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Your search keyword '"Janus Kinase 3 antagonists & inhibitors"' showing total 190 results

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190 results on '"Janus Kinase 3 antagonists & inhibitors"'

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1. Efficacy and safety of ritlecitinib, an oral JAK3/TEC family kinase inhibitor, in adolescent and adult patients with alopecia totalis and alopecia universalis.

2. Unraveling Ritlecitinib: an in-depth analysis of JAK3 inhibitor for the treatment of alopecia areata.

3. Design, synthesis and activity screening of cedrol derivatives as small molecule JAK3 inhibitors.

4. IRG1/Itaconate inhibits proliferation and promotes apoptosis of CD69 + CD103 + CD8 + tissue-resident memory T cells in autoimmune hepatitis by regulating the JAK3/STAT3/P53 signalling pathway.

5. The Pharmacokinetics, Metabolism, and Clearance Mechanisms of Ritlecitinib, a Janus Kinase 3 and Tyrosine-Protein Kinase Family Inhibitor, in Humans.

6. Real-world clinical efficacy of tofacitinib in moderate-to-severe ulcerative colitis.

7. Pyrimidine compounds BY4003 and BY4008 inhibit glioblastoma cells growth via modulating JAK3/STAT3 signaling pathway.

8. High-throughput virtual screening of phenylpyrimidine derivatives as selective JAK3 antagonists using computational methods.

9. Structural optimizations on the 7H-pyrrolo[2,3-d]pyrimidine scaffold to develop highly selective, safe and potent JAK3 inhibitors for the treatment of Rheumatoid arthritis.

10. CS12192, a novel JAK3/JAK1/TBK1 inhibitor, attenuates autoimmune dermatoses in murine models.

11. CS12192: A novel selective and potent JAK3 inhibitor mitigates acute graft-versus-host disease in bone marrow transplantation.

12. Ritlecitinib, a JAK3/TEC family kinase inhibitor, stabilizes active lesions and repigments stable lesions in vitiligo.

13. Design and synthesis of highly selective Janus kinase 3 covalent inhibitors for the treatment of rheumatoid arthritis.

14. In silico discovery of potent and selective Janus kinase 3 (JAK3) inhibitors through 3D-QSAR, covalent docking, ADMET analysis, molecular dynamics simulations, and binding free energy of pyrazolopyrimidine derivatives.

15. In silico screening of a series of 1,6-disubstituted 1 H -pyrazolo[3,4- d ]pyrimidines as potential selective inhibitors of the Janus kinase 3.

16. Synthesis of Thiazolidin-4-Ones Derivatives, Evaluation of Conformation in Solution, Theoretical Isomerization Reaction Paths and Discovery of Potential Biological Targets.

17. Peficitinib alleviated acute lung injury by blocking glycolysis through JAK3/STAT3 pathway.

18. Janus Kinase Inhibitors Differentially Inhibit Specific Cytokine Signals in the Mesenteric Lymph Node Cells of Inflammatory Bowel Disease Patients.

19. Integration of fingerprint-based similarity searching and kernel-based partial least squares analysis to predict inhibitory activity against CSK, HER2, JAK1, JAK2, and JAK3.

20. In silico computational drug discovery: a Monte Carlo approach for developing a novel JAK3 inhibitors.

21. Molecular Docking and Molecular Dynamics Simulation of New Potential JAK3 Inhibitors.

22. Computer-Aided Drug Design of Novel Derivatives of 2-Amino-7,9-dihydro-8H-purin-8-one as Potent Pan-Janus JAK3 Inhibitors.

23. An Open-Label, Uncontrolled, Single-Arm Clinical Trial of Tofacitinib, an Oral JAK1 and JAK3 Kinase Inhibitor, in Chinese Patients with Keloid.

24. Induction of T cell exhaustion by JAK1/3 inhibition in the treatment of alopecia areata.

25. Low-Dose JAK3 Inhibition Improves Antitumor T-Cell Immunity and Immunotherapy Efficacy.

26. Design of Rational JAK3 Inhibitors Based on the Parent Core Structure of 1,7-Dihydro-Dipyrrolo [2,3-b:3',2'-e] Pyridine.

27. Pd and photoredox dual catalysis assisted decarboxylative ortho -benzoylation of N -phenyl-7-azaindoles.

29. Baricitinib prevents GvHD by increasing Tregs via JAK3 and treats established GvHD by promoting intestinal tissue repair via EGFR.

30. Ranked binding energies of residues and data fusion to identify the active and selective pyrimidine-based Janus kinases 3 (JAK3) inhibitors.

31. Characterization of an aromatic trifluoromethyl ketone as a new warhead for covalently reversible kinase inhibitor design.

32. Design, synthesis, and biological evaluation of cyano-substituted 2,4-diarylaminopyrimidines as potent JAK3 inhibitors for the treatment of B-cell lymphoma.

33. Tofacitinib in Patients Hospitalized with Covid-19 Pneumonia.

34. Betulin, a Newly Characterized Compound in Acacia auriculiformis Bark, Is a Multi-Target Protein Kinase Inhibitor.

35. Significant improvement of dermatitis herpetiformis with tofacitinib.

36. Janus kinase inhibitors for atopic dermatitis: a promising treatment modality.

37. Small molecule TCS21311 can replace BMP7 and facilitate cell proliferation in in vitro expansion culture of nephron progenitor cells.

38. Selective inhibition of JAK3 signaling is sufficient to reverse alopecia areata.

39. Streptomyces hygroscopicus UFPEDA 3370: A valuable source of the potent cytotoxic agent nigericin and its evaluation against human colorectal cancer cells.

40. Pharmacology and safety of tofacitinib in ulcerative colitis.

41. The advantages of describing covalent inhibitor in vitro potencies by IC 50 at a fixed time point. IC 50 determination of covalent inhibitors provides meaningful data to medicinal chemistry for SAR optimization.

42. Discovery of a Novel Class of Covalent Dual Inhibitors Targeting the Protein Kinases BMX and BTK.

43. An electrophilic warhead library for mapping the reactivity and accessibility of tractable cysteines in protein kinases.

44. Nonpeptidal compounds from the insect Polyphaga plancyi and their biological evaluation.

45. IL-21 promotes osteoblastic differentiation of human valvular interstitial cells through the JAK3/STAT3 pathway.

46. Real-world Effectiveness of Tofacitinib for Moderate to Severe Ulcerative Colitis: A Multicentre UK Experience.

47. Efficacy and Safety of PF-06651600 (Ritlecitinib), a Novel JAK3/TEC Inhibitor, in Patients With Moderate-to-Severe Rheumatoid Arthritis and an Inadequate Response to Methotrexate.

48. The Natural Compound Notopterol Binds and Targets JAK2/3 to Ameliorate Inflammation and Arthritis.

49. Sulfur and nitrogen-containing compounds from the whole bodies of Blaps japanensis.

50. JAK selectivity: more precision less troubles.

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