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α-glycosidase

" in MedChemExpress (MCE) Product Catalog:

By Targets:	Akt (1) Aldose Reductase (1) Amylases (2) Amyloid-β (1) Apoptosis (1) Autophagy (1) Beclin1 (1) Carbonic Anhydrase (4) Cholinesterase (ChE) (4) COX (1) DNA Alkylator/Crosslinker (1) FAK (1) GLUT (1) Glycosidase (8) Interleukin Related (1) JNK (1) Keap1-Nrf2 (1) mTOR (1) p38 MAPK (2) Phosphatase (1) Tau Protein (1) TNF Receptor (1)
By Research Areas:	Cancer (1) Inflammation/Immunology (3) Metabolic Disease (9) Neurological Disease (4)

12

Inhibitors & Agonists

6

Natural
Products

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

Pongamol Lanceolatin C	Glycosidase Phosphatase Interleukin Related TNF Receptor COX Beclin1 GLUT FAK Akt mTOR p38 MAPK Keap1-Nrf2 Apoptosis Amyloid-β Tau Protein Autophagy	Neurological Disease Inflammation/Immunology Cancer
Pongamol (Lanceolatin C) is an orally active flavonoid with an IC₅₀ of 75 μM and a K_i of 58 μM against PTPase-1B, and an IC₅₀ of 103.5 μM against intestinal *α-Glycosidase. Pongamol reduces the release of IL‑1β, TNF‑α, COX‑2* and iNOS in cells, reverses the nuclear translocation of NF‑κB, and upregulates the levels of Beclin 1 and LC3 Ⅱ/LC3 Ⅰ. Pongamol promotes glucose uptake by increasing the level of GLUT4 on the surface of skeletal muscle cells. Pongamol inhibits epithelial-mesenchymal transition by suppressing the FAK/Akt-mTOR signaling pathway. Pongamol inhibits neuronal cytotoxicity, suppresses cell apoptosis and extends the lifespan of Caenorhabditis elegans by activating the MAPKs/Nrf2 signaling pathway. Pongamol exerts hypoglycemic effects in diabetic mouse models. Pongamol exhibits antibacterial activity. Pongamol alleviates oxidative stress, neuroinflammation, Aβ deposition and excessive phosphorylation of Tau Protein, and restores autophagy function in Alzheimer's disease mouse models by inhibiting the Akt/mTOR signaling pathway. Pongamol is applicable to research related to Alzheimer's disease, type 2 diabetes, non-small cell lung cancer and postprandial hyperglycemia .

α-Glycosidase-IN-1	Carbonic Anhydrase Cholinesterase (ChE)	Neurological Disease Metabolic Disease
α-Glycosidase-IN-1 (compound MZ7) is a potent α-GLY (α-Glycosidase) inhibitor, with an IC₅₀ of 44.72 nM and a K_I of 41.74 nM. α-Glycosidase-IN-1 also shows inhibition profile against human carbonic anhydrase isoenzymes I and II (hCA I and hCA II), and acetylcholinesterase (AChE), with IC₅₀ values of 104.87, 100.04, and 654.87 nM, respectively. α-Glycosidase-IN-1 can be used for the research of many diseases such as diabetes, Alzheimer’s disease, heart failure, ulcer, and epilepsy .

α-Glycosidase-IN-2	Carbonic Anhydrase	Metabolic Disease
α-Glycosidase-IN-2 (compound 8b) is a *α-Glycosidase* inhibitor with the K_i values of 74.16 nM and 6.09 nM for aldose reductase and α-glycosidase,respectively. α-Glycosidase-IN-2 can be used for study of diabetes mellitus .

Inulobiose	Glycosidase Amylases	Metabolic Disease
Inulobiose is a difructan disaccharide that can be isolated from Pistacia vera L.. Inulobiose inhibits *α-glycosidase* and α-amylase activities with IC₅₀s of 1.87 and 40.72 mg/mL, respectively. Inulobiose can be used for the research of diabetes and glomerular filtration rate testing .

