Susceptibility gene identification and risk evaluation model construction by transcriptome-wide association analysis for salt sensitivity of blood pressure
Author | Qi, Han |
Author | Xie, Yun Yi |
Author | Yang, Xiao Jun |
Author | Xia, Juan |
Author | Liu, Kuo |
Author | Zhang, Feng Xu |
Author | Peng, Wen Juan |
Author | Wen, Fu Yuan |
Author | Li, Bing Xiao |
Author | Zhang, Bo Wen |
Author | Yao, Xin Yue |
Author | Li, Bo Ya |
Author | Meng, Hong Dao |
Author | Shi, Zu Min |
Author | Wang, Yang |
Author | Zhang, Ling |
Available date | 2024-09-24T10:19:25Z |
Publication Date | 2024-06-18 |
Publication Name | BMC Genomics |
Identifier | http://dx.doi.org/10.1186/s12864-024-10409-9 |
Citation | Qi, H., Xie, Y. Y., Yang, X. J., Xia, J., Liu, K., Zhang, F. X., ... & Zhang, L. (2024). Susceptibility gene identification and risk evaluation model construction by transcriptome-wide association analysis for salt sensitivity of blood pressure. BMC genomics, 25(1), 612. |
ISSN | 1471-2164 |
Abstract | Background: Salt sensitivity of blood pressure (SSBP) is an intermediate phenotype of hypertension and is a predictor of long-term cardiovascular events and death. However, the genetic structures of SSBP are uncertain, and it is difficult to precisely diagnose SSBP in population. So, we aimed to identify genes related to susceptibility to the SSBP, construct a risk evaluation model, and explore the potential functions of these genes. Methods and results: A genome-wide association study of the systemic epidemiology of salt sensitivity (EpiSS) cohort was performed to obtain summary statistics for SSBP. Then, we conducted a transcriptome-wide association study (TWAS) of 12 tissues using FUSION software to predict the genes associated with SSBP and verified the genes with an mRNA microarray. The potential roles of the genes were explored. Risk evaluation models of SSBP were constructed based on the serial P value thresholds of polygenetic risk scores (PRSs), polygenic transcriptome risk scores (PTRSs) and their combinations of the identified genes and genetic variants from the TWAS. The TWAS revealed that 2605 genes were significantly associated with SSBP. Among these genes, 69 were differentially expressed according to the microarray analysis. The functional analysis showed that the genes identified in the TWAS were enriched in metabolic process pathways. The PRSs were correlated with PTRSs in the heart atrial appendage, adrenal gland, EBV-transformed lymphocytes, pituitary, artery coronary, artery tibial and whole blood. Multiple logistic regression models revealed that a PRS of P < 0.05 had the best predictive ability compared with other PRSs and PTRSs. The combinations of PRSs and PTRSs did not significantly increase the prediction accuracy of SSBP in the training and validation datasets. Conclusions: Several known and novel susceptibility genes for SSBP were identified via multitissue TWAS analysis. The risk evaluation model constructed with the PRS of susceptibility genes showed better diagnostic performance than the transcript levels, which could be applied to screen for SSBP high-risk individuals. |
Sponsor | This work was supported by the National Natural Science Foundation of China (grant number 82273708). |
Language | en |
Publisher | Springer Nature |
Subject | EpiSS study Polygenetic risk scores Polygenic transcriptome risk scores Salt sensitivity of blood pressure Transcriptome-wide association study |
Type | Article |
Issue Number | 1 |
Volume Number | 25 |
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