GGTI-286 is a CAAX peptidomimetic that is a potent, cell-permeable, and selective inhibitor of GGTase I with IC50 of 2 uM, 25-fold more potent than FTI-277; inhibits processing of the geranylgeranylated protein Rap1A; inhibits oncogenic K-Ras4B stimulation with IC50 of 1 uM; reduces nuclear localization of β-catenin and transcription dependent on β-catenin/T cell factor in mammalian cells; has significant antiproliferative effect in human malignant glioma cells.
ZINC69391, a specific Rac1 inhibitor, interferes with Rac1-GEF interaction by masking Trp56 residue on Rac1 surface. ZINC69391 interferes with the interaction of Rac1 with Dock180 and reduces Rac1-GTP levels. ZINC69391 induces apoptosis, and shows antiproliferative and antimetastatic effects[1][2][3].
KRAS G12D inhibitor 5 is a KRAS G12D inhibitor for the potential treatment of pancreatic cancer.
KRAS G12C inhibitor 47 (compound 8-1-1) is a potent KRAS G12C inhibitor with an IC50 of 0.172 µM. KRAS G12C inhibitor 47 shows p-ERK inhibition activities with IC50s of 0.046, 69.8 µM in MIA PaCA-2, A549 cells, respectively. KRAS G12C inhibitor 47 has the potential for the research of pancreatic, colorectal, and lung cancers[1].
(E/Z)-ZINC09659342 is an inhibitor of Lbc-RhoA interaction[1].
KRAS G12C inhibitor 39 is a potent inhibitor of KRAS G12C. KRas is a highly attractable target of the pharmaceutical industry for cancer research. KRAS G12C inhibitor 39 has the potential for the research of KRAS G12C-mediated cancer (extracted from patent WO2019099524A1, compound 494)[1].
AZA197 is a selective small molecule inhibitor of Cdc42.AZA197 suppresses colon cancer cell proliferation, cell migration, invasion and increases apoptosis by down-regulating the PAK1 and ERK signaling pathways in vitro. AZA197 reduces tumor growth and significantly increases mouse survival in SW620 tumor xenografts[1].
KRpep-2d is a potent K-Ras inhibitor and inhibits proliferation of K-Ras-driven cancer cells. KRpep-2d can be used for cancer research[1].
Alkannin is a potent and specific inhibitor of tumor-specific pyruvate kinase-M2 (PKM2). Alkannin does not inhibit PKM1 and pyruvate kinase-L (PKL). Alkannin acts as a potential anticancer agent[1].
pan-KRAS-IN-3 (Example 84) is a pan-KRAS inhibitor. pan-KRAS-IN-3 can be used for research of cancers[1].
SOS1-IN-5 is a potent inhibitor of SOS1. SOS1-IN-5 is a pyrimidobicyclic derivative. SOS1-IN-5 blocks the activation of KRAS by interfering with RAS-SOS1 interaction, and achieves the purpose of broad-spectrum inhibition of KRAS activity. SOS1-IN-5 has the potential for the research of cancer diseases (extracted from patent WO2021203768A1, compound 4)[1].
SOS1-IN-8 is a potent SOS1 inhibitor with IC50s of 11.6 and 40.7 nM for SOS1-G12D and SOS1-G12V, respectively (WO2022017339A1, compound 2)[1].
KRAS inhibitor-12 (compound 6-1) is a potent KRAS G12C inhibitor with an IC50 of 0.537 µM. KRAS inhibitor-12 shows p-ERK inhibition activities with IC50s of 1.3, 3.7 µM in MIA PaCA-2, A549 cells, respectively. KRAS inhibitor-12 has the potential for the research of pancreatic, colorectal, and lung cancers[1].
KRAS G12C inhibitor 38 is a potent inhibitor of KRAS G12C. The Ras family of proteins is an important intracellular signaling molecule that plays an important role in growth and development. KRAS G12C inhibitor 38 has the potential for the research of KRAS G12C-mediated cancer (extracted from patent WO2021129820A1, compound 171)[1].
SCH54292 is a potent Ras-GEF interaction inhibitor with IC50 of 0.7 μM[1].
KRAS inhibitor-16 (compound 3-11) is a potent KRAS G12C inhibitor with an IC50 of 0.457 µM. KRAS inhibitor-16 shows p-ERK inhibition activities with IC50s of 3.06, 11.1 µM in MIA PaCA-2, A549 cells, respectively. KRAS inhibitor-16 has the potential for the research of pancreatic, colorectal, and lung cancers[1].
