Pyridoxine Dicaprylate - 106483-04-9

Pyridoxine Dicaprylate

Catalog Number: EVT-3554118
CAS Number: 106483-04-9
Molecular Formula: C24H39NO5
Molecular Weight: 421.6 g/mol
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Product Introduction

Description
Pyridoxine dicaprylate is a chemical compound that belongs to the class of pyridoxine derivatives. It is widely used in various fields, including medical, environmental, and industrial research. This paper aims to provide a comprehensive overview of pyridoxine dicaprylate, including its synthesis methods, chemical structure, biological activity, effects on cell function and signal transduction, applications in different research areas, and future perspectives and challenges.
Applications in Various Fields
In medical research, pyridoxine dicaprylate plays a crucial role in drug development. It has been used as a carrier molecule for targeted drug delivery, enhancing the bioavailability and stability of therapeutic compounds. Clinical trials have shown promising results, demonstrating the efficacy of pyridoxine dicaprylate-based formulations in various disease models. However, potential side effects and long-term safety considerations need to be thoroughly evaluated.
In environmental research, pyridoxine dicaprylate has been studied for its effects on ecosystems. It has been found to have low toxicity to aquatic organisms, making it a potential candidate for pollution management. Additionally, its use in sustainable agriculture practices has shown positive results in improving crop yield and reducing environmental impact.
In industrial research, pyridoxine dicaprylate is utilized in manufacturing processes to improve product quality and efficiency. Its lipophilic properties make it an ideal ingredient in cosmetic formulations, enhancing the stability and absorption of active compounds. Health and safety considerations should be taken into account during the production and handling of pyridoxine dicaprylate to ensure worker safety.

Properties

CAS Number

106483-04-9

Product Name

Pyridoxine Dicaprylate

IUPAC Name

[5-hydroxy-6-methyl-4-(octanoyloxymethyl)pyridin-3-yl]methyl octanoate

Molecular Formula

C24H39NO5

Molecular Weight

421.6 g/mol

InChI

InChI=1S/C24H39NO5/c1-4-6-8-10-12-14-22(26)29-17-20-16-25-19(3)24(28)21(20)18-30-23(27)15-13-11-9-7-5-2/h16,28H,4-15,17-18H2,1-3H3

InChI Key

PAUSGZCRNOTKPK-UHFFFAOYSA-N

SMILES

CCCCCCCC(=O)OCC1=CN=C(C(=C1COC(=O)CCCCCCC)O)C

Canonical SMILES

CCCCCCCC(=O)OCC1=CN=C(C(=C1COC(=O)CCCCCCC)O)C
Method of Synthesis or Extraction
Pyridoxine dicaprylate can be synthesized using several methods, including esterification and transesterification. Esterification involves the reaction of pyridoxine with caprylic acid in the presence of a catalyst, such as sulfuric acid or p-toluenesulfonic acid. Transesterification, on the other hand, involves the reaction of pyridoxine with caprylic acid methyl ester in the presence of a base, such as sodium methoxide. Both methods have been reported to yield pyridoxine dicaprylate with high efficiency and good yields.
When considering the environmental and safety considerations of these synthesis methods, it is important to note that the use of strong acids or bases may pose risks to the environment and human health. Therefore, it is crucial to implement proper safety measures and waste management protocols to minimize any potential negative impacts.
Chemical Structure and Biological Activity
Pyridoxine dicaprylate has a chemical structure consisting of a pyridoxine backbone with two caprylic acid chains attached. This structure imparts unique properties to the compound, including enhanced lipophilicity and stability.
The mechanism of action of pyridoxine dicaprylate involves its interaction with biological targets, such as enzymes and receptors. It has been shown to modulate various cellular processes, including signal transduction pathways and gene expression. Additionally, pyridoxine dicaprylate exhibits potent antioxidant and anti-inflammatory activities, making it a promising candidate for therapeutic interventions.
Biological Effects
Pyridoxine dicaprylate has been found to exert significant effects on cell function and signal transduction. It has been shown to regulate the activity of key enzymes involved in cellular metabolism and energy production. Furthermore, pyridoxine dicaprylate has been reported to modulate various signaling pathways, including those involved in cell proliferation, differentiation, and apoptosis.
While pyridoxine dicaprylate shows potential therapeutic effects, it is important to consider its potential toxic effects. High concentrations of pyridoxine dicaprylate have been associated with adverse effects, including gastrointestinal disturbances and allergic reactions. Therefore, careful dosage and administration should be considered to minimize any potential risks.
Future Perspectives and Challenges
Despite the numerous applications and potential benefits of pyridoxine dicaprylate, there are still limitations in its use and study. The lack of comprehensive toxicity data and long-term safety studies hinders its widespread adoption in various fields. Additionally, the synthesis methods of pyridoxine dicaprylate may require further optimization to improve efficiency and reduce environmental impact.
Possible solutions and improvements include conducting more extensive toxicological studies to determine the safe dosage range and potential side effects. Furthermore, the development of more sustainable synthesis methods, such as using renewable resources or green chemistry principles, could enhance the environmental profile of pyridoxine dicaprylate.
In the future, pyridoxine dicaprylate is expected to play a significant role in scientific research. Its unique properties and versatile applications make it a promising candidate for further exploration and development. However, addressing the current limitations and challenges will be crucial to fully unlock its potential and ensure its safe and sustainable use.
In conclusion, pyridoxine dicaprylate is a compound with diverse applications and potential benefits in various research areas. Its synthesis methods, chemical structure, biological activity, effects on cell function, and applications have been discussed in this paper. Despite the current limitations, the future prospects of pyridoxine dicaprylate are promising, and further research and development are warranted to fully exploit its potential.

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