Identification | More | [Name]
Baicalin | [CAS]
21967-41-9 | [Synonyms]
BAICALEIN 7-BETA-D-GLUCOPYRANOSIDURONATE HYDRATE BAICALIN 7-BETA-D-GLUCOPYRANOSIDURONATE HYDRATE BAICALIN HYDRATE Baicalin Injection BAICALIN, 98+% BY HPLC Bassora Radix Baicailin ASTRAGALIN(KAEMPFEROL-3-O-GLUCOSIDE)(P) BAICALIN(P) 7-GLUCURONICACID-5,6-DIHYDROXYFLAVONE BAICALIN WITH HPLC BAICALIN hplc 5,6-Dihydroxy-4-oxygen-2-phenyl-4H-1-benzopyran-7-beta-D-glucopyranose acid Baicalein 7-O-glucuronide Baicalin BAICALINB-D-GLUCOPYRANOSIDURONIC ACID, 5,6-DIHYDROXY-4-OXO-2-PHENYL-4H-1-BENZOPYRAN-7-YL, BAICALIN 7-B-D-GLUCOPYRANOSIDURONATE HYDRATE 5,6-Dihydroxy-7-(β-D-glucopyranuronosyloxy)flavone 5,6-Dihydroxyflavon-7-yl β-D-glucopyranosiduronic acid | [EINECS(EC#)]
606-866-1 | [Molecular Formula]
C21H18O11 | [MDL Number]
MFCD00149302 | [Molecular Weight]
446.36 | [MOL File]
21967-41-9.mol |
Chemical Properties | Back Directory | [Melting point ]
202-205 °C (dec.) (lit.) | [alpha ]
-85 º (c=1, DMSO) | [Boiling point ]
836.6±65.0 °C(Predicted) | [density ]
1.737±0.06 g/cm3(Predicted) | [storage temp. ]
2-8°C | [solubility ]
DMSO (Slightly), Methanol (Slightly) | [form ]
solid
| [pka]
2.72±0.70(Predicted) | [color ]
Pale Yellow to Yellow | [optical activity]
[α]20/D 85°, c = 1 in DMSO | [Stability:]
Hygroscopic | [InChIKey]
IKIIZLYTISPENI-ZFORQUDYSA-N | [LogP]
1.431 (est) | [CAS DataBase Reference]
21967-41-9(CAS DataBase Reference) |
Safety Data | Back Directory | [Hazard Codes ]
Xi | [Risk Statements ]
R36/37/38:Irritating to eyes, respiratory system and skin . | [Safety Statements ]
S26:In case of contact with eyes, rinse immediately with plenty of water and seek medical advice . S36:Wear suitable protective clothing . | [WGK Germany ]
3
| [RTECS ]
LZ5776910 | [HS Code ]
29329900 |
Questions And Answer | Back Directory | [Description]
Baicalin, the active compound of the Blue Skullcap, is a type of flavonoid.
Baicalin exhibits anti-inflammatory, anti-tumor, anti-angiogenic, anti-oxidant, anti-apoptotic, anti-viral, and antibacterial properties. It could be used for the treatment of autoimmune diseases and several cancers (hepatitis B virus (HBV)-infected liver cancer, hepatic cancer, cervical cancer, etc.). It can be used to treat against dengue virus. It is used in preparation of the drug for treating and rescuing ricin poisoning. Due to its anti-apoptotic effect which can protect PC-12 cells from oxidative stress, baicalin can be used for reducing stress and helping to promote healthy sleep cycles.
| [References]
[1] Ehsan Moghaddam, Boon-Teong Teoh, Sing-Sin Sam, Rafidah Lani, Pouya Hassandarvish, Zamri Chik, Andrew Yueh, Sazaly Abubakar, Keivan Zandi (2014) Baicalin, a metabolite of baicalein with antiviral activity against dengue virus, Scientific Reports, 4, 5452
[2] Yuan Zhang, Xing Li, Bogoljub Ciric, Cun-Gen Ma, Bruno Gran, Abdolmohamad Rostami, Guang-Xian Zhang (2015) Therapeutic effect of baicalin on experimental autoimmune encephalomyelitis is mediated by SOCS3 regulatory pathway, Scientific Reports, 5, 17407
[3] Patent US 20160361334 A1: Application of baicalin in preparation of drug for treating ricin poisoning
|
Hazard Information | Back Directory | [Chemical Properties]
Light yellow powder | [Physical properties]
Appearance: light yellow crystalline powder at room temperature. Solubility: insoluble in methanol, ethanol, and acetone; slightly soluble in chloroform and nitrobenzene; almost insoluble in water; soluble in hot acetic acid. Melting point:
202–205?°C. | [History]
The chemical research of the genus Scutellaria began in 1889. Baicalein (scutellarein) is the first flavonoid isolated from Vietnam radix scutellariae (S. altissima) in
1910. In 1922, Shibata Gui Tai and his collaborators isolated and obtained baicalin,
baicalein, wogonin, and benzoic acid from Scutellaria baicalensis. Among the flavonoids in Scutellaria baicalensis, the content of baicalein is the
highest. Its official name is baikeli. Baicalin is formed by the combination of baicalein and one molecule of glucuronic acid. Both baicalein and baicalin exist in
Scutellaria baicalensis. Studies showed that baicalein could be transferred into
baicalin and other metabolites in the blood. However, baicalin by oral is hardly
absorbed. Baicalein can be absorbed and also rapidly converted into baicalin. At present, there are a variety of mature extraction methods for obtaining baicalin
and baicalein from Scutellaria baicalensis. Due to the poor water solubility, oral
preparation of baicalin is mostly used in clinical practice. Research showed that
baicalin had a significant first pass effect, which led to its low bioavailability.
