Last update 01 Nov 2024

NF-κB x COX-2

Last update 01 Nov 2024

Basic Info

Related Targets

NF-κBCOX-2

Drugs associated with NF-κB x COX-2

P-54-FP

Target

COX-2 x NF-κB

Mechanism

COX-2 inhibitors [+1]

Active Org.-

Originator Org.

Ixico Plc

Active Indication-

Inactive Indication

Colitis, Ulcerative [+2]

Drug Highest PhaseDiscontinued

First Approval Ctry. / Loc.-

First Approval Date20 Jan 1800

IB-RA(Innobioscience Llc)

Target

COX-2 x CRP x IL-2R x NF-κB x Prostaglandin E2 receptor

Mechanism

COX-2 inhibitors [+4]

Active Org.-

Originator Org.

INNOBIOSCIENCE LLC

Active Indication-

Inactive Indication

Rheumatoid Arthritis

Drug Highest PhasePending

First Approval Ctry. / Loc.-

First Approval Date20 Jan 1800

LYRM-03

Target

COX-2 x IL-1β x IL-6 x MYD88 x NF-κB x NLRP3 x TLR4 x TNF-α

Mechanism

COX-2 inhibitors [+7]

Active Org.-

Originator Org.

Shanghai Jiao Tong University

Active Indication-

Inactive Indication

Acute Lung Injury [+1]

Drug Highest PhasePending

First Approval Ctry. / Loc.-

First Approval Date20 Jan 1800

100 Clinical Results associated with NF-κB x COX-2

100 Translational Medicine associated with NF-κB x COX-2

0 Patents (Medical) associated with NF-κB x COX-2

7,158

Literatures (Medical) associated with NF-κB x COX-2

01 Jan 2025·Journal of Ethnopharmacology

Bio-guided isolation of anti-inflammatory compounds from Tilia tuan Szyszyl. flowers via in vitro and in silico study

Article

Author: Zhu, Hong-Tao ; Yan, Bing-Chao ; Fan, Rong ; Kong, Ling-Mei ; Zhang, Ying-Jun ; Kong, Qing-Hua ; Yang, Lian

ETHNOPHARMACOLOGICAL RELEVANCETilia tuan Szyszyl. is a perennial arboreal plant renowned for its medicinal and economic significance. All the roots, stems, leaves, flowers, and fruits have been used medicinally by the folk Bai and Yi people in Yunnan province, China, to treat inflammation, rheumatism and pain for a long time. The detailed chemical constituents and their anti-inflammatory mechanisms remain unexplored.AIM OF THE STUDYThe objective of this study was to investigate the main anti-inflammatory constituents of T. tuan flowers through bio-guided isolation and to evaluate their anti-inflammatory effects relevant to its traditional medicinal use.MATERIAL AND METHODSBio-guided isolation was conducted on the extract of T. tuan flowers using a combination of column chromatography and preparative HPLC. The structures were established by a combination of extensive spectroscopic analyses and single-crystal X-ray diffraction analysis. The anti-inflammatory activity in vitro was evaluated by measuring the inhibition of nitric oxide (NO) production in LPS-stimulated RAW 264.7 cells. TNF-α and IL-6 levels were evaluated by ELISA. The expression of COX-2 and NF-κB was assayed via western blotting, and in-silico molecular docking was conducted to explore the potential mechanism.RESULTSTwenty-two compounds, including ten flavonoids (1-10), seven phenylpropanoids (11-17), three triterpenoids (19-21), one sterol glucoside 18, and one glyceride 22, were identified from T. tuan flowers for the first time. Among them, 1 is a new compound. It is noted that 1, 5, 7, 8, 10, 17, and 22 exhibited remarkable anti-inflammatory activity against NO production with a range of 5.2-34.5 μM, superior to the positive control L-NMMA. Moreover, the new compound 1 inhibited significantly inflammatory factors IL-6 and TNF-α.CONCLUSIONThe results show that flavonoids including the new one and the phenyl-propanoid are the primary active constituents of T. tuan flowers, responsible for its ethno-pharmacological uses on osteoarthritis and rheumatism. T. tuan flowers could be a promising therapeutic agent to modulate inflammatory diseases.

