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Pharmacodynamics properties

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By Targets:	Akt (1) ATP Synthase (1) Bcl-2 Family (1) Caspase (1) DNA/RNA Synthesis (1) Estrogen Receptor/ERR (1) Histamine Receptor (1) Histone Methyltransferase (1) HSV (1) Influenza Virus (5) Melanocortin Receptor (1) Phosphatase (2) PI3K (1) Potassium Channel (1) Sodium Channel (1)
By Research Areas:	Cancer (4) Infection (6) Inflammation/Immunology (2) Neurological Disease (1)

14

Inhibitors & Agonists

1

Natural
Products

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

PRL3-CNNM4 PPI-IN-1	Phosphatase	Cancer
PRL3-CNNM4 PPI IN 1 (Compound C28d52) is an inhibitor of the PRL3-CNNM4 interaction and also inhibits PRL-mediated suppression of CNNM. PRL3-CNNM4 PPI IN 1 is capable of penetrating epithelial cell layers, exhibits metabolic stability, possesses favorable pharmacokinetic and pharmacodynamic properties, and holds potential for drug development based on this compound .

Cap-dependent endonuclease-IN-5	Influenza Virus	Infection
Cap-dependent endonuclease-IN-5 is a potent inhibitor of cap-dependent endonuclease (CEN). Cap-dependent endonuclease-IN-5 inhibits influenza virus well, and/or has lower cytotoxicity, better in vivo pharmacokinetic properties and in vivo pharmacodynamic properties (extracted from patent WO2020078401A1, compound 13-1) .

Abyssinone V	HSV DNA/RNA Synthesis ATP Synthase	Infection
Abyssinone V is a prenylated flavonoid with predicted anti-viral activity. Abyssinone V can be isolated from the stem bark of Erythrina melanacantha. Abyssinone V possesses good pharmacodynamics properties. Abyssinone V is predicted to be antivirals including anti-herpes (HSV) agent, with mechanisms comprising inhibition of polymerase, ATPase and membrane integrity .

Cap-dependent endonuclease-IN-9	Influenza Virus	Infection
Cap-dependent endonuclease-IN-9 is a potent inhibitor of cap-dependent endonuclease (CEN). Not only can Cap-dependent endonuclease-IN-9 inhibit influenza virus well, but also has lower cytotoxicity, better in vivo agent kinetic properties and in vivo pharmacodynamic properties. Cap-dependent endonuclease-IN-9 has strong inhibitory effect on RNA polymerase activity of A virus (extracted from patent CN112521386A, compound VI-1) .

Cap-dependent endonuclease-IN-2	Influenza Virus	Infection
Cap-dependent endonuclease-IN-2 is a potent inhibitor of cap-dependent endonuclease (CEN). Not only can Cap-dependent endonuclease-IN-2 inhibit influenza virus well, but also has lower cytotoxicity, better in vivo agent kinetic properties and in vivo pharmacodynamic properties. Cap-dependent endonuclease-IN-2 has strong inhibitory effect on RNA polymerase activity of A virus (extracted from patent WO2019052565A1, compound 28) .

Cap-dependent endonuclease-IN-3	Influenza Virus	Infection
Cap-dependent endonuclease-IN-3 is a potent inhibitor of cap-dependent endonuclease (CEN). Not only can Cap-dependent endonuclease-IN-3 inhibit influenza virus well, but also has lower cytotoxicity, better in vivo agent kinetic properties and in vivo pharmacodynamic properties. Cap-dependent endonuclease-IN-3 has the potential for the research of influenza A and influenza B infection (extracted from patent WO2019141179A1, compound VI-1) .

AM-9635	PI3K Akt	Inflammation/Immunology
AM-9635 is a selective PI3Kδ inhibitor with oral bioavailability, good in vitro and in vivo activity and pharmacodynamic properties. AM-9635 inhibits PI3Kδ-dependent B cell receptor-mediated AKT phosphorylation and suppresses the production of specific IgG and IgM antibodies in rats immunized with Aplysia leocyanin (KLH).

AM-0466	Sodium Channel Histamine Receptor	Inflammation/Immunology
AM-0466 is a sodium channel inhibitor with nanomolar levels of NaV1.7 inhibitory activity. AM-0466 exhibits potent pharmacodynamic activity in a NaV1.7-dependent histamine-induced itch model. AM-0466 also showed significant analgesic effects in capsaicin-induced pain models. After optimizing its pharmacokinetic properties, AM-0466 was advanced into in vivo targeting and efficacy models for testing .

