Lonicera rupicola Hook.f.et Thoms flavonoids ameliorated dysregulated inflammatory responses, intestinal barrier, and gut microbiome in ulcerative colitis via PI3K/AKT pathway.

BACKGROUND: Lonicera rupicola Hook.f.et Thoms (LRH) is used as a customary medicinal herb in Tibetans. And LRH flavonoids have excellent anti-inflammatory and antioxidant pharmacological activities. However, the specific effects of LRH and its mechanism remain unknown, and there is a deficiency of systematic research, leading to the waste of LRH as a medicinal resource. PURPOSE: In this study, in an attempt to rationalize the development and utilization of Tibetan herbal resources, the therapeutic efficacy and the underlying molecular mechanisms of LRH flavonoids on dextran sulfate sodium (DSS)-induced ulcerative colitis (UC) were investigated, establishing the favorable basis for the pharmacodynamic material basis of LRH and providing a scientific basis for the discovery of new drugs for the treatment of UC. METHODS: Firstly, ultra-performance liquid chromatography tandem mass spectrometry (UPLC-MS/MS) was used for identification and detection of the flavonoid components of LRH. Meanwhile, their potential targets, biological functions and signaling pathways were predicted with the assistance of network pharmacology analysis. Subsequently, pharmacological efficacy of LRH were evaluated by body weight loss, colon length, disease activity index (DAI), histology observation and the expression levels of inflammatory mediators, messenger RNA (mRNA) and tight junction proteins. Moreover, in the present investigation, we also profiled the gut microbiome via high-throughput sequencing of the V3-V4 region of 16S ribosomal DNA (rDNA) for bacterial community composition and diversity by Illumina MiSeq platforms. Finally, the key regulatory proteins in the PI3K/AKT pathways were measured to investigate their underlying molecular mechanisms. RESULTS: A total of 37 LRH flavonoid components were identified and detected by UPLC-MS/MS, and 12 potential active components were obtained after screening. 137 of their common targets with UC were further predicted. GO and KEGG pathway enrichment analysis and molecular docking experiments demonstrated that LRH flavonoids could interfere with UC through "multi-component-multi-target-multi-pathway". In the animal experiments, LRH flavonoids could significantly attenuate UC as demonstrated by reducing the body weight loss and DAI, restoring colon length, decreasing oxidative stress, and improving the intestinal epithelial cell barrier. The mRNA and proteins expression levels of inflammatory mediators were returned to dynamic balance following LRH flavonoids treatment. 16S rDNA sequence analysis indicated that LRH flavonoids promoted the recovery of gut microbiome. And the PI3K/AKT pathway was significantly suppressed by LRH flavonoids. CONCLUSIONS: LRH flavonoids exhibited multifaceted protective effects against DSS-induced UC in mice through mitigating colon inflammation and oxidative stress, restoring epithelial barrier function, and improving the gut microenvironment potentially through modulation of the PI3K/AKT pathway. This finding demonstrated that LRH flavonoids possessed great potential for becoming an excellent drug for the treatment of UC.

[Optimization of extraction of flavonoids from Lonicera rupicola and analysis of its effects in resisting inflammation, relieving pain, enhancing immunity, and inhibiting pyroptosis].

The present study optimized the extraction of flavonoids from Lonicera rupicola Hook. f. et Thoms(LRH) and explored its pharmacological effects, such as resisting inflammation, relieving pain, enhancing immunity, and inhibiting pyroptosis, aiming to provide data support and scientific basis for the development and utilization of LRH. Response surface methodology(RSM) was applied to optimize the extraction of flavonoids from LRH based on the results of single-factor experiments. Anti-inflammatory and analgesic effects of LRH flavonoids were evaluated via inflammation and pain models in mice, such as xylene-induced ear swelling, carrageenan-induced footpad swelling, writhing caused by acetic acid, and paw licking. The effect of LRH flavonoids on the carbon clearance index of monocytes and serum immunoglobulin A(IgA) and IgM levels was analyzed on the immunosuppression model induced by cyclophosphamide in mice. The anti-oxidative effect in vivo of LRH flavonoids on liver superoxide dismutase(SOD), catalase(CAT), and malondialdehyde(MDA) levels was determined based on the chronic/subacute aging model in mice induced by D-galactose. The levels of cysteinyl aspartate specific proteinase-1(caspase-1), interleukin-1ß(IL-1ß), and IL-18 in the supernatant of J774 A.1 mononuclear phagocytes were detected to evaluate the effect of LRH flavonoids on the pyroptosis of mononuclear phagocytes in mice induced by the combination of lipopolysaccharide(LPS) and adenosine triphosphate(ATP). Meanwhile, the effect of LRH flavonoids on the cAMP-PKA signaling pathway was also explored. The optimum conditions for the extraction of LRH flavonoids are listed below: extraction temperature of 65 ℃, the ethanol concentration of 50%, extraction time of 60 min, a material-liquid ratio at 1∶25, and the yield of LRH flavonoids of 0.553%. RSM determined the multiple quadratic regression equation model of response value and variables as follows: the yield of LRH flavonoids=0.61-0.48A+0.1B+0.029C-0.014D+0.32AB+0.04AC-0.012AD-0.02BC+0.037BD-0.031CD-0.058A~2-0.068B~2-0.069C~2-0.057D~2. LRH flavonoids could effectively inhibit ear swelling and footpad swelling, reduced acetic acid-induced writhing, and delayed the paw licking response time in mice. Additionally, LRH flavonoids could improve the carbon clearance index in immunosuppressed mice, potentiate the activities of SOD and CAT and reduce MDA levels in the liver of aging mice induced by D-galactose, and effectively inhibit macrophage pyroptosis by decreasing the levels of caspase-1, IL-1ß, and IL-18. The results reveal that LRH flavonoids possess excellent pharmacological activities such as resisting inflammation and oxidation, relieving pain, and enhancing immunity. They can inhibit pyroptosis by enhancing the cAMP-PKA signaling pathway. The results of this study can underpin the pharmacological research, development, and utilization of LRH.