BOC Sciences, as a global leading supplier of chemicals and bioproducts, leverages its outstanding technical expertise and extensive industry experience to provide high-quality anti-inflammatory peptide manufacturing services for the cosmetics industry. As a class of bioactive molecules with significant anti-inflammatory and reparative effects, anti-inflammatory peptides have been increasingly applied in cosmetics in recent years. Through advanced synthesis technologies, a rigorous quality control system, and customized services, BOC Sciences offers comprehensive support from research and development to large-scale production. Whether it is custom synthesis, formulation optimization, or large-scale manufacturing of anti-inflammatory peptides, BOC Sciences can meet diverse customer needs, assisting cosmetics companies in developing more competitive products.
Anti-inflammatory peptides are a class of short-chain peptides that regulate immune responses, inhibit the expression of inflammatory factors, and promote skin repair processes. Typically composed of 10 to 50 amino acids, they interact with specific receptors to influence intracellular signaling pathways, thereby alleviating or preventing inflammatory reactions. The mechanisms of action of anti-inflammatory peptides include inhibiting excessive immune responses, reducing the release of inflammatory factors (such as cytokines and prostaglandins), and modulating immune cell functions. These properties make anti-inflammatory peptides particularly valuable in skincare, especially in alleviating skin allergies, inflammation, and irritation. For many skin conditions, such as acne, redness, and allergic reactions, anti-inflammatory peptides demonstrate significant efficacy by restoring the skin's natural barrier function and reducing inflammation caused by external stimuli. With the growing demand for natural ingredients in the cosmetics industry, anti-inflammatory peptides, due to their mild yet effective properties, have become one of the commonly used active ingredients in cosmetic formulations.
BOC Sciences provides highly flexible custom synthesis services, capable of designing and synthesizing anti-inflammatory peptides according to specific customer requirements. Whether it involves adjusting amino acid sequences, adding modification groups, or designing special functions, BOC Sciences can achieve these through advanced solid-phase peptide synthesis (SPPS) and liquid-phase peptide synthesis (LPPS) technologies. Customers only need to provide the target peptide sequence or functional requirements, and BOC Sciences' expert team will handle the entire process from design to synthesis, ensuring that the final product meets the expected performance.
We offer a wide range of anti-inflammatory peptides, including natural, synthetic, and functional types. Additionally, our combinatorial peptides provide further customization to meet specific needs.
BOC Sciences utilizes several advanced peptide synthesis technologies, including solid-phase (SPPS) and liquid-phase (LPPS) methods. We also employ enzymatic synthesis and recombinant technology for more complex peptide designs.
We offer tailored modifications to amino acids, such as phosphorylation, acetylation, methylation, and glycosylation. These modifications enhance the functionality and specificity of peptides.
BOC Sciences is equipped with advanced peptide synthesis facilities and large-scale production capabilities, meeting requirements from laboratory-scale to industrial-scale manufacturing. Whether it is milligram-level small batch samples or ton-level large-scale production, BOC Sciences can efficiently fulfill orders. Its production lines employ automated technologies to ensure stability and consistency in the manufacturing process. Additionally, BOC Sciences offers a one-stop service from raw material procurement to final product delivery, helping customers save time and costs.
