UV-guided isolation of enantiomeric polyacetylenes from Bupleurum scorzonerifolium Willd. with inhibitory effects against LPS-induced NO release in BV-2 microglial cells

Background: Some Bupleurum species, such as the Bupleurum chinense DC. or the Bupleurum scorzonerifolium Willd have been extensively studied (especially their roots) for the treatment of inflammation. In contrast, only compounds extracted from the aerial parts of Bupleurum rotundifolium have been studied and showed anti-inflammatory or antiproliferative activities. This study was conducted to investigate the antioxidant, anti-inflammatory, and immunomodulatory effects of Bupleurum rotundifolium roots. Methods: To tackle the various aspects of inflammation, we studied in vitro a methanolic extract from the roots of Bupleurum rotundifolium on peripheral blood mononuclear cells (PBMCs), polymorphonuclear neutrophils (PMNs), and the monocytic cells THP-1. Its antioxidant capacities and iron-chelating activity were assessed. The extract was tested on THP-1 differentiation, reactive oxygen species (ROS) production by leukocytes, neutrophils chemotaxis, cytokines, PGE2 production, and NF-κB activation in PBMCs. Results: The extract showed a decreased ROS production in stimulated cells. It increased PBMC chemokine secretion and up-regulated the differentiation of THP-1 monocytes into macrophage-like cells, indicating a potential interest of the extract in the resolution of acute inflammation. In addition, the analysis of cytokine production suggests that Bupleurum rotundifolium has immunomodulatory properties. Conclusions: Cytokines secretion, especially IL-1β and IL-12p70, provided us with a set of indicators suggesting that the extract might be able to drive the polarization of macrophages and lymphocytes toward a Th2 anti-inflammatory profile in excessive inflammation.

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The complete chloroplast genome sequence of Bupleurum scorzonerifolium Willd. (Apiaceae)

Mitochondrial DNA Part B ◽

10.1080/23802359.2020.1756489 ◽

2020 ◽

Vol 5 (2) ◽

pp. 1998-1999

Author(s):

Fei Zhang ◽

Ze Yang ◽

Zhuo Wang ◽

Zhenyu Zhao ◽

Bowen Xie ◽

...

Keyword(s):

Chloroplast Genome ◽

Genome Sequence ◽

Complete Chloroplast Genome ◽

Bupleurum Scorzonerifolium Willd ◽

Chloroplast Genome Sequence ◽

Bupleurum Scorzonerifolium

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Endothelin inhibits thick ascending limb chloride flux via ETB receptor-mediated NO release

AJP Renal Physiology ◽

10.1152/ajprenal.2000.279.2.f326 ◽

2000 ◽

Vol 279 (2) ◽

pp. F326-F333 ◽

Cited By ~ 84

Author(s):

Craig F. Plato ◽

David M. Pollock ◽

Jeffrey L. Garvin

Keyword(s):

Intracellular Calcium ◽

Chloride Transport ◽

Inhibitory Effect ◽

Thick Ascending Limb ◽

Inhibitory Effects ◽

Chloride Flux ◽

Nacl Transport ◽

No Release ◽

Bq 610

Endothelin-1 (ET-1) inhibits transport in various nephron segments, and the thick ascending limb of the loop of Henle (TALH) expresses ET-1 receptors. In many tissues, activation of ETB receptors stimulates release of NO, and we recently reported that endogenous NO inhibits TALH chloride flux ( J Cl). However, the relationship between ET-1 and NO in the control of nephron transport has not been extensively studied. We hypothesized that ET-1 decreases NaCl transport by cortical TALHs through activation of ETBreceptors and release of NO. Exogenous ET-1 (1 nM) decreased J Cl from 118.3 ± 15.0 to 62.7 ± 13.6 pmol · mm−1 · min−1 (48.3 ± 8.2% reduction), whereas removal of ET-1 increased J Cl in a separate group of tubules from 87.6 ± 10.7 to 115.2 ± 10.3 pmol · mm−1 · min−1 (34.5 ± 6.2% increase). To determine whether NO mediates the inhibitory effects of ET-1 on J Cl, we examined the effect of inhibiting of NO synthase (NOS) with N G-nitro-l-arginine methyl ester (l-NAME) on ET-1-induced changes in J Cl. l-NAME (5 mM) completely prevented the ET-1-induced reduction in J Cl, whereas d-NAME did not. l-NAME alone had no effect on J Cl. These data suggest that the effects of ET-1 are mediated by NO. Blockade of ETBreceptors with BQ-788 prevented the inhibitory effects of 1 nM ET-1. Activation of ETB receptors with sarafotoxin S6c mimicked the inhibitory effect of ET-1 on J Cl (from 120.7 ± 12.6 to 75.4 ± 13.3 pmol · mm−1 · min−1). In contrast, ETA receptor antagonism with BQ-610 did not prevent ET-1-mediated inhibition of TALH J Cl (from 96.5 ± 10.4 to 69.5 ± 8.6 pmol · mm−1 · min−1). Endothelin increased intracellular calcium from 96.9 ± 14.0 to 191.4 ± 11.9 nM, an increase of 110.8 ± 26.1%. We conclude that exogenous endothelin indirectly decreases TALH J Cl by activating ETB receptors, increasing intracellular calcium concentration, and stimulating NO release. These data suggest that endothelin acts as a physiological regulator of TALH NO synthesis, thus inhibiting chloride transport and contributing to the natriuretic effects of ET-1 observed in vivo.

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