01 Jan 2025·Journal of Ethnopharmacology

Wenjing decoction: Mechanism in the treatment of dysmenorrhea with blood stasis syndrome through network pharmacology and experimental verification

Article

Author: Jin, Ye ; Liu, Lu ; Zhou, Qi-Xiu ; Li, Xiao-Li ; Huang, Feng ; Gao, Rui

ETHNOPHARMACOLOGICAL RELEVANCETraditional Chinese Medicine (TCM) formula Wenjing Decoction (WJD) longstanding efficacy in enhancing blood circulation, resolving blood stasis, and mitigating dysmenorrhea symptoms. Despite its prevalent application, the specific mechanism underlying effect of WJD remains elusive.OBJECTIVEThe purpose of this study is to examine the material basis of Wenjing Decoction and explore the effect of WJD on rat models of dysmenorrhea with blood stasis syndrome and elucidate its mechanism.METHODSIn this study, we initially identified the chemical constituents of WJD using liquid chromatography-mass spectrometry (LC-MS). Subsequently, we employed network pharmacology to predict the mechanism of WJD in treating acute blood stasis dysmenorrhea. To further investigate the role of WJD, we established a rat model of acute blood stasis. We monitored changes in blood coagulation indexes, IL-6, TNF-α, NO, and COX-2 in rats before and after administration to confirm the successful establishment of the rat model and evaluate the therapeutic effect of WJD on dysmenorrhea and acute blood stasis. Finally, real-time fluorescence quantitative PCR (qPCR) and Western blot (WB) were utilized to investigate its mechanism.RESULTSThrough LC-MS analysis, 69 chemical substances were identified in WJD. Network pharmacology study revealed that the mechanism of WJD in treating BSS may be associated with the PI3K/AKT/NF-κB pathway. Following administration, the WJD group showed gradual recovery of physical signs and coagulation index to a healthy level. Additionally, the levels of IL-6, TNF-α, and COX-2 decreased in a dose-dependent manner, whereas NO levels increased. Results from QPCR and WB detection indicated increased expression levels of p-PI3K, p-AKT, Bcl-2, and eNOS, and decreased expression levels of Bax, NFκBp65, ICAM1, and VCAM1.CONCLUSIONThe results show that WJD significantly improves the characterization, dysmenorrhea index, and coagulation-related factors in BSS rats. Through network pharmacological prediction, real-time fluorescence quantitative PCR, and Western blot analysis, it is postulated that the beneficial effects of WJD on dysmenorrhea may be linked to the PI3K/AKT/NF-κB signaling pathway. These findings offer a theoretical foundation for the advancement and utilization of WJD.

01 Jan 2025·Food Chemistry

Mechanism of inhibition of melanoma by fucoxanthin simulated in vitro digestion products in cell models constructed using human malignant melanoma cells (A375) and keratinocytes (HaCaT)

Article

Author: Yao, Tian ; Qi, Hang ; Wang, Yida ; Liu, Yu ; Dong, Xiufang ; Lu, Yujing ; Nakamura, Yoshimasa

Recently, the increasing incidence of malignant melanoma has become a major public health concern owing to its poor prognosis and impact on quality of life. Consuming foods with potent antitumor compounds can help prevent melanoma and maintain skin health. Fucoxanthin (FX), a naturally occurring carotenoid found in brown algae, possesses antitumor properties. However, its bioavailability, safety risks, and in vivo effects and mechanisms against melanoma remain unclear. This research focused on evaluating the safety and prospective antimelanoma impact of simulated gastrointestinal digestion products (FX-ID) on HaCaT and A375 cells.The results indicate that FX-ID exerts negative effects on mitochondria in A375 cells, increases Bax expression, releases Cytochrome C, and activates cleaved caspase-3, ultimately promoting apoptosis. Additionally, FX-ID influences the mitogen-activated protein kinase (MAPK) pathway by enhancing cyclooxygenase-2 (COX-2) and nuclear factor kappa B (NF-κB) levels, consequently facilitating apoptosis and inflammation without significantly impacting HaCaT cells. These findings provide insight into inhibitory mechanism of FX-ID against melanoma, guiding the development of functional foods for prevention.

