The effect of kynurenic acid on the synthesis of selected cytokines by murine splenocytes – in vitro and ex vivo studies

Cannabidiol (CBD) and cannabigerol (CBG) are Cannabis sativa terpenophenols. Although CBD’s effectiveness against neurological diseases has already been demonstrated, nothing is known about CBG. Therefore, a comparison of the effects of these compounds was performed in two experimental models mimicking the oxidative stress and neurotoxicity occurring in neurological diseases. Rat astrocytes were exposed to hydrogen peroxide and cell viability, reactive oxygen species production and apoptosis occurrence were investigated. Cortexes were exposed to K+ 60 mM depolarizing stimulus and serotonin (5-HT) turnover, 3-hydroxykinurenine and kynurenic acid levels were measured. A proteomic analysis and bioinformatics and docking studies were performed. Both compounds exerted antioxidant effects in astrocytes and restored the cortex level of 5-HT depleted by neurotoxic stimuli, whereas sole CBD restored the basal levels of 3-hydroxykinurenine and kynurenic acid. CBG was less effective than CBD in restoring the levels of proteins involved in neurotransmitter exocytosis. Docking analyses predicted the inhibitory effects of these compounds towards the neurokinin B receptor. Conclusion: The results in the in vitro system suggest brain non-neuronal cells as a target in the treatment of oxidative conditions, whereas findings in the ex vivo system and docking analyses imply the potential roles of CBD and CBG as neuroprotective agents.

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Long-term exposure to nicotine markedly reduces kynurenic acid in rat brain — In vitro and ex vivo evidence

Toxicology and Applied Pharmacology ◽

10.1016/j.taap.2009.07.011 ◽

2009 ◽

Vol 240 (2) ◽

pp. 174-179 ◽

Cited By ~ 5

Author(s):

Elżbieta Zielińska ◽

Damian Kuc ◽

Wojciech Zgrajka ◽

Waldemar A. Turski ◽

Andrzej Dekundy

Keyword(s):

Rat Brain ◽

Kynurenic Acid ◽

Ex Vivo

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Inhibition of TGF-β Signaling Suppresses Th17 Differentiation and Promotes Treg Numbers but Does Not Reduce Experimental Arthritis.

10.21203/rs.3.rs-840399/v1 ◽

2021 ◽

Author(s):

Joyce Aarts ◽

Arjan van Caam ◽

Renoud M. Marijnissen ◽

Monique M. Helsen ◽

Birgitte Walgreen ◽

...

Keyword(s):

T Cell ◽

Ex Vivo ◽

Joint Inflammation ◽

Experimental Arthritis ◽

T Cell Subsets ◽

Murine Splenocytes ◽

Th17 Differentiation ◽

Synovial Explants

Abstract ObjectivesTGF-β is an important growth factor to promote the differentiation of T helper 17 (Th17) as well as regulatory T cells (Treg). Due to its dual role, the potential of TGF-β as therapeutic target in T cell-mediated diseases like rheumatoid arthritis (RA) is unclear. In this study, we investigated the effect of TGF-β inhibition on murine Th17 differentiation in vitro, on human RA synovial explants ex vivo, and on the development of experimental arthritis in vivo. MethodsMurine splenocytes were differentiated into Th17 cells, and the effect of the TGF-βRI inhibitor SB-505124 on Th17 differentiation was studied. RA synovial biopsies were cultured for 24h in the presence or absence of SB-505124. Experimental arthritis models were induced in C57Bl6 mice, and were treated daily with SB-505124. FACS analysis was performed to measure different T cell subsets. Histological sections were analysed to determine joint inflammation and destruction.ResultsSB-505124 potently reduced murine Th17 differentiation by decreasing Il7a and Rorc gene expression and IL-17 protein production. SB-505124 significantly suppressed IL-6 production by RA synovial explants. In the Th17-driven arthritis model, SB-505124 reduced Th17 levels, while increased levels of Tregs were observed. Despite this skewed Th17/Treg balance, SB-505124 treatment did not result in suppression of joint inflammation and destruction in this model.ConclusionsBlocking TGF-β signalling suppresses Th17 differentiation and improves the Th17/Treg balance. However, SB-505124 treatment does not suppress experimental arthritis, and is therefore not an adequate way to target Th17-driven inflammation.

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Inhibition of TGF-β Signaling Suppresses Th17 Differentiation and Promotes Treg Numbers but does not Reduces Experimental Arthritis

10.21203/rs.3.rs-908009/v1 ◽

2021 ◽

Author(s):

Joyce Aarts ◽

Arjan Caam ◽

Renoud M. Marijnissen ◽

Monique M. Helsen ◽

Birgitte Walgreen ◽

...

