4720-09-6 Usage
Description
Fructus Rhododendri (ba li ma) is the dried fruit of Rhododendron molle (Bl.)
G. Don (yánɡ zhí zhú), mainly distributed in the Jiangsu, Hubei, and Jiangxi
Provinces of China .“Compendium of Materia Medica” recorded that Rhododendron molle (Bl.)
G. Don (yánɡ zhí zhú) can be used to treat waist pain, arm pain, and poisoning. It is
effective at lowering blood pressure and slowing the heart rate, but a large dosage
can cause death . Rhomotoxin’s formulations include injection and tablet. Side
effects include a burning sensation, numbness, dizziness, dry mouth, nausea, vomiting,
vertigo, chest tightness, slow heartbeat, and low blood pressure. In addition,
pregnant women should use it with caution.
Physical properties
Appearance: white crystalline or powder. Solubility: soluble in water, acetone, and
chloroform, almost insoluble in diethyl ether or petroleum ether. Melting point:
265–268 °C. Specific optical rotation: ?50 to ?60°.
History
Because rhomotoxin can slow down heart rhythm and blood pressure, Deng Dao ji
et al. from the First Affiliated Hospital of Wuhan Medical College researched
Fructus Rhododendri in the early 1970s. They extracted the crystallization from
fruits and obtained preliminary results by animal testing and clinical application .Rhomotoxin is a white needle crystal that is extracted from the dried fruit of
Rhododendron molle (Bl.) G. Don (yánɡ zhí zhú). Its biological activity is closely
related to three-dimensional specificity and hydrophobicity. 5β-hydroxyl, 6β-
hydroxyl, and, especially, the 2,3-epoxy groups can affect its biological activity .Rhomotoxin was acetylated to obtain monoacetate (Japanese Rhododendron II).
The melting points of rhomotoxin and Japanese Rhododendron III are identical
(284–286 °C). IR and Rf of silica gel thin layer chromatography are identical.
Therefore, rhomotoxin is Japanese Rhododendron III .
Definition
ChEBI: A tetracyclic diterpenoid that is grayanotoxane in which the pro-R hydrogen at position 14 is substituted by an acetoxy group and in which the 3beta-, 5-, 6beta-, 10-, and 16- positions are su
stituted by hydroxy groups.
Pharmacology
The pharmacological effects of rhomotoxin are mainly displayed in three aspects:
(1) analgesic effect: the suspension, infusion, and alcohol made of rhomotoxin fruit
have an analgesic effect in mice ; (2) effects on cardiovascular system: the resting
heart rate is a bad prognostic indicator of hypertension and other cardiovascular
diseases. Rhomotoxin can reduce the resting heart rate; (3) kidney protection: rhomotoxin
promotes good blood pressure and a slow heart rate and provides kidney
protection. Its mechanism may be related to a reduction in the content of angiotensin
II (Ang II), increasing endothelial nitric oxide synthase (eNOS) content, and
slowing heart rate .The plasma concentration of mice decreased rapidly over time following intravenous
injection of rhomotoxin; there was no residue after 6 h. Rhomotoxin is rapidly
distributed to various organs through the blood circulation and reaches a peak within
5–15 min. The gallbladder (including bile) contained the highest amount, followed
by the liver and kidneys. It affects, in order, the gallbladder (including bile), liver,
kidney, thyroid, stomach, adrenal gland, heart, lungs, and brain. Rhomotoxin is
excreted mainly by the kidney and digestive tract. More prototype drugs are in the
urine than in the stool. Rhomotoxin has a stimulating effect on the stomach. A certain
amount of rhomotoxin also entered the thyroid and adrenal glands. A very small
amount was found in brain tissue, demonstratinge that rhomotoxin does not easily
pass through the blood-brain barrier. Plasma dialysis showed that the plasma protein
binding rate of rhomotoxin can reach as high as 60% in 30 min .
Clinical Use
Rhomotoxin acts as an antihypertensive drug, and it is able to lower the blood pressure
in patients with severe hypertension. Its pharmacological effects are related to
parasympathetic function. Large-dosage-induced low blood pressure can be restored
with ephedrine. Its antihypertensive effect lasts for 0.5–1 h. If blood pressure has
not dropped to a satisfactory level, rhomotoxin must not have been added because
an excessive drop in blood pressure would lead to shock. Oral administration with
aluminum hydroxide can reduce rhomotoxin-induced stomach discomfort.
Intramuscular injection can also cause local pain. In addition, procaine reduces its
antihypertensive effect. Secondary hypertension and malignant hypertension
patients should use it with caution, critical and dying patients should be disabled
(including, for example, severe heart failure, cardiomyopathy, atrioventricular
block, and severe ventricular arrhythmias).
Safety Profile
Poison by subcutaneous,parenteral, intravenous and intraperitoneal routes. Whenheated to decomposition it emits acrid smoke and fumes.
Check Digit Verification of cas no
The CAS Registry Mumber 4720-09-6 includes 7 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 4 digits, 4,7,2 and 0 respectively; the second part has 2 digits, 0 and 9 respectively.
Calculate Digit Verification of CAS Registry Number 4720-09:
(6*4)+(5*7)+(4*2)+(3*0)+(2*0)+(1*9)=76
76 % 10 = 6
So 4720-09-6 is a valid CAS Registry Number.
InChI:InChI=1/C22H36O7/c1-11(23)29-17-12-6-7-13-20(5,27)14-8-15(24)18(2,3)22(14,28)16(25)9-21(13,17)10-19(12,4)26/h12-17,24-28H,6-10H2,1-5H3/t12?,13-,14-,15-,16+,17+,19+,20+,21?,22-/m0/s1
4720-09-6Relevant articles and documents
Studies on the Constituents of the Leaves of Pieris japonica D. Don
Katai, Masaaki,Fujiwara, Masayoshi,Terai, Tadamasa,Meguri, Haruo
, p. 3124 - 3126 (2007/10/02)
Four new diterpenoids, pieristoxins H(I), I(II), J(III) and K(IV), were isolated from the leaves of Pieris japonica D.Don, together with the known diterpenoids, asebotoxin IV(XI) and VII(XII).The chemical structures of I and II were established to be 7-O-hydroxy and 14-O-lactoyl grayanotoxin III, respectively.III and IV were shown to be esters of pieristoxin G(VI), one of the most highly oxygenated grayanoids.Keywords---Pieris japonica; Ericaceae; asebi; diterpenoids; pieristoxin H; pieristoxin I; pieristoxin J; pieristoxin K; grayanoid; toxin