Baicalin-metal complexes formed by the combination of baicalin and metal ions
were found to enhance bioavailability and increase pharmacological activities.
In addition, the preparation of ester-type prednisone was easily hydrolyzed by esterase and could improve the lipid solubility of baicalin. | [Uses]
diuretic, prolyl endopeptidase inhibitor, antineoplastic | [Definition]
ChEBI: The glycosyloxyflavone which is the 7-O-glucuronide of baicalein. | [Indications]
Baicalin is mainly used for the adjuvant therapy of acute and chronic hepatitis and
persistent hepatitis. | [General Description]
Baicalin is a key flavonoid found in the roots of Scutellaria baicalensis. It is known to have different biological activities, such as anti-oxidative, anti-inflammatory, antitumor and anti-apoptotic activities. | [Pharmacology]
Pharmacological studies showed that both baicalein and baicalin had a variety of
pharmacological effects such as antibacterial, antiviral, removal of oxygen free
radicals, antioxidant, antipyretic, analgesic, anti-inflammatory, antitumor, cardiovascular protecting, cerebrovascular and neuron protecting, liver protecting, and
prevention or treatment of diabetes and its complications 1. Antibacterial and antiviral effects: Scutellaria baicalensis was reported to have
growth inhibitory effect on a variety of Gram-negative bacteria, Gram-positive
bacteria, and spirochetes, showing a broad antibacterial spectrum. Baicalein was
regarded as the main ingredient in Scutellaria baicalensis to play the antibacterial effect. The IC50 of baicalein on Escherichia coli was about 0.29?mmol·L?1
,
and the minimum inhibitory concentration (MICs) of Candida albicans was
264?μg·mL?1
. The survival time of mice infected with influenza virus was significantly extended by the gastric irrigation of baicalin at a dose of
0.96–1.5?g·kg?1. 2. Antitumor effect: In vitro and in vivo experimental results showed that both
baicalein and baicalin had obvious antitumor activity, and the mechanism
involved the inhibition of tumor cell proliferation, invasion and metastasis,
induction of tumor cell apoptosis, suppression of neovascularization, and
enhanced tumor cell chemotherapy sensitivity. Baicalein was found to inhibit theproliferation of rat bladder cancer MBT-2 cells and induce apoptosis, and its IC50
was 0.43?μmol·L?1
. In bladder cancer model formed by injection of MBT-2 cells
into C3H/HeN nude mice, the formed tumor in mouse given baicalein 0.05–
0.1?mg·day?1
for ten consecutive days was significantly smaller than that of the
control group. A 50–200?μmol·L?1
baicalein could inhibit the proliferation of
human prostate cancer DU2145 and PC3 cells, human umbilical vein endothelial
cell proliferation, and the formation of buds and vascular structure in a dosedependent manner. Baicalein could also inhibit human breast cancer cell MDAMB-231 adhesion, metastasis, and invasion, in a dose-dependent manner in the
range of 2–50?μmol·L?1
. Moreover, a dose of 100?μg·mL?1
could also reverse the
resistance of ovarian cancer cell line A2780/ADM.?This reversal may be associated with a decrease in P-gp drug efflux and increased intracellular drug
concentration 3. Antipyretic, analgesic, and anti-inflammatory effects: Both baicalein and baicalin
can play antipyretic, analgesic, and anti-inflammatory effects by interfering with
the arachidonic acid metabolism pathway, inhibiting the activity of nuclear factor, and suppressing the secretion and release. In rats, intraperitoneal injection of
baicalin at a dose of 4.5?mg·kg?1
could exert antipyretic effect; the body temperature of the endotoxin-induced fever rabbits was heavily reduced after intravenous administration of baicalin at a dose of 20?mg·kg?1
; baicalein at a dose of
20?mg·kg?1
(iv) could improve the hemodynamics and heart rate and reduce the
mortality and the leukocyte infiltration into the liver and lung tissues in endotoxic shock rats (LPS 10?mg·kg?1
, iv). 4. Scavenging oxygen free radicals and antioxidant effects: Both baicalein and
baicalin were found to have strong scavenging effects on hydroxyl radicals,
superoxide anion (O2?), alkane peroxy radicals, and DPPH free radicals. A
25–100?μmol·L?1
baicalein can inhibit H2O2-induced RAW264.7 cell apoptosis
and diploid formation. 5. Liver protection: Both baicalein and baicalin were found to have protective effect
on the liver injured by a variety of causes, and the mechanism was related to their
function of antioxidant and inhibition of the secretion of inflammatory mediators. It was found that intraperitoneal injection of baicalin at a dose of
50–200?mg·kg?1
had protective effect on CCl4-induced acute liver injury mice.
