Abstract
Disruptions of blood pressure (BP) circadian variation are closely associated with an increased risk of cardiovascular disease. Thus, gaining insights into the molecular mechanisms of BP circadian variation is essential for comprehending BP regulation. Human genetic analyses suggest that PR domain–containing protein 16 (PRDM16), a transcription factor highly expressed in vascular smooth muscle cells (VSMCs), is significantly associated with BP-related traits. However, the roles of PRDM16 in BP regulation are largely unknown. Here, we demonstrate that BP in VSMC-specific Prdm16-KO (Prdm16SMKO) mice was significantly lower than that in control mice during the active period, resulting in aberrant BP circadian variation. Mesenteric artery rings from Prdm16SMKO mice showed a reduced response to phenylephrine. Mechanistically, we identified adrenergic receptor α 1d (Adra1d) as a transcriptional target of PRDM16. Notably, PRDM16 exhibited a remarkable circadian expression pattern and regulated the expression of clock genes, particularly Npas2, which is crucial for BP circadian variation regulation. Consequently, PRDM16 deficiency in VSMCs caused disrupted BP circadian variation through a reduced response to adrenergic signaling and clock gene regulation. Our findings provide insights into the intricate molecular pathways that govern circadian fluctuations in BP.
Authors
Zhenguo Wang, Wenjuan Mu, Juan Zhong, Ruiyan Xu, Yaozhong Liu, Guizhen Zhao, Yanhong Guo, Jifeng Zhang, Ida Surakka, Y. Eugene Chen, Lin Chang
Figure 2
Loss of function of PRDM16 in VSMCs results in nondipping BP.
Copyright © 2025 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)