Publications by authors named "Ding Ai"

Article Synopsis
  • Endothelial cells help control blood pressure by producing factors that either relax or contract blood vessels, and METTL3 is a key enzyme involved in this regulation, particularly in relation to atherosclerosis.
  • Researchers studied mice lacking METTL3 in endothelial cells and found that these mice had higher blood pressure, indicating that METTL3 is important for maintaining normal BP levels.
  • The study concluded that METTL3 helps lower hypertension by stabilizing RUNX1b mRNA through a specific chemical modification (m6A), which ultimately increases the production of eNOS, a crucial enzyme for blood vessel relaxation.
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Background: Atheroprotective shear stress preserves endothelial barrier function, while atheroprone shear stress enhances endothelial permeability. Yet, the underlying mechanisms through which distinct flow patterns regulate EC integrity remain to be clarified. This study aimed to investigate the involvement of Kindlin-2, a key component of focal adhesion and endothelial adherens junctions crucial for regulating endothelial cell (EC) integrity and vascular stability.

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Background Aims: Partial hepatectomy (PHx)-induced liver regeneration causes the increase in relative blood flow rate within the liver, which dilates hepatic sinusoids and applies mechanical stretch on liver sinusoidal endothelial cells (LSECs). Heparin-binding EGF-like growth factor (HB-EGF) is a crucial growth factor during liver regeneration. We aimed to investigate whether this sinusoidal dilation-induced stretch promotes HB-EGF secretion in LSECs and what the related molecular mechanism is.

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Article Synopsis
  • Detecting dopamine is important for understanding its role in processes like motion and cognition; this study focuses on creating an advanced sensor for it.
  • A heterostructure composed of p-type graphene and CuS, synthesized under specific conditions, shows superior performance in electron transfer, enhancing the sensor's effectiveness.
  • The new sensor can detect dopamine at extremely low concentrations (as low as 100 fM) with excellent selectivity and stability, making it promising for clinical diagnostics and point-of-care applications.
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Stroke leads to persistently high risk for recurrent vascular events caused by systemic atheroprogression that is driven by endothelial cell (EC) activation. However, whether and how stroke induces sustained pro-inflammatory and proatherogenic endothelial alterations in systemic vessels remain poorly understood. We showed that brain ischemia induces persistent activation, the upregulation of adhesion molecule VCAM1, and increased senescence in peripheral ECs until 4 weeks after stroke onset.

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Omega-3 polyunsaturated fatty acids (ω-3 PUFAs) have been associated with potential cardiovascular benefits, partly attributed to their bioactive metabolites. However, the underlying mechanisms responsible for these advantages are not fully understood. We previously reported that metabolites of the cytochrome P450 pathway derived from eicosapentaenoic acid (EPA) mediated the atheroprotective effect of ω-3 PUFAs.

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Vascular injury is central to the pathogenesis and progression of cardiovascular diseases, however, fostering alternative strategies to alleviate vascular injury remains a persisting challenge. Given the central role of cell-derived nitric oxide (NO) in modulating the endogenous repair of vascular injury, NO-generating proteolipid nanovesicles (PLV-NO) are designed that recapitulate the cell-mimicking functions for vascular repair and replacement. Specifically, the proteolipid nanovesicles (PLV) are versatilely fabricated using membrane proteins derived from different types of cells, followed by the incorporation of NO-generating nanozymes capable of catalyzing endogenous donors to produce NO.

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Aims: Proper arteriogenesis after tissue ischaemia is necessary to rebuild stable blood circulation; nevertheless, this process is impaired in type 2 diabetes mellitus (T2DM). Raptor is a scaffold protein and a component of mammalian target of rapamycin complex 1 (mTORC1). However, the role of the endothelial Raptor in arteriogenesis under the conditions of T2DM remains unknown.

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Appropriate DNA end synapsis, regulated by core components of the synaptic complex including KU70-KU80, LIG4, XRCC4, and XLF, is central to non-homologous end joining (NHEJ) repair of chromatinized DNA double-strand breaks (DSBs). However, it remains enigmatic whether chromatin modifications can influence the formation of NHEJ synaptic complex at DNA ends, and if so, how this is achieved. Here, we report that the mitotic deacetylase complex (MiDAC) serves as a key regulator of DNA end synapsis during NHEJ repair in mammalian cells.

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Various infections trigger a storm of proinflammatory cytokines in which IL-6 acts as a major contributor and leads to diffuse alveolar damage in patients. However, the metabolic regulatory mechanisms of IL-6 in lung injury remain unclear. Polyriboinosinic-polyribocytidylic acid [poly(I:C)] activates pattern recognition receptors involved in viral sensing and is widely used in alternative animal models of RNA virus-infected lung injury.

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Background: Abdominal aortic aneurysm (AAA) is a potentially life-threatening vascular condition, but approved medical therapies to prevent AAA progression and rupture are currently lacking. Sphingolipid metabolism disorders are associated with the occurrence and development of AAA. It has been discovered that ganglioside GM3, a sialic acid-containing type of glycosphingolipid, plays a protective role in atherosclerosis, which is an important risk factor for AAA; however, the potential contribution of GM3 to AAA development has not been investigated.

