Zotiraciclib (TG02) is an orally active potent inhibitor of CDK2, JAK2 and FLT3 with IC50 values of 13, 73, and 56 nM, respectively. Zotiraciclib can be used for the research of advanced leukemias and multiple myeloma[1][2].
Butyzamide is an orally active activator of Mpl, a thrombopoietin (TPO) receptor. Butyzamide increases the phosphorylation level of JAK2, STAT3, STAT5 and MAPK. Butyzamide increases the level of human platelets in mouse xenotransplantation assay[1].
JAK3/BTK-IN-4 is a potent inhibitor of JAK3/BTK. BTK and JAK3 are two important targets for autoimmune diseases. Simultaneous inhibition of the BTK/JAK3 signalling pathway exhibits synergistic effects. JAK3/BTK-IN-4 has the potential for the research of JAK3 kinase and/or BTK-related diseases (extracted from patent WO2021147953A1, compound 003)[1]
Ginsenoside Rk1 is a unique component created by processing the ginseng plant (mainly Sung Ginseng, SG) at high temperatures[1].Ginsenoside Rk1 has anti-inflammatory effect, suppresses the activation of Jak2/Stat3 signaling pathway and NF-κB[2].Ginsenoside Rk1 has anti-tumor effect, antiplatelet aggregation activities, anti-insulin resistance, nephroprotective effect, antimicrobial effect, cognitive function enhancement, lipid accumulation reduction and prevents osteoporosis[1].Ginsenoside Rk1 induces cell apoptosis by triggering intracellular reactive oxygen species (ROS) generation and blocking PI3K/Akt pathway[3].
JAK-IN-4 is a prodrug of a JAK inhibitor, effective in murine collagen induced arthritis model[1].
Lepzacitinib is a Janus kinase inhibitor targeting to JAK 1/3. Lepzacitinib exhibits anti-inflammatory effect and inhibits atopic dermatitis and other skin diseases[1].
Tyk2-IN-8 (compound 10) is a selective TYK2 inhibitor, which binds to TYK2 catalytically active JH1 domain with an IC50 of 17 nM, used in the treatment of psoriasis[1].
Fosifidancitinib is a potent and selective inhibitor of JAK kinases 1/3. Fociatinib is used in studies of allergies, asthma and autoimmune diseases[1].
JAK3-IN-9 is an orally active JAK3 inhibitor with IC50 value of 1.7 nM. JAK3-IN-9 is highly selective to the JAK3 signal path. JAK3-IN-9 is lowly toxic with high oral bioavailability, shows good anti-arthritis activity. JAK3-IN-9 can be used in autoimmune disease research[1].
Tyk2-IN-9 is a potent,selective and specific inhibitor of JAK kinases, inhibits Tyk2, JAK1 and JAK2 with IC50 values of 6 nM, 21nM and 6nM, respectively. Tyk2-IN-9, example 19, is extracted from patent US2017240552A1[1].
GDC-046 is a potent, selective, and orally bioavailable TYK2 inhibitor with Kis of 4.8, 0.7, 0.7, and 0.4 nM for TYK2, JAK1, JAK2, and JAK3, respectively[1].
Thi-DPPY (compound 8e) is a potent and orally active JAK3 inhibitor with IC50 values of 62.4, 1.38 nM for BTK, JAK, respectively. Thi-DPPY shows anti-proliferative activity against HBE cells. Thi-DPPY shows anti-inflammatory activity in vivo. Thi-DPPY has the potential for the research of idiopathic pulmonary fibrosis (IPF)[1].
LFM-A13 is a potent BTK, JAK2, PLK inhibitor, inhibits recombinant BTK, Plx1 and PLK3 with IC50s of 2.5 μM, 10 μM and 61 μM. LFM-A13 has antiproliferative activity and anticancer activity. LFM-A13 can be used in cancer-related research[1][3][4]
GDC-4379 is a JAK1 inhibitor that can be used for the research of asthma[1].
DTP3 TFA is a potent and selective GADD45β/MKK7 inhibitor. DTP3 TFA targets an essential, cancer-selective cell-survival module downstream of the NF-κB pathway[1].
JAK-IN-27 (compound 1) is an orally active and potent JAKS family kinase inhibitor with IC50s of 3.0 nM (TYK2), 7.7 nM (JAK1), 629.6 nM (JAK3), respectively. JAK-IN-27 inhibits IFN-α2B-induced phosphorylation of STAT3 in Jurkat cells (IC50=23.7 nM)[1].