Terrestrimine	Glycosidase	Metabolic Disease
Terrestrimine is a potent inhibitor of *α-Glycosidase, with the IC₅₀* of 225.83 μM. Terrestrimine plays an important role in metabolic disease research .

hCAI/II-IN-5	Carbonic Anhydrase Cholinesterase (ChE)	Neurological Disease Metabolic Disease
hCAI/II-IN-5 (compound MZ8) is a potent hCA I and hCA II (human carbonic anhydrase isoenzymes I and II) inhibitor, with IC₅₀ values of 37.88 and 45.23 nM, respectively. hCAI/II-IN-5 also shows inhibition profile against *α-Glycosidase* and AChE, with IC₅₀ values of 48.98 and 420.14 nM, respectively. hCAI/II-IN-5 can be used for the research of many diseases such as diabetes, Alzheimer’s disease, heart failure, ulcer, and epilepsy .

erythro-Guaiacylglycerol β-coniferyl ether	Glycosidase	Others
Erythro-Guaiacylglycerol beta-coniferyl ether (compound 22) can be isolated from the stems and leaves of mung beans. Erythro-Guaiacylglycerol beta-coniferyl ether inhibits *α-Glycosidase* activity with EC₅₀ value of 18.71 μM .

Scleropentaside D	Others	Others
Scleropentaside D is a potent *α-glycosidase* inhibitor. Scleropentaside D has antioxidant activity .

α-Amylase/α-Glucosidase-IN-20	Amylases Glycosidase	Metabolic Disease
α-Amylase/α-Glucosidase-IN-20 (Compound 6b) is a dual inhibitor of α-Amylase and α-Glucosidase with IC₅₀s of 414.57 and 924.15 μM for α-Amylase and α-Glucosidase, respectively. α-Amylase/α-Glucosidase-IN-20 shows a potent anti-diabetic activity, promising for diabetes research .

Luteolin 5,3'-dimethyl ether	Cholinesterase (ChE) Glycosidase	Neurological Disease Metabolic Disease
Luteolin 5,3'-dimethyl ether is a flavonoid compound that exhibits strong binding to enzymes such as acetylcholinesterase (AChE), butyrylcholinesterase (BChE), and *α-Glycosidase. Luteolin 5,3'-dimethyl ether can be naturally extracted from the dried roots of Alhagi maurorum* (camel thorn). The methanol extract of this plant has significant free radical scavenging ability and enzyme inhibitory potential. Luteolin 5,3'-dimethyl ether can be used in research related to neurodegenerative diseases, diabetes, and skin pigmentation-related diseases .

ALR2/α-GLY-IN-1	DNA Alkylator/Crosslinker Aldose Reductase Glycosidase	Metabolic Disease Inflammation/Immunology
ALR2/α-GLY-IN-1 is a potent dual-target inhibitor that targets aldose reductase ALR2 and α-glucosidase (IC₅₀ values are 0.72 μM and 0.82 μM, respectively; K_i values are 1.67 μM and 1.37 μM, respectively). ALR2/α-GLY-IN-1 also acts as a DNA binder, which stably interacts with calf thymus double-stranded DNA through non-covalent interactions such as groove-binding mode and water-bridged hydrogen bonds. ALR2/α-GLY-IN-1 can be used in studies related to diabetes and its complications .

Vescalagin	Cholinesterase (ChE) Carbonic Anhydrase Glycosidase JNK p38 MAPK	Metabolic Disease Inflammation/Immunology
Vescalagin is a hexahydroxyphenol. Vescalagin is isolable from Camu-camu (Myrciaria dubia) and immature wax apple fruits. Vescalagin exhibits inhibitory activity against a variety of enzymes, with a K_i value of 5.87 nM against AChE, 3.89 nM against BChE, 11.75 nM against hCA I, 16.23 nM against hCA II, and 16.08 nM against α-glucosidase. Vescalagin inhibits hCA I, hCA II and α-glucosidase in a non-competitive manner. Vescalagin downregulates JNK/p38 MAPK to protect pancreatic β-cells and improve insulin secretion in methylglyoxal-treated rats. Vescalagin reduces hyperglycemia and hypertriglyceridemia in rats fed a high-fructose diet. Vescalagin possesses anti-inflammatory and antioxidant properties .

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