Evolving cognition of the JAK-STAT signaling pathway: autoimmune disorders and cancer

Xue, Cong; Yao, Qiong; Gu, Xinyu; Shi, Qingmiao; Yuan, Xin; Chu, Qingfei; Bao, Zhengyi; Lu, Jiajing; Li, Lanjuan

doi:10.1038/s41392-023-01468-7

Cited by 48 publications

(40 citation statements)

References 570 publications

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“…[54] On the other hand, the overexpression of inflammatory factors can also activate corresponding pathways in the human body to inhibit inflammatory responses. For example, [60–62] IL-6 can activate JAK-STAT signaling pathway, which is one of the few multi-effect cascades. IL-6 first binds to the receptor on the cell membrane to activate the receptor, and the activated receptor induces JAK phosphorylation to further phosphorylate STAT-3, and the activated STAT-3 dimerizes into the nucleus to regulate the expression of anti-apoptotic genes such as Bcl-2, MCL1, and cell cycle-related genes such as c-Myc and p21.…”

Section: Discussionmentioning

confidence: 99%

Network pharmacological analysis on the mechanism of Coix seed decoction for osteoarthritis of the knee

et al. 2023

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Based on network pharmacology methods, we explored the mechanism of the classic Chinese medicine formula Coix seed decoction (CSD) in treating knee osteoarthritis (KOA). We searched each single drug in the CSD in the traditional Chinese medicine systematic pharmacology database in turn to obtain information on the active ingredients and target proteins of the CSD, and obtain the name of the genes corresponding to the target proteins through the UniProt database. We collected KOA-related genes from DisGeNET, GeneCards, comparative toxicogenomics database, and MalaCards database. The Venny online tool identified potential therapeutic targets by intersecting CSD and KOA target genes, while gene ontology and Kyoto encyclopedia of genes and genomes analysis was performed using the Oebiotech Cloud Platform. A protein-protein interaction network was established using the String database; a “CSD-active ingredient-target gene-KOA” network plot was constructed using Cytoscape 3.9.1 software and screened for key targets and hub targets. Finally, molecular docking was performed for hub genes with high Degree values. A total of 227 effective target genes for CSD and 8816 KOA-related target genes were obtained, as well as 191 cross-target genes for CSD and KOA. We screened 37 key gene targets and identified the top 10 hub target genes in descending order of Degree value using protein-protein interaction and Cytoscape 3.9.1 software (TNF, IL-6, MMP-9, IL-1β, AKT-1, VEGFα, STAT-3, PTGS-2, IL-4, TP53). Gene ontology analysis showed that the biological process of CSD treatment of KOA mainly involves cytokine-mediated signaling pathway, negative regulation of apoptotic process, cellular response to hypoxia, cellular response to cadmium ion, response to estradiol, and extrinsic apoptotic signaling pathway in absence of ligand. Kyoto encyclopedia of genes and genomes analysis revealed major signaling pathways including Cellular senescence, TNF signaling pathway, and PI3K-Akt signaling pathway. The molecular docking results show that the core components bind well to the core targets. In conclusion, CSD may exert therapeutic effects on KOA by inhibiting pathological processes such as inflammatory response, apoptosis, cellular senescence, and oxidative stress.

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Section: Discussionmentioning

confidence: 99%

Network pharmacological analysis on the mechanism of Coix seed decoction for osteoarthritis of the knee

et al. 2023

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“…234 In addition, HB interaction with R901 1 was not recorded in TYK2 which means the lack of TYK2 (JH1 domain) selective inhibitor study. Besides, the large hydrophobic pocket composed of G904 4 , E905 5 and G906 6 in TYK2 makes it easy to form hydrophobic interactions with all three residues compared to other three JAK members. This strategy could be utilized to lightly improve TYK2 selectivity.…”

Section: Prospective Vs Accessing Selective Jakimentioning

confidence: 99%

“…26,27 The activation catalyzes phosphorylation of receptor tyrosine residues, of JAKs themselves and of signal transducers and activators of transcriptions proteins. 5 Finally, these phosphorylated STAT (P-STAT) dimerize and translocate to the nucleus where they bind to specific DNA binding sites 28 to regulate genes transcription and cellular function involved in hematopoiesis, [29][30][31] proliferation, 5,[32][33][34] apoptosis, [35][36][37] differentiation, 38,39 metabolism, 40,41 immune modulation, [42][43][44] and malignancy 5,45 and the detailed information regarding the corresponding biological functions is summarized in Figure 1C. 42,46,47 Suppressor of cytokine signaling (SOCS) proteins play a critical role in regulating immune response disorders related to cancer based on the JAK-STAT pathway.…”

Section: Introductionmentioning

confidence: 99%

“…51,52 There are eight members of the SOCS protein family: SOCS1-7 and cytokineinducible SH2-containing protein (CIS). 5,53,54 Among these members, SOCS1 and SOCS3 have been extensively studied because they both have a kinase inhibitory region (KIR) in the N-terminal section, which allow then to inhibit the downstream signaling pathway. 12,[55][56][57] Researchers have designed and tested proteomimetics of SOCS1 and SOCS3 based on the presence of KIR.…”

Section: Introductionmentioning

confidence: 99%

“…44,55,60 As shown in Figure 1E, the JAK structure is composed of seven JAK homology modules: JH7-JH1 (from N-terminus to the C-terminus), which were further divided into four domains-FERM (F for 4.1 protein, E for ezrin, R for radixin and M for moesin) domain, SH2 domain (Src Homology 2 domain), pseudokinase domain and Kinase domain-based on their biochemical functions. 5,61 The kinase domain (JH1) and pseudokinase domain (JH2) have been extensively studied as attractive JAK targets in the field of drug discovery. 62 The detailed structural analysis will be discussed in Section 2.…”

Section: Introductionmentioning

confidence: 99%

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Janus Kinases (JAKs) play a crucial role as therapeutic targets for various cancers. However, the current JAK inhibitors (JAKi) available have limited therapeutic benefits due to their lack of selectivity. This review focuses on the structural analysis to elucidate the molecular determinants of JAKs specificity and the discovery and design of selective JAKi. It includes descriptions and comparison of different JAK structures and their binding sites, a comparative analysis of JAKi and their binding modes, detailed interaction fingerprints (IFPs), and an extensive structure‐selectivity relationship (SSRs). Moreover, the review also explores the challenges and possibilities of using computational structure‐based methods for discovering and designing selective JAKi. Other structure‐based approaches, such as targeting the pseudokinase domain, as well as covalent and allosteric designs, are also covered. Based on this analysis, key determinants corresponding to JAK specificity and rational medicinal chemistry strategies are proposed to facilitate the development of highly selective JAKi. Overall, we aim to enhance the understanding of JAK specificity and explore strategies that can lead to the discovery of effective and selective JAKi in cancer therapy, thus improving the prognosis for cancer patients.

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Evolving cognition of the JAK-STAT signaling pathway: autoimmune disorders and cancer

Cited by 48 publications

References 570 publications

Network pharmacological analysis on the mechanism of Coix seed decoction for osteoarthritis of the knee

Network pharmacological analysis on the mechanism of Coix seed decoction for osteoarthritis of the knee

Insight into Janus kinases specificity: From molecular architecture to cancer therapeutics

Tofacitinib Treatment for Pretibial Myxedema

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