UAB116 is a Liver X Receptor (LXR)/Retinoid X Receptor (RXR) agonist. UAB116 can decreases metastatic phenotype in hepatoblastoma by inhibiting the Wnt/β-Catenin pathway via upregulation of TRIM29. UAB116 can reduce proliferation, stemness and invasiveness of metastatic hepatoblastoma cells.

UA2239 is an antimalarial agent and acyclic nucleoside phosphonate. UA2239 disrupts the essential cGMP-dependent egress pathway by decreasing cGMP levels. UA2239 targets guanylyl cyclase α. UA2239 demonstrates rapid and irreversible inhibitory effects on Plasmodium parasites.

U-19052 is a selective competitive peptidoleukotriene D/E receptor antagonist. U-19052 acts as a reversible antagonist that not affecting responses to non-leukotriene agonists. U-19052 does not exhibit agonist activity or induce contraction in guinea pig tracheal or ileal strips. U-19052 is a leukotriene antagonist developed by modifying leukotriene chemical structure. U-19052 can be used for the research of allergic asthma and hypersensitivity diseases.

U 88204 is a potent HIV-1 reverse transcriptase (RT) inhibitor with an IC50 of 0.25 μM. U 88204 blocks HIV-1 replication in infected cells. U 88204 can be used for the research on HIV-infection and of acquired immunodeficiency syndrome (AIDs).

Tyrosine kinase-IN-11 (Compound 4b) is a tyrosine kinase inhibitor. Tyrosine kinase-IN-11 decreases general tyrosine kinase activity, selectively inhibits PDGFR-β, SRC, and c-MET kinases. Tyrosine kinase-IN-11 induces apoptosis, accompanied by reduced ERK signalings. Tyrosine kinase-IN-11 exhibits selective anticancer activity against pancreatic cancer and renal cancer.

Tyrosinase-IN-50 (Compound 14) is a Tyrosinase inhibitor (with a Tyrosinase IC50 of 0.06 μM in MNT-1 cells and a Tyrosinase IC50 of 0.16 μM in B16-F10 cells). Tyrosinase-IN-50 inhibits melanogenesis in multiple cell types. Tyrosinase-IN-50 can be used for the research of hyperpigmentation-related diseases.

Tyk2-IN-23 is a potent, orally active, selective TYK2 inhibitor (IC50 = 18 nM), exhibiting more than > 70-fold selectivity over JAK1/2/3 isoforms. Tyk2-IN-23 potently inhibits p-STAT3 in TYK2-dependent signaling activated by IFN-α and IL-10. Tyk2-IN-23 potently inhibits IFN-α-induced STAT1 phosphorylation in H9 cells. Tyk2-IN-23 can be used for the study of alopecia areata and allergic Rhinitis.

Tubulin-IN-66 is a tubulin (tubulin) and P-gp inhibitor with antiproliferative activity against cancer cells. Tubulin-IN-66 covalently binds to the Colchicine-binding site at Cys239 of the β-tubulin subunit, inhibits tubulin polymerization and disrupts the microtubule network. Tubulin-IN-66 inhibits P-gp function to overcome multidrug resistance. Tubulin-IN-66 arrests the cell cycle at the G2/M phase and induces apoptosis (apoptosis). Tubulin-IN-66 inhibits colony formation and migration of cancer cells. Tubulin-IN-66 can be used in the research of tumors such as breast cancer.

Tubulin-IN-65 (Compound Imp-18) is a Tubulin inhibitor. Tubulin-IN-65 exhibits tubulin-disrupting activity. Tubulin-IN-65 disrupts microtubule integrity. Tubulin-IN-65 induces Apoptosis and increases the expression of CDK1 and Cyclin B1. Tubulin-IN-65 possesses anticancer activity against breast cancer and colorectal cancer. Tubulin-IN-65 can be used in research related to triple-negative breast cancer and colorectal adenocarcinoma.

Tubulin/VEGFR-2-IN-2 is an orally active tubulin and VEGFR-2 inhibitor with IC50s of 3.27 and 0.09 μM, respectively. Tubulin/VEGFR-2-IN-2 exerts the antitumor effects through multifaceted pathways, including enhancing reactive oxygen species (ROS) generation, disrupting mitochondrial membrane potential, inducing apoptosis, and arresting the cell cycle. Tubulin/VEGFR-2-IN-2 demonstrates anti-angiogenic properties by significantly impairing endothelial cell migration, invasion, and tube formation in vitro. Tubulin/VEGFR-2-IN-2 suppresses angiogenesis, tumor growth, and metastasis in vivo. Tubulin/VEGFR-2-IN-2 can be used for non-small lung cancer, breast cancer, gastric cancer and lymphoma.