Keyword(s):

T Cell ◽

Ex Vivo ◽

Joint Inflammation ◽

Experimental Arthritis ◽

T Cell Subsets ◽

Murine Splenocytes ◽

Th17 Differentiation ◽

Synovial Explants

Abstract ObjectivesTGF-β is an important growth factor to promote the differentiation of T helper 17 (Th17) and regulatory T cells (Treg). The potential of TGF-β as therapeutic target in T cell-mediated diseases like rheumatoid arthritis (RA) is unclear. We investigated the effect of TGF-β inhibition on murine Th17 differentiation in vitro, on human RA synovial explants ex vivo, and on the development of experimental arthritis in vivo. MethodsMurine splenocytes were differentiated into Th17 cells, and the effect of the TGF-βRI inhibitor SB-505124 was studied. Synovial biopsies were cultured in the presence or absence of SB-505124. Experimental arthritis was induced in C57Bl6 mice and treated daily with SB-505124. FACS analysis was performed to measure different T cell subsets. Histological sections were analysed to determine joint inflammation and destruction.ResultsSB-505124 potently reduced murine Th17 differentiation by decreasing Il7a and Rorc gene expression and IL-17 protein production. SB-505124 significantly suppressed IL-6 production by synovial explants. In vivo, SB-505124 reduced Th17 levels, while increased levels of Tregs were observed. Despite this skewed Th17/Treg balance, SB-505124 treatment did not result in suppression of joint inflammation and destruction.ConclusionsBlocking TGF-β signalling suppresses Th17 differentiation and improves the Th17/Treg balance. However, SB-505124 treatment does not suppress experimental arthritis.

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Effects of the Tibetan herbal preparation PADMA 28 on blood lipids and lipid oxidisability in subjects with mild hypercholesterolaemia

VASA ◽

10.1024/0301-1526.34.1.11 ◽

2005 ◽

Vol 34 (1) ◽

pp. 11-17 ◽

Cited By ~ 12

Author(s):

Brunner-La Rocca ◽

Schindler ◽

Schlumpf ◽

Saller ◽

Suter

Keyword(s):

Endothelial Dysfunction ◽

Blood Lipids ◽

Ex Vivo ◽

Hdl Cholesterol ◽

Blood Lipid ◽

Tibetan Medicine ◽

Double Blind ◽

Intraarterial Infusion ◽

Padma 28

Background: Previous studies showed an anti-atherosclerotic effect of PADMA 28, an herbal formula based on Tibetan medicine. As the mechanisms of action are not fully understood, we investigated whether PADMA 28 may lower blood lipids and lipid oxidisability, and affect early endothelial dysfunction. Patients and methods: Sixty otherwise healthy subjects with total cholesterol ≥5.2 mmol/l and < 8.0 mmol/l were randomly assigned to placebo or PADMA 28, 3 x 2 capsules daily, for 4 weeks (double-blind). Blood lipids (total, LDL-, and HDL-cholesterol, triglycerides, Apo-lipoprotein A1 and B) and ex vivo lipid oxidisability were measured before and after treatment. In a subset of 24 subjects, endothelial function was assessed using venous occlusion plethysmography with intraarterial infusion of acetylcholine. Isolated LDL and plasma both untreated and pre-treated with PADMA 28 extract were oxidised by the radical generator AAPH. Conjugated diene formation was measured at 245 nm. Results: Blood lipids did not change during the study in both groups. In contrast to previous reports in mild hypercholesterolaemia, no endothelial dysfunction was seen and, consequently, was not influenced by therapy. Ex vivo blood lipid oxidisability was significantly reduced with PADMA 28 (area under curve: 5.29 ± 1.62 to 4.99 ± 1.46, p = 0.01), and remained unchanged in the placebo group (5.33 ± 1.88 to 5.18 ± 1.78, p > 0.1). This effect persisted one week after cessation of medication. In vitro experiments confirmed the prevention of lipid peroxidation in the presence of PADMA 28 extracts. Persistent protection was also seen for LDL isolated from PADMA 28-pretreated blood after being subjected to rigorous purification. Conclusions: This study suggests that the inhibition of blood lipid oxidisability by PADMA 28 may play a role in its anti-atherosclerotic effect.

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The Role of Polyphenols in the Modulation of Plasma Non-Enzymatic Antioxidant Capacity (NEAC)

International Journal for Vitamin and Nutrition Research ◽

10.1024/0300-9831/a000116 ◽

2012 ◽

Vol 82 (3) ◽

pp. 228-232 ◽

Cited By ~ 7

Author(s):

Mauro Serafini ◽

Giuseppa Morabito

Keyword(s):

Antioxidant Capacity ◽

Dietary Intervention ◽

Ex Vivo ◽

The Body ◽

Dietary Polyphenols ◽

Enzymatic Antioxidant ◽

Endogenous Antioxidant

Dietary polyphenols have been shown to scavenge free radicals, modulating cellular redox transcription factors in different in vitro and ex vivo models. Dietary intervention studies have shown that consumption of plant foods modulates plasma Non-Enzymatic Antioxidant Capacity (NEAC), a biomarker of the endogenous antioxidant network, in human subjects. However, the identification of the molecules responsible for this effect are yet to be obtained and evidences of an antioxidant in vivo action of polyphenols are conflicting. There is a clear discrepancy between polyphenols (PP) concentration in body fluids and the extent of increase of plasma NEAC. The low degree of absorption and the extensive metabolism of PP within the body have raised questions about their contribution to the endogenous antioxidant network. This work will discuss the role of polyphenols from galenic preparation, food extracts, and selected dietary sources as modulators of plasma NEAC in humans.

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