Wei Duan scite author profile

Cardiovascular disease is the leading cause of death globally among non-communicable diseases, which imposes a serious socioeconomic burden on patients and the healthcare system. Therefore, finding new strategies for preventing and treating cardiovascular diseases is of great significance in reducing the number of deaths and disabilities worldwide. Dipeptidyl peptidase 3 (DPP3) is the first zinc-dependent peptidase found among DPPs, mainly distributes within the cytoplasm. With the unique HEXXGH catalytic sequence, it is associated with the degradation of oligopeptides with 4 to 10 amino acids residues. Accumulating evidences have demonstrated that DPP3 plays a significant role in almost all cellular activities and pathophysiological mechanisms. Regarding the role of DPP3 in cardiovascular diseases, it is currently mainly used as a biomarker for poor prognosis in patients with cardiovascular diseases, suggesting that the level of DPP3 concentration in plasma is closely linked to the mortality of diseases such as cardiogenic shock and heart failure. Interestingly, it has been reported recently that DPP3 regulates blood pressure by interacting with the renin-angiotensin system. In addition, DPP3 also participates in the processes of pain signaling, inflammation, and oxidative stress. But the exact mechanism by which DPP3 affects cardiovascular function is not clear. Hence, this review summarizes the recent advances in the structure and catalytic activity of DPP3 and its extensive biological functions, especially its role as a therapeutic target in cardiovascular diseases. It will provide a theoretical basis for exploring the potential value of DPP3 as a therapeutic target for cardiovascular diseases.

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The interleukin-enhanced binding factor 3-mediated inhibition of nitric oxide production via phosphoinositide 3-kinase/protein kinase B pathway contributes to central cardiovascular regulation in the rostral ventrolateral medulla in hypertension

Tan

et al. 2022

American Journal of Physiology-Regulatory, Integrative and Comp

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Hypertension is characterized by sympathetic hyperactivity, which is related to the over-excitation of the pre-sympathetic neurons in the rostral ventrolateral medulla (RVLM). Nitric oxide (NO) has been reported to be a vital neuromodulator involved in central cardiovascular regulation. However, the mechanism of interleukin-enhanced binding factor 3 (ILF3) participating in blood pressure (BP) regulation is still unclear. Therefore, this study aims to clarify the role of ILF3 within the RVLM in regulating NO in hypertension. It was found that the expression level of ILF3 was significantly increased in the RVLM of SHR compared to WKY rats through microarray gene expression analysis, western blot, and immunofluorescence. Overexpression of ILF3 by injecting constructed adenovirus into the RVLM increased the BP and RSNA of the WKY rats, significantly decreasing NO production and nNOS expression. Knockdown of ILF3 in the RVLM of SHR significantly reduced BP but increased NO production and the nNOS expression. Furthermore, it was found that the PI3K/Akt pathway was activated via western blotting in the RVLM after overexpression of ILF3, whereas it was attenuated after knockdown of ILF3 in SHR. In addition, inhibition of PI3K by intracisternal infusion of the PI-103 attenuated the increase in Akt phosphorylation and decrease in nNOS expression and NO production caused by overexpressing ILF3, which ultimately blunted high BP induced by overexpressing ILF3. Taken together, this current study suggests that ILF3 participates in high BP via reducing NO production in the RVLM through PI3K/Akt pathway.

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Wei Duan

Oxidative stress in the RVLM mediates sympathetic hyperactivity induced by circadian disruption

DPP3: From biomarker to therapeutic target of cardiovascular diseases

The interleukin-enhanced binding factor 3-mediated inhibition of nitric oxide production via phosphoinositide 3-kinase/protein kinase B pathway contributes to central cardiovascular regulation in the rostral ventrolateral medulla in hypertension

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