Cap-dependent endonuclease-IN-10	Influenza Virus	Infection
Cap-dependent endonuclease-IN-10 is a potent inhibitor of cap-dependent endonuclease (CEN). Not only can Cap-dependent endonuclease-IN-10 inhibit influenza virus well, but also has lower cytotoxicity, better in vivo pharmacokinetic and in vivo pharmacodynamic properties, and better hepatic microsomal stability. Cap-dependent endonuclease-IN-10 has the potential for the research of viral infections (including influenza A, influenza B and influenza C) (extracted from patent WO2021129799A1, compound 1-1) .

Kv1.5-IN-1	Potassium Channel	Neurological Disease
Kv1.5-IN-1 is a Kv1.5 channel inhibitor. Its target selectivity and pharmacodynamic effects were evaluated in an in vitro rat model. After the introduction of a methoxy group at the R5 position, Kv1.5-IN-1 showed inhibitory potency similar to that of the unsubstituted compound. Its IC50 value for hKv1.5 channels was 0.51 μM. Kv1.5-IN-1 exhibited a high degree of selectivity, nearly 2,600 times higher than compound Ik and 300 times higher than compound IId, indicating that it may be a safe inhibitor. Due to its good pharmacological behavior, Kv1.5-IN-1 deserves further pharmacodynamic and pharmacokinetic evaluation. These properties make Kv1.5-IN-1 a potential Kv1.5 channel inhibitor that may have application prospects in the treatment of related diseases.

Estrogen receptor modulator 10	Estrogen Receptor/ERR Caspase Bcl-2 Family	Cancer
Estrogen receptor modulator 10 (compound G-5b) is an estrogen receptor (ER) antagonist (IC₅₀=6.7 nM) and degrader (DC₅₀=0.4 nM). Estrogen receptor modulator 10 is developed based on the Fulvestrant (HY-13636) molecule and can rapidly degrade ER receptors through the proteasome pathway. Estrogen receptor modulator 10 can induce cell apoptosis and block cells in the G1/G0 phase and can be used in cancer research .

CSV0C018875 hydrochloride	Histone Methyltransferase	Others
CSV0C018875 hydrochloride is a G9a (EHMT2) inhibitor that inhibits G9a activity. CSV0C018875 can effectively inhibit G9a activity in both enzyme and cell-based assays, and its toxicity is much lower than that of the known G9a inhibitor BIX-01294. CSV0C018875 binds tightly to the active site cavity of G9a, thereby improving the binding firmness and prolonging the residence time of the compound, further enhancing the inhibitory effect of G9a. CSV0C018875 has the potential to improve its ADME (absorption, distribution, metabolism and excretion) and pharmacodynamic properties through further optimization .

K103	Phosphatase	Cancer
K103 is an inhibitor discovered from the screen that is an analog of the serotonin antagonist benzazocine. K103 exhibited inhibition of SHIP homologues, labelling it a pan-SHIP1/2 inhibitor, but the molecule had no effect on another 5' inositol phosphatase, OCRL. In line with the "two PIPs hypothesis", the molecule exhibited significant anti-tumour effects against a variety of cell lines, particularly breast cancer cells. Additional studies with K103 revealed that inhibition of SHIP1/2 in multiple myeloma cells resulted in G2/M cell cycle arrest followed by extensive apoptosis via activation of the caspase cascade. K103 fits the commonly used small molecule agent property profile, but while this work was being conducted, it was discovered that K103 caused psychoactive effects in mice, which limited the utility of the molecule in vivo. Therefore, certain synthetic studies were conducted on this tryptamine to identify the features that needed to be present in the molecule to maintain pan-SHIP1/2 inhibition in order to design an inhibitor with favourable pharmacodynamic properties and an improved side effect profile.

BMS-470539	Melanocortin Receptor	Cancer
BMS-470539 is a synthetic MC-1R agonist with potent anti-inflammatory properties. BMS-470539 selectively activates human and murine MC-1R with EC50 values ??of 16.8 nM and 11.6 nM, respectively. In vitro studies have shown that BMS-470539 is able to dose-dependently inhibit TNF-alpha-induced NF-kB activation in human melanoma cells expressing MC-1R. In vivo, subcutaneous injection of BMS-470539 into BALB/c mice effectively inhibited LPS-induced TNF-alpha production with an ED50 of approximately 10 μmol/kg and a pharmacodynamic half-life of approximately 8 hours. It also significantly reduced leukocyte infiltration in a lung inflammation model and attenuated paw swelling in a delayed-type hypersensitivity model, highlighting its efficacy as an anti-inflammatory agent through MC-1R modulation .

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