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MPTP mouse Model

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By Targets:	Apoptosis (1) Caspase (1) COX (1) Cyclophilin (1) Endogenous Metabolite (1) Monoamine Oxidase (3) PGE synthase (1) Prostaglandin Receptor (1) Reactive Oxygen Species (1)
By Research Areas:	Cancer (1) Metabolic Disease (1) Neurological Disease (5)

6

Inhibitors & Agonists

1

Natural
Products

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

C105SR	Caspase Apoptosis Cyclophilin	Others
C105SR is a cyclophilin D (CypD) inhibitor targeting to peptidyl-prolylcis-trans isomerase (PPIase). C105SR inhibits mitochondrial permeability transition opening (mPTP) with an IC ₅₀ of 5 nM. C105SR inhibits hypoxia and reoxygenation inudced hepatocyte apoptosis and increases the level of calcium retention capacity (CRC). C105SR exhibits hepaprotective effect in ischaemia-reperfusion injury (IRI) mouse model .

hMAO-B-IN-10	Monoamine Oxidase	Neurological Disease
hMAO-B-IN-10 (compound 7) is an inhibitor of MAO-A/B with IC₅₀ of 424.1 nM and 177.9 nM, respectively. hMAO-B-IN-10 exerts a certain neuroprotective effect in MPTP (HY-15608)-induced mouse PD model. .

Monoamine Oxidase B inhibitor 5	Monoamine Oxidase	Neurological Disease
Monoamine Oxidase B inhibitor 5 (Compound 16d) is a selective and reversible inhibitor for monoamine oxidase B (hMAO-B) with an IC₅₀ of 67.3 nM and a K_i of 82.5 nM. Monoamine Oxidase B inhibitor 5 exhibits good pharmacokinetic characters and weak toxicity in rats model. Monoamine Oxidase B inhibitor 5 alleviates MPTP-induced (HY-15608) motor impairment in Parkinson’s mouse model. Monoamine Oxidase B inhibitor 5 is blood-brain barrier (BBB) penetrate .

MAO-B-IN-6	Monoamine Oxidase	Neurological Disease
MAO-B-IN-6 is a potent, selective and orally active MAO-B inhibitor with an IC₅₀ of 0.019 µM. MAO-B-IN-6 shows more efficacious than Safinamide in vitro and in vivo. MAO-B-IN-6 has the potential for the research of parkinson's disease (PD) .

N1-Acetyl-5-methoxykynuramine hydrochloride AMK hydrochloride	Prostaglandin Receptor PGE synthase COX Reactive Oxygen Species	Neurological Disease Metabolic Disease
N1-Acetyl-5-methoxykynuramine (AMK) hydrochloride is an active metabolite of the neurohormone melatonin (HY-B0075). N1-Acetyl-5-methoxykynuramine hydrochloride (200 µM) effectively scavenges singlet oxygen (ROS).1 It also inhibits the production of prostaglandin E2 (PGE2) and prostaglandin D2 (PGD2) induced by epinephrine and arachidonic acid in a concentration- and time-dependent manner, and suppresses the increase in COX-2 levels induced by LPS (HY-D1056) in RAW 264.7 macrophages at a concentration of 500 µM. In a mouse model of Parkinson's disease induced by MPTP (HY-15608), N1-Acetyl-5-methoxykynuramine hydrochloride (20 mg/kg) reduces the increase in lipid peroxidation in the cytosol and mitochondria of the substantia nigra and striatum. N1-Acetyl-5-methoxykynuramine hydrochloride can be used in research on metabolic and neurological diseases

Docosahexaenoic acid (Standard)	Endogenous Metabolite	Neurological Disease Cancer
Docosahexaenoic acid (Standard) is the analytical standard of Docosahexaenoic acid. This product is intended for research and analytical applications. Docosahexaenoic Acid (DHA) is an omega-3 fatty acid abundantly present brain and retina. It can be obtained directly from fish oil and maternal milk. In Vitro: Docosahexaenoic acid (DHA) is essential for the growth and functional development of the brain in infants. DHA is also required for maintenance of normal brain function in adults. The inclusion of plentiful DHA in the diet improves learning ability and memory . DHA is an essential requirement in every step of brain development like neural cell proliferation, migration, differentiation, synaptogenesis. The multiple double bonds and unique structure allow DHA to impart special membrane characteristics for effective cell signaling. Many development disorders like dyslexia, autism spectrum disorder, attention deficit hyperactivity disorder, schizophrenia etc. are causally related to decreased level of DHA . DHA is a potent RXR ligand inducing robust RXR activation already at low micro molar concentrations. The EC₅₀ for RXRα activation by DHA is about 5-10 μM fatty acid . In Vivo: Docosahexaenoic acid administration over 10 weeks significantly reduces the number of reference memory errors, without affecting the number of working memory errors, and significantly increases the docosahexaenoic acid content and the docosahexaenoic acid/arachidonic acid ratio in both the hippocampus and the cerebral cortex . DHA treatment exerts neuroprotective actions on an experimental mouse model of PD. There is a decrease tendency in brain lipid oxidation of MPTP mice but it does not significantly .

Cat. No.	Product Name	Category	Target	Chemical Structure

Docosahexaenoic acid (Standard)	Structural Classification Human Gut Microbiota Metabolites Microorganisms Ketones, Aldehydes, Acids Source classification Disease markers Endogenous metabolite Cardiovascular System Disorder	Endogenous Metabolite
Docosahexaenoic acid (Standard) is the analytical standard of Docosahexaenoic acid. This product is intended for research and analytical applications. Docosahexaenoic Acid (DHA) is an omega-3 fatty acid abundantly present brain and retina. It can be obtained directly from fish oil and maternal milk. In Vitro: Docosahexaenoic acid (DHA) is essential for the growth and functional development of the brain in infants. DHA is also required for maintenance of normal brain function in adults. The inclusion of plentiful DHA in the diet improves learning ability and memory . DHA is an essential requirement in every step of brain development like neural cell proliferation, migration, differentiation, synaptogenesis. The multiple double bonds and unique structure allow DHA to impart special membrane characteristics for effective cell signaling. Many development disorders like dyslexia, autism spectrum disorder, attention deficit hyperactivity disorder, schizophrenia etc. are causally related to decreased level of DHA . DHA is a potent RXR ligand inducing robust RXR activation already at low micro molar concentrations. The EC₅₀ for RXRα activation by DHA is about 5-10 μM fatty acid . In Vivo: Docosahexaenoic acid administration over 10 weeks significantly reduces the number of reference memory errors, without affecting the number of working memory errors, and significantly increases the docosahexaenoic acid content and the docosahexaenoic acid/arachidonic acid ratio in both the hippocampus and the cerebral cortex . DHA treatment exerts neuroprotective actions on an experimental mouse model of PD. There is a decrease tendency in brain lipid oxidation of MPTP mice but it does not significantly .

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