Tubulin polymerization-IN-90 is a tubulin polymerization inhibitor. Tubulin polymerization-IN-90 disrupts tubulin polymerization by binding to the nocodazole-binding site on β-tubulin. Tubulin polymerization-IN-90 induces the release of extracellular vesicles marked by the tetraspanin CD63. Tubulin polymerization-IN-90 induces the release of IL-8 from cells. Tubulin polymerization-IN-90 reduces the viability of cancer cells. Tubulin polymerization-IN-90 can be used in the research of cancers such as acute T-lymphoblastic leukemia.

Tubulin polymerization-IN-86 (Compound B6) is an effective inhibitor of tubulin polymerization. Tubulin polymerization-IN-86 effectively inhibits microtubulin polymerization by binding to the colchicine binding sites on microtubulin, thereby disrupting the microtubule cytoskeleton within the cell. Tubulin polymerization-IN-86 exhibits potent anti-proliferative activity against a variety of cancer cell lines. Tubulin polymerization-IN-86 induces cell cycle arrest, apoptosis, inhibits cell migration, invasion, and long-term survival ability. Tubulin polymerization-IN-86 inhibits tumor growth in mice and can be used for the study of melanoma.

Tubulin polymerization-IN-84 inhibits tubulin polymerization by targeting the colchicine-binding pocket, with anIC50 = 10.9 μM. Tubulin polymerization-IN-84 shows antiproliferative activity against Jurkat, B16-F10, HCT116, and MDA-MB-231 cells (IC50 = 60 nM, 380 nM, 138 nM, and 1.054 μM). Tubulin polymerization-IN-84 induces G2/M-phase arrest and apoptosis in B16-F10 cells. Tubulin polymerization-IN-84 suppresses tumor growth in a B16-F10 melanoma model and potentiates anti-tumor immunity in combination with a PD-L1 mAb for the research of T-cell acute lymphoblastic leukemia, melanoma, colon cancer, and breast cancer.

Tuberactinomycin-O is a peptide antibiotic belonging to the tuberactinomycin family. Tuberactinomycin-O inhibits the growth of various bacteria, including Staphylococcus aureus, Escherichia coli, Pseudomonas aeruginosa and Mycobacterium ATCC 607. Tuberactinomycin-O exhibits acute toxicity in male mice when administered intravenously. Tuberactinomycin-O can be used in the research of tuberculosis.

TTP-6171 is a non-covalent inhibitor of Monkeypox virus I7L protease, and it can be used for research on poxvirus infections.

TTBK1-IN-5 (Compound 32) is a potent TTBK1 inhibitor with an IC₅₀ of 239 nM. TTBK1-IN-5 can be used for research on Alzheimer's disease.

TTBK1-IN-3 (Compound 18) is a potent inhibitor of TTBK1, with a biochemical IC₅₀ of 18 nM and a cellular IC₅₀ of 259 nM. TTBK1-IN-3 can be used for research on Alzheimer's disease.

TSL2109 is an orally active and selective DYRK2 and CDK4/6 inhibitor with an IC50 value of 22 nM for DYRK2. TSL2109 exhibits high kinase selectivity over 93%. TSL2109 arrests cell cycle and induces apoptosis in virto. TSL2109 effectively overcomes Enzalutamide resistance by suppressing tumor growth in vivo and virto. TSL2109 also shows CDK4/6 inhibitor resistance.TSL2109 demonstrates safety profile. TSL2109 can be used for prostate cancer research and breast cancer[1][2].

TSI-13-57 is a pan-TLR inhibitor (IC50: 2.7 μM, 6.03 μM, 7.37 μM, 6.38 μM for TLR9, TLR7, TLR2, TLR4, respectively). TSI-13-57 inhibits homodimerization of the TIR domains of MyD88. TSI-13-57 reduces systemic inflammatory responses in LPS-induced mice.

TSHR modulator-1 is a TSHR modulator.

TRβ agonist-4 is an orally bioavailable, liver-targeted selective agonist of hTHR-β (EC50=6.0 nM), with a 105.3-fold selectivity over THR-α. TRβ agonist-4 exists in multiple crystal forms, including Form A, Form B, Form C, Form D, Form E, as well as an amorphous form. TRβ agonist-4 can be used for research related to non-alcoholic steatohepatitis (NASH).

