DHCR24 Insufficiency Promotes Vascular Endothelial Cell Senescence and Endothelial Dysfunction via Inhibition of Caveolin-1/ERK Signaling.
Han LiZhen YangWukaiyang LiangHao NieYuqi GuanNi YangTianyi JiYu LiuYi HuangLe ZhangJinhua YanCuntai ZhangPublished in: The journals of gerontology. Series A, Biological sciences and medical sciences (2024)
Endothelial cells (ECs) senescence is critical for vascular dysfunction, which leads to age-related disease. DHCR24, a 3β-hydroxysterol δ 24 reductase with multiple functions other than enzymatic activity, has been involved in age-related disease. However, little is known about the relationship between DHCR24 and vascular ECs senescence. We revealed that DHCR24 expression is chronologically decreased in senescent human umbilical vein endothelial cells (HUVECs) and the aortas of aged mice. ECs senescence in endothelium-specific DHCR24 knockout mice was characterized by increased P16 and senescence-associated secretory phenotype, decreased SIRT1 and cell proliferation, impaired endothelium-dependent relaxation, and elevated blood pressure. In vitro, DHCR24 knockdown in young HUVECs resulted in a similar senescence phenotype. DHCR24 deficiency impaired endothelial migration and tube formation and reduced nitric oxide (NO) levels. DHCR24 suppression also inhibited the caveolin-1/ERK signaling, probably responsible for increased reactive oxygen species production and decreased eNOS/NO. Conversely, DHCR24 overexpression enhanced this signaling pathway, blunted the senescence phenotype, and improved cellular function in senescent cells, effectively blocked by the ERK inhibitor U0126. Moreover, desmosterol accumulation induced by DHCR24 deficiency promoted HUVECs senescence and inhibited caveolin-1/ERK signaling. Our findings demonstrate that DHCR24 is essential in ECs senescence.
Keyphrases
- endothelial cells
- signaling pathway
- cell proliferation
- high glucose
- nitric oxide
- pi k akt
- dna damage
- blood pressure
- stress induced
- vascular endothelial growth factor
- induced apoptosis
- reactive oxygen species
- hydrogen peroxide
- cell cycle
- cell cycle arrest
- insulin resistance
- nitric oxide synthase
- heart rate
- single molecule
- long non coding rna
- blood glucose
- high fat diet induced
- hypertensive patients