Baicalein has been used for many years as a popular antiviral and antibacterial in China. Recent investigations revealed that baicalein also has anti-inflammatory activities. Our results indicated that baicalein increases ERE-luciferase activity in an estrogen receptor (ER)-dependent manner when either ERα or ERβ were coexpressed in Hela cells. This study examined whether baicalein exerts an anti-inflammatory effect in RAW264.7 cells through an estrogen receptor-dependent pathway and through regulation of NF-ĸB activation. In lipopolysaccharide (LPS)-induced RAW264.7 cells, baicalein exerts anti-inflammatory effects by inhibiting iNOS, COX-2, and TNF-α mRNA expression; NO production; as well as inflammatory cytokine (IL-1β, PGE2, and TNF-α) production through an ER-dependent pathway. These effects are accompanied with the inhibition of the transcription factor NF-ĸB activation and IκBα phosphorylation. We therefore conclude that baicalein inhibits LPS-induced inflammatory cytokine production via regulation of the NF-ĸB pathway and estrogen-like activity, suggesting that it may be useful for preventing inflammation-related diseases.
Proton-coupled electron transfer (PCET) is key to the activation of the blue light using flavin (BLUF) domain photoreceptors. Here, to elucidate the photocycle of the central FMN-Gln-Tyr motif in the BLUF domain of OaPAC, we eliminated the intrinsic interfering W90 in the mutant design. We integrated the stretched exponential function into the target analysis to account for the dynamic heterogeneity arising from the active-site solvation relaxation and the flexible H-bonding network as shown in the molecular dynamics simulation results, facilitating a simplified expression of the kinetics model. We find that, in both the functional wild-type (WT) and the nonfunctional Q48E and Q48A, forward PCET happens in the range of 105 ps to 344 ps, with a kinetic isotope effect (KIE) measured to be ∼1.8 to 2.4, suggesting that the nature of the forward PCET is concerted. Remarkably, only WT proceeds with an ultrafast reverse PCET process (31 ps, KIE = 4.0), characterized by an inverted kinetics of the intermediate FMNH˙. Our results reveal that the reverse PCET is driven by proton transfer via an intervening imidic Gln.
Danhong injection (DHI) is the most prescribed injection form of Chinese medicine for the treatment of cardiovascular diseases such as atherosclerosis, angina pectoris, and stroke in China. However, its active components and action mechanisms remain poorly defined. We hypothesized that DHI contains active components that could prevent and restore endothelial dysfunction by improving vascular relaxation activity. DHI increased vasorelaxation in vivo and ex vivo of rat aortas. Vascular reactivity screen identified that danshensu was the major relaxation factor in DHI. DHI-mediated endothelial-dependent vasorelaxation was independent on nitric oxide/endothelial nitric oxide synthase but was via prostacyclin pathway by increasing cyclooxygenase (COX)-2 gene expression and prostacyclin production. Our results revealed a previously unknown endothelium-dependent vasorelaxation mechanism by danshensu and together with previously reported activity on ion channels of vascular smooth muscle cells, demonstrated that its dual actions contribute to a multicomponent Chinese herbal medicine that synergistically targets different pathways to achieve its well-documented cardiovascular protective effects.
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