Analysis of the combined effect of rs699 and rs5051 on angiotensinogen expression and hypertension
- VernacularTitle:Analysis of the combined effect of rs699 and rs5051 on angiotensinogen expression and hypertension
- Author:
Powell Nicholas R.
1
;
Tyler SHUGG
;
Jacob LEIGHTY
;
Matthew MARTIN
;
Kreutz Rolf P.
;
Eadon Michael T.
;
Dongbing LAI
;
Tao LU
;
Skaar Todd C.
Author Information
- Publication Type:Journal Article
- Keywords: angiotensinogen; genetic and genomic medicine; hypertension; rs699
- From: Chronic Diseases and Translational Medicine 2024;10(2):102-117
- CountryChina
- Language:English
- Abstract: Background::Hypertension (HTN) involves genetic variability in the renin-angiotensin system and influences antihypertensive response. We previously reported that angiotensinogen ( AGT) messenger RNA (mRNA) is endogenously bound by miR-122-5p and rs699 A > G decreases reporter mRNA in the microRNA functional-assay PASSPORT-seq. The AGT promoter variant rs5051 C > T is in linkage disequilibrium (LD) with rs699 A > G and increases AGT transcription. The independent effect of these variants is understudied due to their LD therefore we aimed to test the hypothesis that increased AGT by rs5051 C > T counterbalances AGT decreased by rs699 A > G, and when these variants occur independently, it translates to HTN-related phenotypes. Methods::We used in silico, in vitro, in vivo, and retrospective models to test this hypothesis.Results::In silico, rs699 A > G is predicted to increase miR-122-5p binding affinity by 3%. Mir-eCLIP results show rs699 is 40-45 nucleotides from the strongest microRNA-binding site in the AGT mRNA. Unexpectedly, rs699 A > G increases AGT mRNA in an AGT-plasmid-cDNA HepG2 expression model. Genotype-Tissue Expression (GTEx) and UK Biobank analyses demonstrate liver AGT expression and HTN phenotypes are not different when rs699 A > G occurs independently from rs5051 C > T. However, GTEx and the in vitro experiments suggest rs699 A > G confers cell-type-specific effects on AGT mRNA abundance, and suggest paracrine renal renin-angiotensin-system perturbations could mediate the rs699 A > G associations with HTN. Conclusions::We found that rs5051 C > T and rs699 A > G significantly associate with systolic blood pressure in Black participants in the UK Biobank, demonstrating a fourfold larger effect than in White participants. Further studies are warranted to determine if altered antihypertensive response in Black individuals might be due to rs5051 C > T or rs699 A > G. Studies like this will help clinicians move beyond the use of race as a surrogate for genotype.
