What Is Boron? Other Names: Acide Borique, Borate, Boric Acid

What is Boron?

This post was written with Consensus AI Academic Search Engine – please read our Disclaimer at the end of this article. Boron is a trace element that plays a crucial role in various biological and physiological processes. It is found in nature in several forms and is essential for both plant and animal life. This article explores the significance of boron, its applications, and its effects on different organisms. Other names include: Acide Borique, Anhydride Borique, Atomic number 5, B (chemical symbol), B (symbole chimique), Borate, Borate de Sodium, Borates, Bore, Bore Chélaté, Boric Acid, Boric Anhydride, Boric Tartrate, Boro, Boro Quelado, Boron Ascorbate, Boron Chelate, Calcium Fructoborate, Chélate de Bore, Chelated Boron, Numéro Atomique 5, Quelato de Boro, Sodium Borate, Sodium Pentaborate Pentahydrate.

Role in Plant Physiology

Boron is vital for plant growth and development. It plays a significant role in cell wall formation, sugar translocation, and reproductive processes. For instance, boron application has been shown to improve the yield of rice cultivars under high-temperature stress by enhancing cell membrane stability, sugar mobilization, pollen viability, and spikelet fertility1. This indicates that boron can mitigate the adverse effects of high temperatures on rice production, particularly in tropical regions.

Impact on Animal Health

Boron also has notable effects on animal health. In dietary studies, boron has been found to influence insulin metabolism. For example, dietary boron decreases peak pancreatic insulin release in chicks and plasma insulin concentrations in rats, regardless of their vitamin D or magnesium status2. This suggests that boron may help reduce the amount of insulin required to maintain plasma glucose levels.

Embryonic Development

Boron is essential for embryonic development. Research has shown that boron enhances early embryonic gene expressions and improves fetal development in rats. Specifically, boron increases the mRNA expression and protein levels of early embryonic genes such as HEX, NANOG, and OCT-3/4, which are crucial for tissue and organ development3.

Protective Effects

Boron exhibits protective effects against various forms of oxidative stress and genotoxicity. For instance, boron has been shown to protect against cyclophosphamide-induced lipid peroxidation and genotoxicity in rats by enhancing antioxidant defense mechanisms4. Similarly, boron ameliorates arsenic-induced DNA damage, proinflammatory cytokine gene expressions, and oxidative stress in rats9.

Effects on Bone Health

Boron supplementation has been found to improve bone strength and feed efficiency in weanling pigs. Studies indicate that boron supplementation of a low-boron diet improves the gain-to-feed ratio and increases plasma cholesterol and triglyceride concentrations, which are important for bone health5. Additionally, boron affects the inflammatory response and thyroid hormone concentrations, which are crucial for growth and development in pigs7.

Cancer Research

There is ongoing research into the potential relationship between boron exposure and cancer. A community-based study investigated the prevalence of prostate cancer in a high boron-exposed population. Although no significant association was found between boron exposure and prostate cancer, the study suggested that high boron exposure might influence prostatic cellular processes related to hyperplasia and carcinogenesis8.

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Uses of Boron

Biological and Health Applications

Fetal Development and Gene Expression: Boron plays a crucial role in fetal development by enhancing the expression of early embryonic genes and improving tissue and organ development in embryos1.

DNA Protection and Anti-inflammatory Effects: Boron mitigates arsenic-induced DNA damage and reduces proinflammatory cytokine gene expressions, improving overall biochemical parameters in rats2.

Bone Health: Boron supplementation enhances bone strength and alters mineral composition, increasing calcium, magnesium, and phosphorus concentrations in bones6. It also improves bone strength characteristics in young pigs8.

Insulin Regulation: Boron reduces plasma insulin levels and peak pancreatic insulin release, potentially aiding in glucose metabolism5.

Sperm Quality and Immunity: Dietary boron improves sperm quality, increases sperm production, and enhances immune and antioxidant defense capacities in male goats9.

Agricultural Applications

Crop Yield and Stress Tolerance: Boron application improves the yield of rice cultivars under high-temperature stress by enhancing cell membrane stability, sugar mobilization, pollen viability, and spikelet fertility4.

Plant Growth and Seed Production: Foliar application of boron increases the growth, yield, seed production, and phytochemical properties of medicinal plants like Satureja khuzistanica7.

Industrial Applications

General Industrial Use: While not detailed in the abstracts, boron is known for its extensive use in various industrial applications, including glass and ceramics manufacturing, detergents, and as a semiconductor dopant.

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Adverse Effects of Boron

Decreased Body and Organ Weights

High dietary boron significantly decreased final body weights and liver-weight-to-body-weight ratios in rats1.

Depression of the testes-weight-to-body-weight ratio was observed in animals fed high boron diets1.

Altered Biochemical Parameters

Excessive boron intake led to decreased plasma triglyceride, cholesterol, and amino acid concentrations1.

Increased brain-weight-to-body-weight ratios and altered mineral concentrations in bones and brain were noted1.

Renal Toxicity

Long-term intake of low doses of boron caused structural damage to renal cortices, including hypercellularity, apoptotic and necrotic changes in tubular cells, and abnormal mitochondria3.

Behavioral Changes

High levels of boron affected the behavior of developing mallard ducklings, leading to increased resting time and decreased alert behaviors and water activity10.

