TY - JOUR
T1 - Genetic and functional analysis of Raynaud's syndrome implicates loci in vasculature and immunity
AU - Tervi, Anniina
AU - Ramste, Markus
AU - Abner, Erik
AU - Cheng, Paul
AU - Lane, Jacqueline M.
AU - Maher, Matthew
AU - Valliere, Jesse
AU - Lammi, Vilma
AU - Strausz, Satu
AU - Riikonen, Juha
AU - Nguyen, Trieu
AU - Martyn, Gabriella E.
AU - Sheth, Maya U.
AU - Xia, Fan
AU - Docampo, Mauro Lago
AU - Gu, Wenduo
AU - FinnGen, Estonian Biobank research team
AU - Esko, Tõnu
AU - Saxena, Richa
AU - Pirinen, Matti
AU - Palotie, Aarno
AU - Ripatti, Samuli
AU - Sinnott-Armstrong, Nasa
AU - Daly, Mark
AU - Engreitz, Jesse M.
AU - Rabinovitch, Marlene
AU - Heckman, Caroline A.
AU - Quertermous, Thomas
AU - Jones, Samuel E.
AU - Ollila, Hanna M.
N1 - Publisher Copyright:
© 2024 The Authors
PY - 2024
Y1 - 2024
N2 - Raynaud's syndrome is a dysautonomia where exposure to cold causes vasoconstriction and hypoxia, particularly in the extremities. We performed meta-analysis in four cohorts and discovered eight loci (ADRA2A, IRX1, NOS3, ACVR2A, TMEM51, PCDH10-DT, HLA, and RAB6C) where ADRA2A, ACVR2A, NOS3, TMEM51, and IRX1 co-localized with expression quantitative trait loci (eQTLs), particularly in distal arteries. CRISPR gene editing further showed that ADRA2A and NOS3 loci modified gene expression and in situ RNAscope clarified the specificity of ADRA2A in small vessels and IRX1 around small capillaries in the skin. A functional contraction assay in the cold showed lower contraction in ADRA2A-deficient and higher contraction in ADRA2A-overexpressing smooth muscle cells. Overall, our study highlights the power of genome-wide association testing with functional follow-up as a method to understand complex diseases. The results indicate temperature-dependent adrenergic signaling through ADRA2A, effects at the microvasculature by IRX1, endothelial signaling by NOS3, and immune mechanisms by the HLA locus in Raynaud's syndrome.
AB - Raynaud's syndrome is a dysautonomia where exposure to cold causes vasoconstriction and hypoxia, particularly in the extremities. We performed meta-analysis in four cohorts and discovered eight loci (ADRA2A, IRX1, NOS3, ACVR2A, TMEM51, PCDH10-DT, HLA, and RAB6C) where ADRA2A, ACVR2A, NOS3, TMEM51, and IRX1 co-localized with expression quantitative trait loci (eQTLs), particularly in distal arteries. CRISPR gene editing further showed that ADRA2A and NOS3 loci modified gene expression and in situ RNAscope clarified the specificity of ADRA2A in small vessels and IRX1 around small capillaries in the skin. A functional contraction assay in the cold showed lower contraction in ADRA2A-deficient and higher contraction in ADRA2A-overexpressing smooth muscle cells. Overall, our study highlights the power of genome-wide association testing with functional follow-up as a method to understand complex diseases. The results indicate temperature-dependent adrenergic signaling through ADRA2A, effects at the microvasculature by IRX1, endothelial signaling by NOS3, and immune mechanisms by the HLA locus in Raynaud's syndrome.
KW - 3121 General medicine, internal medicine and other clinical medicine
U2 - 10.1016/j.xgen.2024.100630
DO - 10.1016/j.xgen.2024.100630
M3 - Article
AN - SCOPUS:85203276996
SN - 2666-979X
VL - 4
JO - Cell genomics
JF - Cell genomics
IS - 9
M1 - 100630
ER -