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Results for "

TMD

" in MedChemExpress (MCE) Product Catalog:

14

Inhibitors & Agonists

1

Recombinant Proteins

Cat. No. Product Name Target Research Areas Chemical Structure
  • HY-150210
    FSHR agonist 1

    		Estrogen Receptor/ERR Endocrinology
    FSHR agonist 1 is a high affinity and allosteric follicle stimulating hormone receptor (FSHR) agonist with a pEC50 of 7.72. FSHR agonist 1 formes extensive interactions with the TMD to directly activate FSHR .
    FSHR agonist 1
  • HY-129527
    GNE-9278

    		iGluR Neurological Disease
    GNE-9278 is a highly selective positive allosteric modulator of NMDAR that acts at the GluN1 transmembrane domain (TMD). GNE-9278 acts on activated NMDARs to increase peak current and agonist affinity .
    GNE-9278
  • HY-160142
    UBX-382

    		Btk Cancer
    UBX-382 is an orally available proteolysis-targeting chimeras (PROTACs) that target BTK to inactivate B-cell receptor signaling. UBX-382 shows superior degradation activity for wild-type and mutant BTK proteins and shows anti-cancer activity in murine xenograft models of TMD-8 cells .
    UBX-382
  • HY-15805
    KIN-8194

    		Src Btk Cancer
    KIN-8194 is an orally active dual inhibitor of HCK and BTK, with IC50 values of 0.915 and <0.495 nM, respectively. KIN-8194 impairs growth and integrin-mediated adhesion of BTKi-resistant mantle cell lymphoma (MCL). KIN-8194 overcomes ibrutinib (HY-10997) resistance with a survival benefit in TMD-8 ABC DLBCL xenografted mice .
    KIN-8194
  • HY-119165
    GSM-1

    		γ-secretase Neurological Disease
    GSM-1 is a potent γ-secretase modulator. GSM-1 directly targets the transmembrane domain (TMD) 1 of presenilin 1 (PS1) .
    GSM-1
  • HY-156095
    F7H

    		Wnt Cancer
    F7H is a Frizzled receptor FZD7 antagonist (IC50: 1.25 μM). Frizzled receptors (FZDs) influence Wnt signaling, mediating embryonic development and tissue homeostasis. F7H is a potent ligand for the FZD7 transmembrane domain (TMD) .
    F7H
  • HY-145416
    G247

    		Bacterial Infection
    G247 is a specific MsbA inhibitor. G247 acts as a transmembrane domains (TMDs) wedge, symmetrically increasing nucleotide-binding domains (NBDs) separation and preventing conformational transition of MsbA. G247 suppresses ATPase activity by increasing inter-NBD distance .
    G247
  • HY-156553
    BTK-IN-27

    		Btk Inflammation/Immunology Cancer
    BTK-IN-27 (example 8) is a BTK inhibitor (IC50: 0.2 nM). BTK-IN-27 shows anti-proliferative activity in TMD8 cells (IC50: < 5 nM). BTK-IN-27 can be used for research of cancer, lymphoma, leukemia and immunological diseases .
    BTK-IN-27
  • HY-164462
    BHA536

    		PKC NF-κB Apoptosis Cancer
    BHA536 is an orally active selective inhibitor for PKCα/β and NF-kB signaling pathway. BHA536 inhibits the proliferation of CD79-mutated ABC DLBCL cell, arrests cell cycle at G1 phase, and induces apoptosis in TMD8 cell. BHA536 exhibits antitumor efficacy in mice .
    BHA536
  • HY-150593
    IRAK4-IN-16