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Endothelial cells (EC) play essential roles in retinal vascular homeostasis. This study aimed to characterize retinal EC heterogeneity and functional diversity using single-cell RNA sequencing. Systematic analysis of cellular compositions and cell-cell interaction networks identified a unique EC cluster with high inflammatory gene expression in diabetic retina; sphingolipid metabolism is a prominent aspect correlated with changes in retinal function.

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The progression of diabetic kidney disease (DKD) is associated with increased fibronectin (FN) levels in proximal tubular epithelial cells. Bioinformatics analysis showed that integrin β6 and cell adhesion function were significantly changed in the cortices of db/db mice. Remodelling of cell adhesion is one of the core changes during epithelial-mesenchymal transition (EMT) in DKD.

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Article Synopsis
  • Myocardial ischemia-reperfusion (I/R) injury can lead to various forms of cell death in the heart, which negatively affects cardiac function, and understanding these processes, particularly ferroptosis, is crucial for developing protective strategies.
  • A study using a mouse model identified that necrosis and apoptosis happen early in I/R injury, while ferroptosis is more significant during prolonged reperfusion; the enzyme 15-lipoxygenase (Alox15) plays a key role in this cell death pathway.
  • Increasing Alox15 expression was linked with severe I/R injury, but genetically removing Alox15 improved heart function by preventing ferroptosis, indicating its potential as a therapeutic target.
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The progressive decline of physiological function and the increased risk of age-related diseases challenge healthy aging. Multiple anti-aging manipulations, such as senolytics, have proven beneficial for health; however, the biomarkers that label in vivo senescence at systemic levels are lacking, thus hindering anti-aging applications. In this study, we generate a Glb1‒Glb1-2A-mCherry (GAC) reporter allele at the Glb1 gene locus, which encodes lysosomal β-galactosidase-an enzyme elevated in tissues of old mice.

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Background: Atherosclerosis occurs mainly at arterial branching points exposed to disturbed blood flow. How MST1 (mammalian sterile 20-like kinase 1), the primary kinase in the mechanosensitive Hippo pathway modulates disturbed flow induced endothelial cells (ECs) activation and atherosclerosis remains unclear.

Methods: To assess the role of MST1 in vivo, mice with EC-specific deficiency on background () were used in an atherosclerosis model generated by carotid artery ligation.

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The efficiency of homologous recombination (HR) in the repair of DNA double-strand breaks (DSBs) is closely associated with genome stability and tumor response to chemotherapy. While many factors have been functionally characterized in HR, such as TOPBP1, their precise regulation remains unclear. Here, we report that TOPBP1 interacts with the RNA-binding protein HTATSF1 in a cell-cycle- and phosphorylation-dependent manner.

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Article Synopsis
  • Subendothelial macrophages internalizing modified lipids and forming foam cells are key features of atherosclerosis, with deubiquitinating enzymes (DUBs) like USP9X playing a critical but not fully understood role in this process.
  • Researchers discovered that USP9X suppresses lipid uptake in macrophages, and its reduced expression is linked to increased lipid deposition and inflammation in atherosclerotic lesions in both humans and mouse models.
  • The study highlights USP9X's role in regulating the scavenger receptor SR-A1, suggesting that targeting USP9X might lead to new therapeutic strategies for treating atherosclerosis.
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Background: Single-stranded DNA (ssDNA) coated with replication protein A (RPA) acts as a key platform for the recruitment and exchange of genome maintenance factors in DNA damage response. Yet, how the formation of the ssDNA-RPA intermediate is regulated remains elusive.

Results: Here, we report that the lamin-associated protein LAP2α is physically associated with RPA, and LAP2α preferentially facilitates RPA deposition on damaged chromatin via physical contacts between LAP2α and RPA1.

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Background: Metabolic syndrome is related to cardiovascular diseases, which is attributed in part, to arterial stiffness; however, the mechanisms remain unclear. The present study aimed to investigate the molecular mechanisms of metabolic syndrome-induced arterial stiffness and to identify new therapeutic targets.

Methods: Arterial stiffness was induced by high-fat/high-sucrose diet in mice, which was quantified by Doppler ultrasound.

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Cells are constantly exposed to various mechanical forces, including hydrostatic pressure, cyclic stretch, fluid shear stress, and extracellular matrix stiffness. Mechanical cues can be translated into the cell-specific transcriptional process by a cellular mechanic-transducer. Evidence suggests that mechanical signals assist activated intracellular signal transduction pathways and the relative phenotypic adaptation to coordinate cell behavior and disease appropriately.

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Excessive deposition of extracellular matrix, mainly collagen protein, is the hallmark of organ fibrosis. The molecular mechanisms regulating fibrotic protein biosynthesis are unclear. Here, we find that chemoattractant receptor homologous molecule expressed on TH2 cells (CRTH2), a plasma membrane receptor for prostaglandin D2, is trafficked to the endoplasmic reticulum (ER) membrane in fibroblasts in a caveolin-1-dependent manner.

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