Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.10.2 (focal adhesion kinase)
 44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

One of the important aims of drug discovery for cancer is to find therapeutic agents from natural products that are effective and safe for cancer treatment. In the current study, an alkaloid, 2-acetyl-benzylamine, isolated from Adhatoda vasica, was screened for potent anticancer properties against leukemia cells. We used seven different types of leukemia cells such as CEM, NB-4, MOLM-14, Jurkat, IM-9, K562 and HL-60 for cytotoxic studies. 2-acetyl-benzylamine showed significant cytotoxic properties against MOLM-14 and NB-4 cells with IC50 values of 0.40 and 0.39mM at 24h when compared to other tested cells, respectively. Apoptosis was confirmed by annexin V-FITC/PI kit using flow cytometry and confocal microscope in MOLM-14 and NB-4 cells. In addition, 2-acetyl-benzylamine induced cell cycle arrest at G2/M phase in MOLM-14 cells and G0/G1 phase in NB-4 cells. Apoptosis mechanism was confirmed by RT-PCR and Western blot analysis. Treatment with 2-acetyl-benzylamine decreased the Bcl-2 activity and increased the Bax expression; cytochrome c was released and caspases-3 was activated in MOLM-14 and NB-4 cells. Besides, 2-acetyl-benzylamine inhibited the expression of JAK2/STAT3 in MOLM-14 and NB-4 cells. In vivo administration of 2-acetyl-benzylamine inhibited the growth of MOLM-14 cells in xenograft mice model. Molecular docking study has been performed to investigate the binding mode and to estimate the binding energy of 2-acetyl-benzylamine with the active site of JAK-2, AKT1, FLT3 and Bcl-2. The above findings proved that 2-acetyl-benzylamine could be developed as a potential therapeutic agent against cancer.
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PMID:In vitro and in vivo anticancer activity of 2-acetyl-benzylamine isolated from Adhatoda vasica L. leaves. 2871 64

1,4-benzothiazines have ameliorative effects through inhibition of COX-2 mediated STAT-3 pathways at G-protein couple receptor site. As per this scenario, we recently prepared and tested novel 1,4-benzothiazine derivatives against HT-29 human colon cancer cell line. Two compounds namely AR13 and AR15 showed higher inhibitions among all the synthesized compounds. In the present context, we conducted the in vivo antiproliferative action and identified the molecular mechanism associated to cytotoxic action of AR13 and AR15 in dimethylhydrazine (DMH) induced colorectal carcinoma (CRC) model. Various physiological, oxidative stress, histopathology, ELISA, qRT-PCR, western blot and NMR-based metabolomics were accomplished to evaluate the anticancer effect of titled compounds. Both compounds were subjected to histological and biochemical tests to observe the protective action of the compounds. ELISA showed potential role of these compounds to normalize increased levels of IL-2, IL-6 and COX-2 mediators. This action was more pronounced for COX-2 rather than IL-2 and IL-6. Gene expression analyses further revealed that both of them attenuated the over-expressed COX-2 gene. Furthermore, it was confirmed that these compounds exerted antitumor potential via preventing COX-2 induced JAK-2 and STAT-3 phosphorylation. This action was substansiated by immunohistochemistry using JAK2, p-JAK2, STAT3 and p-STAT3 targets in colon tissue. Finally, score plots of PLS-DA models exhibited significant metabolic discriminations between the treated and CRC groups, and both compounds showed ability to restore the imbalance of multiple metabolites during CRC. In conclusion, our study provided the evidence towards better antiproliferative effect of AR13 and AR15 in DMH-induced CRC through the blockade of COX-2/JAK-2/STAT-3 signal transduction pathway and could be demonstrated as useful anti-CRC candidate molecules for future anticancer therapy.
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PMID:Novel 1,4-benzothazines obliterate COX-2 mediated JAK-2/STAT-3 signals with potential regulation of oxidative and metabolic stress during colorectal cancer. 2922 53

JAK-2 dysregulation plays an important role as an oncogenic driver, and is thus a promising therapeutic target in hematological malignancies. Ruxolitinib is a pyrrolo[2.3-d]pyrimidine derivative with inhibitory activity against JAK1 and JAK2, moderate activity against TYK2, and minor activity against JAK3. Vorinostat is an HDAC inhibitor that reduces JAK-2 expression, thus affecting JAK-2 mRNA expression and increasing JAK-2 proteasomal deterioration. Here we hypothesized that the combination of ruxolitinib and vorinostat could have synergistic effects against hematological disease. We tested combinations of low doses of ruxolitinib and vorinostat in 12 cell lines, and observed highly synergistic cytotoxic action in six cell lines, which was maintained for up to 120 h in the presence of stromal cells. The sensitivity of the six cell lines may be explained by the broad effects of the drug combination, which can affect various targets. Treatment with the combination of ruxolitinib and vorinostat appeared to induce a possible reversal of the Warburg effect, with associated ROS production, apoptotic events, and growth inhibition. Decreased glucose metabolism may have markedly sensitized the six more susceptible cell lines to combined treatment. Therapeutic inhibition of the JAK/STAT pathway seems to offer substantial anti-tumor benefit, and combined therapy with ruxolitinib and vorinostat may represent a promising novel therapeutic modality for hematological neoplasms.
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PMID:Ruxolitinib combined with vorinostat suppresses tumor growth and alters metabolic phenotype in hematological diseases. 2926 1


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