Impact on Lipid Metabolism

Boron supplementation resulted in decreased plasma triacylglycerol and HDL-cholesterol concentrations in rats9.

Potential Protective Effects Against Other Toxins

Boron showed ameliorative effects against arsenic-induced DNA damage and oxidative stress2.

It also exhibited protective actions against acrylamide-induced oxidative stress and genotoxicity6.

Boron reduced the severity of cyclophosphamide-induced lipid peroxidation and genotoxicity7.

No Significant Molecular Toxicity at Low Doses

Chronic intake of low amounts of boron did not significantly alter the expression levels of transcription factors, suggesting no molecular toxicity at these levels5.

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How has Boron Improved Patient Outcomes?

Radiation Dermatitis Prevention

Boron-based gels significantly reduce the incidence of radiation dermatitis, erythema, dry desquamation, and moist desquamation in breast cancer patients undergoing radiotherapy1 5.

Arthritis Relief

Oral intake of boron (6 mg/day) shows a notable improvement in arthritis symptoms, with 50% of patients experiencing relief compared to 10% in the placebo group. No side effects were reported2.

COVID-19 Recovery

Boron-containing compounds, when used in combination with oleoylethanolamide, are being investigated for their potential to improve recovery rates in COVID-19 patients. The study aims to assess clinical symptoms and inflammatory markers3.

Obesity Management

Boron citrate supplementation (10 mg/day) is being studied for its effects on cardiometabolic factors, inflammatory biomarkers, and body composition in obese patients. The trial aims to provide evidence for boron’s effectiveness in managing obesity4.

Bone Fracture Healing

Implants coated with cubic boron nitride significantly enhance bone fracture healing in rat models, showing increased bone volume, cortex diameter, and osteoblast counts compared to control groups6.

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Boron Mechanisms of Action

Antioxidant Defense Enhancement

Boron enhances antioxidant defense mechanisms by increasing the activity of enzymes such as superoxide dismutase (SOD) and catalase, which helps in reducing oxidative stress and lipid peroxidation in tissues1 4 5 6 7.

Protection Against Oxidative and Genotoxic Stress

Boron exhibits protective effects against oxidative stress and genotoxicity induced by harmful substances like cyclophosphamide, acrylamide, and arsenic. It reduces malondialdehyde levels and DNA damage while increasing glutathione levels and antioxidant enzyme activities1 4 6 7.

Modulation of Inflammatory Response

Boron modulates the inflammatory response by decreasing the expression of proinflammatory cytokines such as NF-κB, IFN-γ, IL-1β, and TNF-α, thereby reducing inflammation and associated tissue damage4 6.

Cellular and Molecular Effects

Boron influences cellular functions by modulating the expression of transcription factors and enhancing RNA synthesis, although chronic low-level intake does not significantly alter transcription factor gene expression3 5.

Immune System Modulation

Boron supplementation improves immune responses, including both humoral and cell-mediated immunity, particularly under conditions of stress such as calcium deficiency5.

Protective Effects in Disease Models

In disease models like diabetes and prostate cancer, boron levels are associated with reduced oxidative brain damage and myeloperoxidase activity, suggesting a protective role in these conditions2.

Therapeutic Applications

Boron-based treatments, such as gels, have shown efficacy in reducing radiation-induced skin reactions in breast cancer patients, likely due to its antioxidant and wound healing properties8.

Agricultural Benefits

In agriculture, boron application improves plant resilience to high temperature stress by enhancing cell membrane stability, sugar mobilization, and reproductive success, leading to higher crop yields9.

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Common Complaints Associated with Boron Use

Improved Antioxidant Activity and Stress Tolerance

Boron application, both alone and in combination with biochar, significantly improved the activities of enzymatic antioxidants such as superoxide dismutase (SOD), peroxidase (POD), catalase (CAT), and ascorbate peroxidase (APX) in wheat plants under cadmium (Cd) stress1.

Reduction in Harmful Compounds

The use of boron, particularly when combined with biochar, reduced the levels of harmful compounds like hydrogen peroxide (H2O2) and malondialdehyde (MDA), which are indicators of oxidative stress in plants1.

Enhanced Proline and Soluble Sugar Contents

Boron application increased proline contents and enhanced soluble sugars and total phenolic contents in wheat plants, contributing to better stress tolerance and improved grain yield under Cd-contaminated conditions1.

Yield Improvement

The combined application of boron and biochar was found to be the most effective strategy for improving wheat grain yield under Cd stress, suggesting that boron can play a crucial role in mitigating the adverse effects of soil contamination1.

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Disclaimer

The content presented in this blog is generated by Consensus, an AI-powered academic search engine, and is based on publicly available scientific literature. While every effort is made to provide accurate, up-to-date, and well-researched information, the content is intended for informational and educational purposes only. It does not constitute medical advice, diagnosis, or treatment. Always consult a qualified healthcare professional before making any decisions regarding medical conditions, treatments, or medications. The AI system’s analysis may not cover all perspectives, emerging research, or individual cases, and it is not a substitute for professional expertise. Neither the blog publisher nor the developers of the AI-powered search engine are responsible for any actions taken based on the information provided in this content. Use of this information is at your own risk. Citations to the original scientific studies are included for reference, but these studies should be reviewed in full and interpreted with the guidance of a healthcare or research professional.

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