29388-59-8

Basic information

• Product Name: SECOISOLARICIRESINOL
• Synonyms: 4,4',9,9'-TETRHYDROXY-3,3'-DIMETHOXYLIGNAN;(2R,3R)-2,3-BIS(4-HYDROXY-3-METHOXYBENZYL)-1,4-BUTANEDIOL;SECO-ISOLARICIRESINOL (SECO);(-)-SECO-ISOLARICIRESINOL;(+/-)-SECOISOLARICIRESINOL;SECOISOLARICIRESINOL;[R-(R*,R*)]-2,3-bis[(4-hydroxy-3-methoxyphenyl)methyl]butane-1,4-diol;SECOISOLARICIRESINOL 95+%
• CAS NO: 29388-59-8
• Molecular Formula: C₂₀H₂₆O₆
• Molecular Weight: 362.42
• EINECS: 249-599-2
• Product Categories: Miscellaneous Natural Products
• Mol File: 29388-59-8.mol
• Article Data: 27

Chemical Properties

• Melting Point: 113 °C
• Boiling Point: 609.1 °C at 760 mmHg
• Flash Point: 322.1 °C
• Appearance: White powder
• Density: 1.251 g/cm³
• Vapor Pressure: 1.09E-15mmHg at 25°C
• Refractive Index: 1.598
• Storage Temp.: Sealed in dry,Room Temperature
• PKA: 9.81±0.20(Predicted)
• BRN: 6611290
• CAS DataBase Reference: SECOISOLARICIRESINOL(CAS DataBase Reference)
• NIST Chemistry Reference: SECOISOLARICIRESINOL(29388-59-8)
• EPA Substance Registry System: SECOISOLARICIRESINOL(29388-59-8)

Safety Data

• WGK Germany: 3
• Hazardous Substances Data: 29388-59-8(Hazardous Substances Data)

Usage

Description

Secoisolariciresinol, a natural phenolic compound, is derived from the heartwood of the Mongolian pine tree (Pinus sylvestris). It exhibits a range of biological activities, including antioxidant, anti-inflammatory, and antimicrobial properties. Its unique structure, featuring two phenolic rings connected by a dihydrofuran ring, contributes to its diverse pharmacological effects.

Uses

Used in Pharmaceutical Industry:
Secoisolariciresinol is used as a therapeutic agent for its anti-myocardial ischemia effects, which can help in the treatment of heart diseases by reducing the damage caused by ischemic conditions.
Used in Antioxidant Applications:
Secoisolariciresinol is used as an antioxidant, protecting cells from oxidative stress and damage caused by reactive oxygen species. Its antioxidant properties can be beneficial in various health and skincare products, as well as in the food industry to extend the shelf life of products.
Used in Antimicrobial Applications:
Secoisolariciresinol is used as an antimicrobial agent, exhibiting activity against a range of bacteria and fungi. This makes it a potential candidate for use in the development of new antimicrobial drugs and in the formulation of natural preservatives for various applications.
Used in Mongolian Folk Medicine:
Secoisolariciresinol is used as a traditional medicine in Mongolia, where it has been employed for centuries to treat various ailments, including heart diseases and infections, due to its multifaceted health-promoting properties.

InChI:InChI=1/C20H26O6/c1-25-19-9-13(3-5-17(19)23)7-15(11-21)16(12-22)8-14-4-6-18(24)20(10-14)26-2/h3-6,9-10,15-16,21-24H,7-8,11-12H2,1-2H3/t15-,16-/m0/s1

Upstream product

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• 1135-23-5 3-(4-hydroxy-3-methoxyphenyl)propionic acid 
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• 1135-24-6 3-(4-hydroxy-3-methoxyphenyl)acrylic acid 
• 1321545-28-1 (S)-3-[3-(4-benzyloxy-3-methoxyphenyl)propanoyl]-4-isopropyloxazolidin-2-one 
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• 1321545-26-9 (S)-3-[(S)-2-(4-benzyloxy-3-methoxybenzyl)pent-4-enoyl]-4-isopropyloxazolidin-2-one 
• 158932-33-3 secoisolariciresinol diglycoside 
• 60485-34-9 pinoresinol diglucoside 