Intraperitoneal injection of baicalin at a dose of 70?mg·kg?1
could improve CCl4-
induced chronic liver fibrosis in mice. In addition, gavage of baicalin to mice at
a dose of 50–150?mg·kg?1
significantly reduced the immune liver injury caused
by D-GalN and LPS. 6. Treatment or prevention of diabetes and its complications: Baicalein was found
to have effects of protecting the islet tissue and improving kidney function and
retinopathy in diabetic rats, and the mechanism might ascribe to its function on
reducing the inflammatory response and inhibition of oxidative stress injury.
Streptozotocin-induced diabetic rats were found to have decreased blood glucose concentration and the improvement of islet tissue damage after gavage of
baicalin at a dose of 25–100? mg·kg?1
. After gavage of baicalin at a dose of
80–120?mg·kg?1
for 12?weeks, an obvious protective effect on the kidney tissueof diabetic rats was observed. In addition, the administration of baicalein at a
dose of 150?mg·kg?1
day?1
was found to ameliorate diabetic retinopathy. 7. Cardiovascular and cerebrovascular protective effects: In vitro experiment results
showed that Scutellaria baicalensis had cardiovascular protective effects such as
dilating blood vessels, counteracting high blood pressure, protecting heart and
endothelial cells, and anti-atherosclerosis. Baicalein did not affect normal blood
pressure in rats but could reduce blood pressure in hypertensive rats. Baicalin at
concentration of 0.5 and 2?μmol·L?1
was found to decrease the contractile tension of isolated rat aorta induced by norepinephrine, KCl, and CaCl2, shifting the
reaction curve from the left to the right side and reducing the maximal effect. It
could also significantly inhibit the norepinephrine-dependent contraction
induced by intracellular and outside Ca2+. Baicalein had protective effect on
myocardial ischemia and reperfusion injury, and this effect was stronger than
baicalin. Intravenous injection of baicalein at a dose of 10?mg·kg?1
could improve
the contraction of myocardium in endotoxic shock rats. 8. Neuroprotective effect: Baicalein had a good neuroprotective effect. It could
suppress nerve injury and apoptosis by inhibiting the inflammatory response
induced by glial cell, anti-free radicals, and protection of mitochondria.
Administration of baicalein at a dose of 200?mg·kg?1
could relieve 6-OHDAinduced muscle tremor injury in rats. Gavage of baicalein at a dose of 200?mg·kg?1
could improve the recovery of motor function in Parkinson model mice induced
by 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP). Intraperitoneal injection of baicalein at a dose of 30?mg·kg?1
reduced the neurological deficit score of
MCAO model rats, decreasing brain water content and cerebral infarction volume, which indicated that baicalein had a protective effect on the neurological
function of rats with focal cerebral ischemia. 9. Other effects: Baicalein and baicalin were also reported to have other pharmacological effects such as enhancing immune function. | [Clinical Use]
In clinical, baicalin is mainly used as the adjuvant therapy for acute and chronic
hepatitis and persistent hepatitis. Baicalin was shown to reduce the expression of
hepatitis B surface antigen, e antigen and the core antigen, and inhibited hepatitis B
virus DNA replication. Reduced serum alanine aminotransferase level was observed
in hepatitis patient treated with baicalin, and other liver function indexes were also
found to be improved. No adverse reactions about baicalin have been reported. In
addition, baicalin was reported to treat early diabetic nephropathy and alleviate the
symptoms of diabetic neuropathy As one of the antimicrobial components of Scutellaria baicalensis, eye drops
containing 3% baicalin are used clinically in the treatment of trachoma, with the
similar curative effect as rifampicin. Moreover, baicalein is used clinically for the treatment of enteritis and
dysentery. | [Enzyme inhibitor]
This baicalein glucuronide (FW = 446.36 g/mol; CAS 21967-41-9), also known as 5,6-dihydroxy-4-oxygen-2-phenyl-4H-1-benzopyran-7-b-D glucopyranose acid, is a flavone prodrug found in the Chinese medicinal herb Huang-chin (Scutellaria baicalensis) that is hydrolyzed to baicalein (See Baicalein). Baicalin is a slow, tight-binding inhibitor of Jack Bean urease, rapidly forming initial BA-urease complex (Ki = 3.9 × 10–3 M) that slowly isomerizes to the final complex (overall inhibition constant of Ki* = 0.15 × 10 μM. Inhibition can be reversed by dithiothreitol but not dilution of substrate. Baicalin also inhibits prolyl oligopeptidase, a cytosolic serine peptidase that hydrolyzes proline-containing peptides at the carboxy terminus of proline residues and is associated with schizophrenia, bipolar affective disorder, and related neuropsychiatric disorders. (See Pramiracetam) | [storage]
Store at -20°C |
|
|