TrxR-IN-9 is a thioredoxin reductase (TrxR) inhibitor with an IC50 of 0.26 μM. TrxR-IN-9 disrupts cellular redox balance. TrxR-IN-9 induces S-phase cell cycle arrest, promotes apoptosis and exhibits antiproliferative activity across cancer cells. TrxR-IN-9 exerts effects via synergistic nitric oxide (NO) and reactive oxygen species (ROS) action. TrxR-IN-9 can be used for the research of breast cancer, gastric cancer, colorectal cancer, liver cancer.

TrxR2-IN-1 is a thioredoxin reductase 2 (TrxR2) inhibitor with an IC50 value of 0.83 μM. TrxR2-IN-1 accumulates in mitochondria, impairs mitochondrial function and membrane potential, increases reactive oxygen species (ROS) levels, activates ASK1-mediated caspase-dependent apoptosis (apoptosis), induces G2/M cell cycle arrest, and inhibits cancer cell migration. TrxR2-IN-1 can be used in the research of hepatocellular carcinoma.

TRPV4/TRPA1-IN-1 is a TRPV4/TRPA1 inhibitor that suppresses TRPV4/TRPA1-mediated calcium influx. TRPV4/TRPA1-IN-1 alleviates pain behaviors in a mouse trigeminal stimulation pain model and inhibits inflammation and pain-related behaviors in a mouse acute pancreatitis model. TRPV4/TRPA1-IN-1 can be used in research on acute pancreatitis.

TRPM8 receptor agonist-1 (Example 81) is a TRPM8 receptor agonist. TRPM8 receptor agonist-1 can trigger the inward flow of calcium, sodium and other ions within the cell, causing the cell membrane to depolarize and triggering an action potential. TRPM8 receptor agonist-1 can activate signals related to the swallowing reflex and can be used for the research of oropharyngeal dysphagia.

TRPM5 agonist-1 is an orally active TRPM5 agonist with a pEC50 of 8.1. TRPM5 agonist-1 shows excellent selectivity (> 100-fold) versus related cation channels (TRPM8, TRPV1, TRPV4, TRPA1, TRPM4). TRPM5 agonist-1 exhibits locally acting stimulatory effect on gastrointestinal transit in mice. TRPM5 agonist-1 can be used for research on promoting gastric motility.

TRPA1 agonist-3 is a selective and orally active TRPA1 agonist, with EC50 values of 50.05 μM and 314.04 μM for human and mouse TRPA1, respectively. TRPA1 agonist-3 does not activate hTRPV1, mTRPV2, hTRPV3, hTRPV4, hTRPC6, or hTRPM8 channels. TRPA1 agonist-3 alleviates inflammatory pain in mice through a channel desensitization mechanism.

Triptolide-6-succinate-β-D-glucose (Compound 2) is a glucose-conjugated derivative of Triptolide. Triptolide-6-succinate-β-D-glucose is a tumor-selective prodrug targeting glucose transporters ( GLUT). Triptolide-6-succinate-β-D-glucose can induce the degradation of the RPB subunit of RNA polymerase II. Triptolide-6-succinate-β-D-glucose inhibits the proliferation of HEK293T cells with an IC50 value of 268 nM. Triptolide-6-succinate-β-D-glucose can be used for the research of cancer, such as prostatic cancer.

Trioxacarcin B (TXN-B) is a potent cytotoxic agent and DNA-targeted inhibitor. Trioxacarcin B disrupts DNA function and induces apoptosis in cancer cells. Trioxacarcin B not only effectively inhibits the growth of various Gram-positive and Gram-negative bacteria as well as Plasmodium falciparum, but also blocks the colony formation of cancer stem cells, significantly reduces tumor volume and prolongs survival in preclinical in vivo models. The activity of Trioxacarcin B is highly dependent on its intact spiro-epoxide structure; it loses efficacy once this moiety undergoes hydrolysis, and Trioxacarcin B shows no activity against fungi, microalgae and small RNA viruses. Trioxacarcin B can be used for research on bacterial infections, malaria, and various cancers including colon cancer and melanoma.

TRG-192 is a potent and selective glutaminase (GLS) inhibitor with an IC50 of 68 nM. TRG-192 inhibits intracellular glutamate levels. TRG-192 is applicable to related research on non-small cell lung cancer.