Downstream Products

• 121621-31-6 L_g-threo-1,4-bis-benzoyloxy-2,3-bis-(4-benzoyloxy-3-methoxy-benzyl)-butane 
• 58311-18-5 (2R,3R)-2,3-bis[(3,4-dimethoxyphenyl)methyl]butane-1,4-diol 
• 62624-76-4 (8R,8'R)-9,9'-epoxy-3,4,3',4'-tetramethoxylignane 
• 67597-01-7 Secoisolarcinoltetraacetat 
• 119098-95-2 (-)-(2R,3R)-2-(3',4'-dihydroxybenzyl)-3-(3'',4''-dihydroxybenzyl)butyrolactone 
• 1206712-52-8 secoisolariciresinol-4',4''-diacetate 
• 34730-78-4 4-({4-[(4-hydroxy-3-methoxyphenyl)methyl]oxolan-3-yl}methyl)-2-methoxyphenol 
• 3688-23-1 (-)-secoisolariciresinol 
• 145265-02-7 (-)-secoisolariciresinol 
• 347359-71-1 7'-hydroxymatairesinol 
• 580-72-3 (2RS,3RS)-2,3-bis-(4-hydroxy-3-methoxybenzyl)butyrolactone 
• 36469-60-0 (8R,8'S)-dihydroguaiaretic acid 

Relevant articles and documents

Antiestrogenic and antiproliferative potency of secoisolariciresinol diglucoside derivatives on MCF-7 breast cancer cells

Secoisolariciresinol diglucoside (SDG) is isolated from Linum usitatissimum seeds. The antiproliferative effects of SDG (1) and its derivatives secoisolariciresinol (2) and secoisolariciresinol-4′, 4″-diacetate (3) have been evaluated on MCF-7 breast cancer cells and normal breast epithelial line MCF-10A. Lignan 1 has not shown cytotoxic effects on MCF-7 cells, while derivatives 2 and 3 have inhibited cell growth with IC50 values of 25 and 11 μM, respectively. Estrogen receptor alpha is a key growth driver in MCF-7 cells. Compound 1 did not affect the activity of ERα, while derivatives 2 and 3 showed significant antiestrogenic effects. Compounds 2 and 3 caused apoptosis in the MCF-7 line, determined by the cleavage of PARP. SDG derivative 3 enhanced the effect of doxorubicin. SDG derivatives can be considered as promising agents that exhibit a combined antiestrogen and proapoptotic effect in hormone-dependent breast cancer cells.

Total Synthesis and Stereochemical Confirmation of (-)-Olivil, (+)-Cycloolivil, (-)-Alashinols F and G, (+)-Cephafortin A, and Their Congeners: Filling in Biosynthetic Gaps

For the first time, we describe the stereocontrolled total syntheses of olivil, cephafortin A, 4-des-O-methyl-4-O-rhamnosyl cephafortin A, and alashinol F from a common precursor using a combination of chemoenzymatic and biomimetic methods for the systematic introduction of functional groups on three vicinal stereogenic carbon atoms. We revised the previously assigned stereochemistry of (+)-cephafortin A, which was reported as the enantiomer. Natural and unnatural congeners provide insights into the biogenetic interrelations of members of this family.

Ring substitution influences oxidative cyclisation and reactive metabolite formation of nordihydroguaiaretic acid analogues

Nordihydroguaiaretic acid (NDGA) is a natural polyphenol with a broad spectrum of pharmacological properties. However, its usefulness is hindered by the lack of understanding of its pharmacological and toxicological pathways. Previously we showed that oxidative cyclisation of NDGA at physiological pH forms a dibenzocyclooctadiene that may have therapeutic benefits whilst oxidation to an ortho-quinone likely mediates toxicological properties. NDGA analogues with higher propensity to cyclise under physiologically relevant conditions might have pharmacological implications, which motivated this study. We synthesized a series of NDGA analogues which were designed to investigate the structural features which influence the intramolecular cyclisation process and help to understand the mechanism of NDGA's autoxidative conversion to a dibenzocyclooctadiene lignan. We determined the ability of the NDGA analogues investigated to form dibenzocyclooctadienes and evaluated the oxidative stability at pH 7.4 of the analogues and the stability of any dibenzocyclooctadienes formed from the NDGA analogues. We found among our group of analogues the catechols were less stable than phenols, a single catechol-substituted ring is insufficient to form a dibenzocyclooctadiene lignan, and only compounds possessing a di-catechol could form dibenzocyclooctadienes. This suggests that quinone formation may not be necessary for cyclisation to occur and the intramolecular cyclisation likely involves a radical-mediated rather than an electrophilic substitution process. We also determined that the catechol dibenzocyclooctadienes autoxidised at comparable rates to the parent catechol. This suggests that assigning in vitro biological activity to the NDGA dibenzocyclooctadiene is premature and requires additional study.