    		IRAK Cancer
    IRAK4-IN-16 (compound 4) is a potent IRAK4 (interleukin-1 receptor associated kinase 4) inhibitor, with an IC50 of 2.5 nM. IRAK4-IN-16 shows cytotoxicity activity against OCI-LY10, TMD8, Ramos and HT cells, with IC50 values of 0.2, 0.2, 0.6, and 2.7 μM, respectively .
    IRAK4-IN-16
  • HY-107506
    Ro 67-4853

    		mGluR Neurological Disease
    Ro 67-4853 is a positive allosteric modulator (PAM) of mGluR1 (pEC50=7.16 for rmGlu1a receptor). Ro67-4853 exhibits activity at all group I mGlu receptors including hmGlu1, rmGlu1, and rmGlu5. Ro 67-4853 enhances the potency of L-Glu by interacting with the transmembrane domain (TMD) of the receptor. Ro 67-4853 potentiates sensory synaptic responses to repetitive vibrissa stimulation .
    Ro 67-4853
  • HY-118097
    GW0072

    		Others Cancer
    Targeted molecular dynamics simulations of the entry of GW0072, a macromolecular ligand with flexible ionic properties, into the ligand-binding domain of the nuclear receptor PPARc were performed. Starting from the apo-form, where the ligand is located outside the receptor, the simulation ultimately locks the ligand into the binding pocket, yielding a structure very close to the holo-form. The results show that the entry process is mainly guided by hydrophobic interactions, and that the entry and exit pathways are very similar. We suggest that the TMD approach may be useful in distinguishing ligands generated by in silico docking. To address the question of the ligand entry process, we report targeted molecular dynamics (TMD) simulations of the binding of the GW0072 ligand to the ligand-binding domain (LBD) of the peroxisome proliferator-activated receptor gamma (PPARc). PPARc is a member of the nuclear receptor superfamily and an important agent target for many diseases. We chose to study this complex because (i) GW0072 is a large ionic, highly flexible ligand that includes aliphatic chains and polar groups, and (ii) previous simulations have defined a possible escape pathway for this ligand. Starting from the apo-form of the receptor (PDB.ID 1PRG, chain A), with the ligand located outside, TMD simulations converged on a holo-form complex that is close to the target structure (PDB.ID 4PRG, chain A), defining a permeation pathway into the binding pocket that is very similar to the escape pathway. However, during the entry of GW0072 into the receptor (Fig. 5), the helices are very mobile, and once the ligand is placed in the pocket, AF-2 becomes more rigid during the remainder of the simulation (Fig. S1 in the Supplementary Materials). This finding is in good agreement with the observations of Oberfield et al. [12], suggesting that despite the absence of direct interaction with the ligand, the presence of the ligand in the binding site stabilizes an intermediate conformation of AF-2, which may be responsible for the property of GW0072 as a partial agonist.
    GW0072
  • HY-153220
    NX-2127

    		Btk Cancer
    NX-2127 is an orally and potent BTK inhibitor, inducing degradation of the mutated BTK C481S in cells. NX-2127 inhibits proliferation of BTK C481S mutant TMD8 cells, more effectively than Ibrutinib (HY-10997). NX-2127 catalyzes the degradation of Ikaros (IKZF1) and Aiolos (IKZF3) with of 25 nM and 54 nM, respectively. NX-2127 stimulates T cell activation and increases IL-2 production in primary human T Cells .
    NX-2127
  • HY-153321
    NX-5948

    BTK-IN-24

    		 Btk PROTACs Inflammation/Immunology Cancer
    NX-5948 (BTK-IN-24) is an orally active chimeric targeting molecule (CTM) that induces specific BTK protein degradation by the cereblon E3 ligase (CRBN) complex without degradation of other cereblon neo-substrates. NX-5948 mediates potent anti-inflammatory activity via BTK degradation with resultant inhibition of B cell activation. NX-5948 exhibits potent tumor growth inhibition in TMD8 xenograft models that contain either wild-type BTK or BTKi-resistant mutations. NX-5948 is efficacious in a mouse collageninduced arthritis (CIA) model. NX-5948 can cross the blood brain barrier (BBB). NX-5948 is a PROTAC composed of the ligand for target protein, a linker, and a cereblon E3 ligase (CRBN) complex (Red: ligand for target protein; Blue: CRBN; Black: linker) .
    NX-5948

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