on AAAs. These findings contribute to the understanding of the complex mechanisms underlying AAAs and may provide potential targets to limit AAA progression and mortality risk.

AB - BACKGROUND: Abdominal aortic aneurysms (AAAs) are focal dilatations of the abdominal aorta that expand progressively, increasing their risk of rupture. Rupture of an AAA is associated with high mortality rates, but the mechanisms underlying the initiation, expansion, and rupture of AAAs are not yet fully understood. We aimed to characterize the pathophysiology of AAAs and identify new genes associated with AAA initiation and progression. METHODS AND RESULTS: This study used RNA sequencing data on 140 samples, becoming the largest RNA sequencing data set for differential expression studies of AAAs. We performed differential expression analyses and analyses of differential splicing between dilated and nondilated aortic tissue samples, and between AAAs of different diameters. We identified 3002 differentially expressed genes between AAAs and controls that were independent of ischemic time, 1425 of which were new. Additionally, 8 genes (EXTL3, ZFR, DUSP8, DISP1, USP33, VPS37C, ZNF784, RFX1) were differentially expressed between AAAs of varying diameters and between AAAs and control samples. Finally, 7 genes (SPP1, FHL1, GNAS, MORF4L2, HMGN1, ARL1, RNASE4) with differential splicing patterns were also differentially expressed genes between AAAs and controls, suggesting that splicing differences in these genes may contribute to the observed expression changes and disease development. CONCLUSIONS: This study identifies new genes and splicing patterns associated with AAAs and validates previous relevant pathways on AAAs. These findings contribute to the understanding of the complex mechanisms underlying AAAs and may provide potential targets to limit AAA progression and mortality risk.

KW - abdominal aortic aneurysm

KW - allele-specific expression

KW - alternative splicing

KW - differential expression

KW - transcriptomics

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U2 - 10.1161/JAHA.124.036082

DO - 10.1161/JAHA.124.036082

M3 - Article

C2 - 39655704

AN - SCOPUS:85212991073

SN - 2047-9980

VL - 13

JO - Journal of the American Heart Association

JF - Journal of the American Heart Association

IS - 24

M1 - e036082

ER -

Differential Expression Analyses on Human Aortic Tissue Reveal Novel Genes and Pathways Associated With Abdominal Aortic Aneurysm Onset and Progression

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