KRAS G12C inhibitor 54 (Compound 1) is a KRAS G12C inhibitor[1].
KRAS inhibitor-18 (compound 3-10) is a potent KRAS G12C inhibitor with an IC50 of 4.74 µM. KRAS inhibitor-18 shows p-ERK inhibition activities with IC50s of 66.4, 11.1 µM in MIA PaCA-2, A549 cells, respectively. KRAS inhibitor-18 has the potential for the research of pancreatic, colorectal, and lung cancers[1].
RM-018 is a potent, functionally distinct tricomplex KRASG12C active-state inhibitor. RM-018 retaines the ability to bind and inhibit KRASG12C/Y96D and could overcome resistance. RM-018 binds specifically to the GTP-bound, active [“RAS(ON)”] state of KRASG12C[1].
ARS-1630 is a novel inhibitor of mutant K-ras G12C extracted from patent WO 2015054572 A1.
1A-116 is a specific Rac1 inhibitor.
KRAS inhibitor-17 (compound 3-9) is a potent KRAS G12C inhibitor with an IC50 of 3.37 µM. KRAS inhibitor-17 shows p-ERK inhibition activities with IC50s of 9.25, >33.3 µM in MIA PaCA-2, A549 cells, respectively. KRAS inhibitor-17 has the potential for the research of pancreatic, colorectal, and lung cancers[1].
ARS-1620 is an atropisomeric selective KRASG12C inhibitor with desirable pharmacokinetics.
KRAS G12C inhibitor 35 is a potent inhibitor of KRAS G12C. The Ras family of proteins is an important intracellular signaling molecule that plays an important role in growth and development. KRAS G12C inhibitor 35 has the potential for the research of KRAS G12C-mediated cancer (extracted from patent CN112920183A, compound 3)[1].
KRAS G12C inhibitor 33 is a KRAS G12C inhibitor extracted from patent WO2021244603A1, compound 1. KRAS G12C inhibitor 33 can be used for the research of cancer[1].
TUS-007 is a CANDDY molecular, modified from a proteasome inhibitor. However, TUS-007 hardly inhibits proteasome activity. TUS-007 is also an orally active and potent KRAS G12D/V degrader. TUS-007 can be applied in KRAS G12D/V chemical knockdown in cell-free. TUS-007 also exhibits tumor suppression[1]. Note: CANDDY refers to Chemical knockdown with Affinity aNd Degradation DYnamics.
RBC8 is a novel small molecule inhibitor of Ral GTPase; has IC50 of 3.5 μM in H2122 cell and 3.4 μM in H358 cell.IC50 value:Target: Ral GTPase inhibitorRBC8 or BQU57 treatment showed no further inhibition of colony formation after Ral knockdown. RBC8 and BQU57 showed favorable properties that define good drug candidates. To test the effect of Ral inhibitors on xenograft tumor growth, nude mice were inoculated subcutaneously with H2122 human lung cancer cells and treated intraperitoneally with 50 mg/kg/d of RBC8 for 21 days (except weekends). RBC8 inhibited tumor growth to a similar extent as dual knockdown of RalA and RalB.
KRAS inhibitor 11 is a first-in-class, high-affinity, noncovalent allosteric KRAS inhibitor, disrupts KRAS-Raf interaction with Kd of 1.2 uM; binds to activated KRAS with sub-micromolar affinity and disrupts effector binding, thereby inhibiting KRAS signaling and cancer cell growth; dose-dependently decreases both p-ERK and p-cRaf levels in BHK cells expressing KRASG12D and KRASG12V, suggesting inhibition of RAS signaling via the MAPK pathway.
BI-2865 is a none-covalent pan-KRAS Inhibitor. BI-2865 binds to WT, G12C, G12D, G12V and G13D mutant KRAS with KDs of 6.9, 4.5, 32, 26, 4.3 nM respectively. BI-2865 inhibits the proliferation of G12C, G12D or G12V mutant KRAS expressing BaF3 cells (mean IC50: roughly 140 nM)[1].
MLS000532223 is a high affinity, selective inhibitor of Rho family GTPases, with EC50 ranging from 16 μM to 120 μM. MLS000532223 prevents GTP binding to several GTPases. Small GTPases are key regulators of cellular activity [1].