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Results for "

brain atrophy

" in MedChemExpress (MCE) Product Catalog:

9

Inhibitors & Agonists

1

Fluorescent Dye

3

Oligonucleotides

Cat. No. Product Name Target Research Areas Chemical Structure
  • HY-132579A
    Tominersen sodium

    RG6042 sodium; IONIS-HTTRx sodium

    		 Huntingtin Neurological Disease
    Tominersen sodium is a second-generation 2′-O-(2-methoxyethyl) antisense oligonucleotide that targets huntingtin protein (HTT) mRNA and potently suppresses HTT production. Tominersen improves survival and reduces brain atrophy in mice. Tominersen sodium can be used for the research of Huntington’s disease (HD) .
    Tominersen sodium
  • HY-124713
    ML372

    		DNA/RNA Synthesis Neurological Disease
    ML372 inhibits survival motor neuron (SMN) protein ubiquitination, increases SMN protein stability without affecting mRNA expression. ML372 improves spinal muscular atrophy (SMA) in mice. ML372 is brain penetrant and has a reasonable exposure and half-life in vivo .
    ML372
  • HY-150236
    FITC-labeled Tominersen sodium

    		Huntingtin Neurological Disease
    FITC-labeled Tominersen (sodium) is the Tominersen labeled with FITC. Tominersen (RG6042) is a second-generation 2′-O-(2-methoxyethyl) antisense oligonucleotide that targets huntingtin protein (HTT) mRNA and potently suppresses HTT production. Tominersen improves survival and reduces brain atrophy in mice. Tominersen can be used for the research of Huntington’s disease (HD).
    FITC-labeled Tominersen sodium
  • HY-111520
    NVS-SM2

    		DNA/RNA Synthesis Neurological Disease
    NVS-SM2 is a potent, orally active and brain-penetrant SMN2 splicing enhancer with an EC50 of 2 nM for SMN. NVS-SM2 enhances U1-pre-mRNA association. NVS-SM2 promotes exon 7 inclusion and restores normal survival motor neuron (SMN) protein expression. NVS-SM2 can be used for spinal muscular atrophy (SMA) research .
    NVS-SM2
  • HY-132579
    Tominersen

    RG6042; IONIS-HTTRx

    		 Huntingtin Neurological Disease
    Tominersen (RG6042) is a second-generation 2′-O-(2-methoxyethyl) antisense oligonucleotide that targets huntingtin protein (HTT) mRNA and potently suppresses HTT production. Tominersen improves survival and reduces brain atrophy in mice. Tominersen can be used for the research of Huntington’s disease (HD) .
    Tominersen
  • HY-151547
    MRS4719

    		P2X Receptor Neurological Disease
    MRS4719 is a potent P2X4 receptor antagonist with an IC50 value of 0.503 μM for human P2X4 receptor. MRS4719 can reduce infarct volume and reduce brain atrophy, showing neuroprotective and neuro-rehabilitative activities in ischemic stroke model. MRS4719 also reduces ATP-induced [Ca 2+]i influx in primary human monocyte-derived macrophages. MRS4719 can be used to research ischemic stroke .
    MRS4719
  • HY-123439
    FTY720-C2

    		Others Neurological Disease
    FTY720-C2 is a derivative of FTY72 (HY-12005). FTY720-C2 promotes the expression of brain-derived neurotrophic factor (BDNF) and glial cell-derived neurotrophic factor (GDNF) in multiple system atrophy (MSA) models, without causing immunosuppression. FTY720-C2 improves motor dysfunction and reduces the levels of insoluble alpha-synuclein (αSyn) in MSA mouse models. FTY720-C2 is blood-brain barrier penetrate .
    FTY720-C2
  • HY-151546
    MRS4596

    		P2X Receptor Neurological Disease
    MRS4596 is a potent and selective P2X4 receptor antagonist with an IC50 value of 1.38 μM for human P2X4 receptor. MRS4596 has neuroprotective and neuro-rehabilitative activities in ischemic stroke model. MRS4596 can be used in research of ischemic stroke .
    MRS4596
  • HY-104044A
    Pamiparib maleate

    BGB-290 maleate

    		 Apoptosis Neurological Disease
    Pamiparib maleate (BGB-290 maleate) is a highly potent and selective PARP inhibitor with neurotoxicity-inducing activity. Pamiparib maleate can effectively penetrate the blood-brain barrier and cause cerebral hemorrhage, brain atrophy, and movement disorders in zebrafish embryos exposed. Pamiparib maleate exposure downregulates the activities of acetylcholinesterase (AChE) and adenosine triphosphatase (ATPase) and leads to upregulation of oxidative stress, which triggers apoptosis and interferes with the expression of neurodevelopment-related genes. The use of pamiparib maleate is also accompanied by downregulation of the Notch signaling pathway, while activation of the Notch signaling pathway can partially rescue neurodevelopmental toxicity. Therefore, pamiparib maleate provides a reference for evaluating its potential neurotoxicity during embryonic development .
    Pamiparib maleate

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