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Results for "

mechanical hypersensitivity

" in MedChemExpress (MCE) Product Catalog:

16

Inhibitors & Agonists

2

Peptides

1

Inhibitory Antibodies

1

Natural
Products

Cat. No. Product Name Target Research Areas Chemical Structure
  • HY-149854B
    AB21 hydrochloride

    		Sigma Receptor Neurological Disease
    AB21 hydrochloride is a potent and selective S1R antagonist with Kis of 13, 102 nM for S1R and S2R. AB21 hydrochloride has the effect of reducing mechanical hypersensitivity .
    AB21 hydrochloride
  • HY-10035
    TTA-P2
    3 Publications Verification

    T-Type calcium channel inhibitor

    		 Calcium Channel Neurological Disease
    TTA-P2 (T-Type calcium channel inhibitor) is a selective, orally active, and BBB-penetrant T-type calcium channel blocker (IC50 = 22 nM). TTA-P2 reduces mechanical hypersensitivity and alleviates acute as well as chronic pain. TTA-P2 significantly reduces firing rates in temporal lobe epilepsy (TLE) neurons to control levels and suppresses synaptically evoked burst firing. TTA-P2 can be studied in research for neurological diseases such as tremor and absence epilepsy < sup>[4] .
    TTA-P2
  • HY-106841
    Draflazine

    R-75231; R88021

    		 Adenosine Receptor Nucleoside Transporters Inflammation/Immunology
    Draflazine (R-75231) is a ENT1 inhibitor. Draflazine (R-75231) completely reverses the hypersensitivity in the complete Freund’s adjuvant (CFA) model of mechanical hyperalgesia and the carrageenan inflammation model of thermal and mechanical hyperalgesia .
    Draflazine
  • HY-131182
    DS-1971a

    		Sodium Channel Neurological Disease
    DS-1971a is a potent, selective, and orally active NaV1.7 inhibitor, with IC50s of 22.8 and 59.4 nM for hNaV1.7 and mNaV1.7, respectively. DS-1971a exerts analgesic effects .
    DS-1971a
  • HY-117731
    UKH-1114

    		Sigma Receptor Neurological Disease
    UKH-1114 is a potent σ2 receptor/Tmem97 agonist with a Ki value of 46 nM, showing antimechanical hypersensitivity effects. UKH-1114 alleviates mechanical hypersensitivity caused by nerve injury without any movement disorders in mice. UKH-1114 is promising for research of neuropathic pain .
    UKH-1114
  • HY-149854
    AB21

    		Sigma Receptor Neurological Disease
    AB21 is a potent and selective S1R antagonist with Kis of 13, 102 nM for S1R and S2R. AB21 has the effect of reducing mechanical hypersensitivity .
    AB21
  • HY-149854A
    AB21 oxalate

    		Sigma Receptor Neurological Disease
    AB21 oxalate is a potent and selective S1R antagonist with Kis of 13, 102 nM for S1R and S2R. AB21 oxalate has the effect of reducing mechanical hypersensitivity .
    AB21 oxalate
  • HY-149863
    DDO-8926

    		Epigenetic Reader Domain Neurological Disease
    DDO-8926 is a potent and selective BET inhibitor that can significantly reduce mechanical hypersensitivity by inhibiting the expression of pro-inflammatory cytokines and reducing excitability for neuropathic pain research .
    DDO-8926
  • HY-119519
    OB-2

    		SPFH Protein Superfamily Neurological Disease
    OB-2 is a STOML3 oligomerization blocker. OB-2 reverses pathological mechanical hypersensitivity. OB-2 can be used for research of painful diabetic neuropathy in mice .
    OB-2
  • HY-P991321
    ABT-110

    		Trk Receptor Inflammation/Immunology
    ABT-110 is a human monoclonal antibody (mAb) targeting NGF/bNGF. ABT-110 reduces established thermal and mechanical hypersensitivity in the CFA rat model. ABT-110 can be used in persistent/chronic inflammatory pain research .
    ABT-110
  • HY-148925
    α-Amyrenone

    		Glycosidase Inflammation/Immunology
    α-Amyrenone is a triterpenoid that occurs naturally in very low concentrations in several oleoresins from Brazilian Amazon species of Protium (Burseraceae). The mixture of α and β-amyrenone inhibits α-glucosidase, and can reduce mechanical hypersensitivity and paw-oedema induced by carrageenan .
    α-Amyrenone
  • HY-P5914
    Wasabi Receptor Toxin

    WaTx

    		 TRP Channel Neurological Disease
    Wasabi Receptor Toxin is a cell-penetrating scorpion toxin. Wasabi Receptor Toxin is the activator for TRPA1 ion channel with EC50 in nanomolar level, and prolongs the channel open time, but reduces Ca 2+ permeability. Wasabi Receptor Toxin causes thermal hypersensitivity and mechanical allodynia in rats, without triggering neurogenic inflammation .
    Wasabi Receptor Toxin
  • HY-P5914A
    Wasabi Receptor Toxin TFA

    WaTx TFA

    		 TRP Channel Neurological Disease
    Wasabi Receptor Toxin TFA (WaTx TFA) is the TFA salt form of Wasabi Receptor Toxin (HY-P5914). Wasabi Receptor Toxin TFA is a cell-penetrating scorpion toxin. Wasabi Receptor Toxin TFA is the activator for TRPA1 ion channel with EC50 in nanomolar level, and prolongs the channel open time, but reduces Ca 2+ permeability. Wasabi Receptor Toxin TFA causes thermal hypersensitivity and mechanical allodynia in rats, without triggering neurogenic inflammation .
    Wasabi Receptor Toxin TFA
  • HY-110143
    CLP257

    		Potassium Channel Neurological Disease
    CLP257 is a selective K +-Cl cotransporter KCC2 activator with an EC50 of 616 nM. CLP257 is inactive against NKCC1, GABAA receptors, KCC1, KCC3 or KCC4. CLP257 restores impaired Cl transport in neurons with diminished KCC2 activity. CLP257 alleviates hypersensitivity in rats with neuropathic pain. CLP257 modulates plasmalemmal KCC2 protein turnover post-translationally .
    CLP257
  • HY-18099
    S1RA
    2 Publications Verification

    E-52862

    		 Sigma Receptor 5-HT Receptor Neurological Disease
    S1RA (E-52862) is a highly selective σ1 receptor (σ1R) antagonist with Kis of 17 nM and 23.5 nM for human σ1R and guinea pig σ1R, respectively. S1RA has Moderate antagonistic activity for human 5-HT2B receptor (Ki= 328 nM). S1RA has antinociceptive effects in neuropathic pain models. S1RA prevents mechanical and cold hypersensitivity in Oxaliplatin (HY-17371)-treated mice .
    S1RA
  • HY-168166
    CHET3

    		Endogenous Metabolite Neurological Disease
    CHET3 is a sex-selective activator with potent analgesic activity. CHET3 was discovered to be a highly selective omnidirectional modulator of TASK-3-containing K2P channels, including TASK-3 homologues and TASK-3/TASK-1 heterologues. CHET3 exhibited significant analgesic effects in multiple acute and chronic pain models in mice, which could be abolished by pharmacological means or genetic knockout of TASK-3. CHET3 is able to functionally modulate the membrane excitability of specific small sensory neurons, which supports its analgesic effects on thermal hypersensitivity and mechanical hyperalgesia in chronic pain .
    CHET3

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