SHR0302 is a potent and orally active all members of the JAK family inhibitor, particularly JAK1. The selectivity of SHR0302 for JAK1 is >10-fold for JAK2, 77-fold for JAK3, 420-fold for Tyk2. SHR0302 inhibits JAK1-STAT3 phosphorylation and induces the apoptosis of hepatic stellate cells. SHR0302 has anti-proliferative and anti-inflammatory effects[1][2].
JAK-IN-14 is a potent and selective JAK1 inhibitor, with an IC50 of <5 μM. JAK-IN-14 is >8-fold more selective for JAK1 than JAK2 and JAK3 (Patent WO2016119700A1, compound 16)[1].
JAK3/BTK-IN-5 is a potent inhibitor of JAK3/BTK. BTK and JAK3 are two important targets for autoimmune diseases. Simultaneous inhibition of the BTK/JAK3 signalling pathway exhibits synergistic effects. JAK3/BTK-IN-5 has the potential for the research of JAK3 kinase and/or BTK-related diseases (extracted from patent WO2021147953A1, compound 35)[1]
Tyk2-IN-7 (Compound 48) is a TYK2 JH2 inhibitor, binds to TYK2 JH2 domain with IC50 and Ki.app of 0.00053 μM and 0.00007 μM, respectively. Tyk2-IN-7 (Compound 48) provides a highly selective alternative to conventional TYK2 orthosteric inhibitors, inhibits TYK2/JAK1/JAK2 kinase domain. Tyk2-IN-7 (Compound 48) provides robust inhibition in a mouse IL-12-induced IFNγ pharmacodynamic model as well as efficacy in an IL-23 and IL-12-dependent mouse colitis model[1].
JAK-IN-15 is a JAK inhibitor. WO2016119700A1 (Compound 15)[1].
Baricitinib is a selective and orally bioavailable JAK1 and JAK2 inhibitor with IC50s of 5.9 nM and 5.7 nM, respectively.
JAK2-IN-4 (compound 16h) is a selective JAK2/JAK3 inhibitor, with IC50 values of 0.7 nM and 23.2 nM for JAK2 and JAK3, respectively[1].
AT9283 lactic acid is a multi-targeted kinase inhibitor with potent activity against Aurora A/B, JAK2/3, Abl (T315I) and Flt3 (IC50s ranging from 1 to 30 nM). AT9283 lactic acid inhibits growth and survival of multiple solid tumors in vitro and in vivo[1][2].
RO8191 (RO4948191), an imidazonaphthyridine compound, is an orally active and potent interferon (IFN) receptor agonist. RO8191 activates IFN-stimulated genes (ISGs) expression and JAK/STAT phosphorylation. RO8191 shows antiviral activity against both HCV and EMCV with an IC50 of 200 nM for HCV replicon[1].
Tyk2-IN-8 (Compound 3) is a selective Tyk-2 inhibitor with an IC50 of 5.7 nM for TYK2-JH2. Tyk2-IN-8 inhibits JAK1-JH1 with IC50 of 3.0 nM. Tyk2-IN-8 can be used for the research of autoimmune disease[1].
(R,R)-VVD-118313 is the isomer of VVD-118313 (HY-151385). VVD-118313 is a selective JAK1 inhibitor and blocks JAK1-dependent trans-phosphorylation and cytokine signaling. VVD-118313 can be used for research of cancer[1].
FM-479 is the negative control of FM-381 (HY-102046) and has no activity on JAK3 or other kinases[1]. FM-381 is a potent covalent reversible inhibitor of JAK3 targeting the unique Cys909. FM-381 has an IC50 of 127 pM for JAK3, with 410, 2700 and 3600-fold selectivity over JAK1, JAK2 and TYK2, respectively.
JAK3i is a selective, covalent JAK3 kinase inhibitor with IC50 of 0.43 nM, shows high selectivity (>3,000-fold) against the closely related kinase domains in JAK1, JAK2, or TYK2, displays 1,300-fold, 600-fold, and 50-fold over EGFR, ITK, and BTK respectively.
JAK2-IN-9 (Compound A8) is a selective JAK2 inhibitor (IC50: 5 nM). JAK2-IN-9 inhibits the phosphorylation of JAK2, STAT3, and STAT5. JAK2-IN-9 has metabolic stabilities. JAK2-IN-9 induces apoptosis. JAK2-IN-9 can be used for research of myeloproliferative neoplasms (MPNs)[1].