News (Medical) associated with NF-κB x COX-2

08 Dec 2022

·www.sciencedaily.com

Clues found regarding tumor suppressor gene's breast cancer activity

Researchers have revealed how the gene HOXA5 may work to suppress formation of breast cancers. Researchers at the Johns Hopkins Kimmel Cancer Center have revealed how the gene HOXA5 may work to suppress formation of breast cancers. A new study indicates that it binds to another protein in an inflammatory cell pathway, boosting that protein's cancer-suppressing properties. A description of the work was published Oct. 15 in Cancer Research. HOXA5 is in cells lining the breast, where it normally acts as a tumor suppressor and transcription factor. It helps new cells mature toward performing their ultimate functions, says senior study author Saraswati Sukumar, Ph.D., a professor of oncology and pathology at the Johns Hopkins University School of Medicine who has been studying this protein for 25 years. Loss of HOXA5 results in cells becoming stuck in their incomplete differentiation stage, during which they begin to divide too much. This can lead to cancer. HOXA5 expression is lost in about 60% to 70% of all breast cancers, often occurring during an early stage of disease. Loss of HOXA5 alone, however, is not always sufficient to start the breast cancer process, and Sukumar's team focused on understanding other steps involved. In studies of breast cancer cell lines and in mice, Sukumar's team discovered that HOXA5 has a partner -- it binds to and stabilizes the cellular protein I kappa B alpha (IκB-α), which in turn inhibits NF-kappa B (NF-κB), a protein complex. Typically, NF-κB rushes to the nucleus and starts transcription of many cancer-causing genes, then IκB-α stops it. When HOXA5 is present, it's able to help IκB-α suppress NF-κB activity more potently, but when HOXA5 is lost, IκB-α's effect on NF-κB is lessened, and the potential for cancer development is greater. "Our studies demonstrate that HOXA5 is acting to put brakes on a very important inflammatory pathway, which has been shown to be a promoter of the development of tumors," Sukumar says. "Understanding precisely how this happens is of great importance, because increasing the amount of HOXA5 in these tumor cells may be a way forward to try to reverse the tumor formation process." In laboratory studies, Priya Pai, lead author and postdoctoral fellow, studied a cell line from nonmalignant tissue lining the breast (epithelial cells) that contained mutations in key breast cancer genes. Breast cancer cells sometimes become resistant to endocrine treatment by acquiring mutations in the gene PIK3CA, or resistant to anti-HER2 therapy through mutations in the HER2 gene. In cells that had mutations in the HER2 and PIK3CA genes, loss of HOXA5 induced the start of precancerous activity. When injected into mouse mammary ducts, the cells produced invasive tumor growth. The NF-κB pathway was significantly upregulated in the cells after HOXA5 was silenced. As a result of activation of the NF-κB pathway, multiple NF-κB target genes involved in exacerbating cancerous changes, such as IL-6 and COX2, also were upregulated. Collectively, the data suggest that the presence of HOXA5 suppresses malignancy in breast epithelial cells by blunting NF-κB action through stabilization of its inhibitor, IκB-α. A new avenue of research is investigation of how lost HOXA5 can be replaced or reinstated so its tumor-suppressing functions can be restored to the cells, Sukumar says. The work was supported by the Avon Foundation for Women. Other researchers were Guannan Wang, Wei Wen Teo, Diana Raez-Rodriguez, Kathleen Gabrielson, Bradley Downs and Akanksha Aggarwal of Johns Hopkins, and Balázs Győrffy of Semmelweis University in Budapest, Hungary.

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