Anti-inflammatory Peptides | Applications and Effects |
Growth Factor Peptides | Such as EGF and FGF, promote skin cell repair and reduce inflammation. |
Oligopeptide-1 | Relieves inflammation, promotes skin repair, and enhances the skin's natural barrier. |
Copper Peptides | Antioxidant and anti-inflammatory, alleviates inflammation caused by free radicals, and promotes skin repair. |
Antimicrobial Peptides (AMPs) | Such as Defensins, antimicrobial, reduce inflammation caused by bacteria (e.g., acne). |
Alpha-MSH Peptides | Regulates skin immune response to reduce inflammation, commonly used in anti-allergy and anti-inflammatory skincare products. |
Serpin Peptides | Inhibit inflammation-related protease activity, reduce inflammation, and enhance skin repair. |
L-Peptides | Reduce skin inflammation, enhance skin repair ability, suitable for sensitive skin. |
Isoflavone Peptides | Relieve inflammation, especially for sensitive skin, and have anti-aging effects. |
Glycine-based Peptides | Anti-inflammatory, help strengthen the skin barrier, and reduce inflammation caused by external stressors. |
Acetyl Peptides | Improve skin absorption, anti-inflammatory, anti-aging, and reduce inflammation and fine lines. |
Thymus Peptides | Regulate the skin immune system and alleviate inflammation caused by external factors. |
Cystine Peptides | Promote skin cell repair, alleviate inflammation caused by UV and other factors, suitable for sensitive skin. |
Beta-Peptides | Inhibit inflammation-related cytokines and enzymes, reducing redness, irritation, and discomfort. |
BOC Sciences provides customized formulation development services, tailoring anti-inflammatory peptide formulations to meet specific customer requirements and application scenarios. Whether for anti-inflammatory effects on sensitive skin or anti-aging repair solutions, we offer professional formulation optimization based on customer needs. Our expert team selects the most suitable anti-inflammatory peptides, considering market trends in cosmetics, and provides optimal dosage recommendations and combination strategies. Throughout the formulation process, we comprehensively assess peptide stability, activity, absorption, and performance in various bases, ensuring not only ideal efficacy but also a superior user experience. By continuously refining and optimizing formulations, we maximize the effectiveness of anti-inflammatory peptides in final products, meeting both performance and sensory expectations.
Develop the formulation of anti-inflammatory peptides to ensure their effectiveness, stability, and safety in practical applications.
Conduct compatibility testing of the anti-inflammatory peptide formulation with other ingredients to ensure its chemical and physical stability.
Optimize the solubility and stability of anti-inflammatory peptides to enhance their bioavailability and long-term storage stability.
Evaluate the long-term stability and effectiveness of the anti-inflammatory peptide formulation under various environmental conditions through stability testing.
Conduct long-term efficacy testing to ensure that the anti-inflammatory peptide formulation remains effective over its intended usage period.
Test the skin penetration of the anti-inflammatory peptide formulation to assess its ability to pass through the skin barrier and its localized effects.
Provide regulatory and compliance support to ensure that the anti-inflammatory peptide formulation meets relevant industry standards and regulations.
Provide efficacy evaluation support to validate the therapeutic effects of the anti-inflammatory peptide formulation in preclinical and clinical stages.
BOC Sciences implements strict quality control measures to ensure that anti-inflammatory peptide products meet customer requirements and industry standards. High-performance liquid chromatography (HPLC) is used for purity testing to ensure compliance with specifications, while mass spectrometry (MS) verifies molecular weight consistency with theoretical values. An amino acid analyzer is employed to confirm that the amino acid composition matches the customer-provided sequence. Additionally, upon request, we offer bioactivity testing to verify the expected anti-inflammatory efficacy, as well as sterility testing to ensure product safety for clinical or experimental applications. Stability testing is conducted through environmental simulation experiments to assess long-term effectiveness and ensure product stability during storage and use.
Demand Analysis and Consultation
Peptide Synthesis Design
Synthesis and Modification
Purification and Characterization
Quality Control and Testing
Delivery and Ongoing Support
Anti-inflammatory peptides reduce excessive skin reactions to external stimuli, making them suitable for sensitive skin care. For example, neuropeptides such as PKEK can reduce neuroinflammation and enhance skin tolerance.
Certain anti-inflammatory peptides, such as Palmitoyl Tetrapeptide-7, help reduce inflammatory responses and promote the synthesis of skin barrier proteins (e.g., ceramides), aiding in moisture retention.
Inflammation is a major factor in skin aging. Anti-inflammatory peptides inhibit chronic inflammation and reduce collagen degradation. For example, copper peptides promote skin repair and improve wrinkles and sagging.
Anti-inflammatory peptides regulate sebum secretion and inhibit inflammatory factors, helping alleviate acne and redness, making them suitable for acne-care products.
Collagen peptides exhibit certain anti-inflammatory properties. Studies indicate that collagen peptides can modulate immune responses, inhibit the release of pro-inflammatory cytokines (such as IL-6 and TNF-α), and reduce inflammation. Additionally, collagen peptides are rich in glycine, proline, and hydroxyproline—amino acids essential for tissue repair, skin barrier enhancement, and oxidative stress reduction. Consequently, collagen peptides help alleviate skin inflammation, improve joint inflammation, and promote wound healing. However, their anti-inflammatory effects are generally mild compared to specialized anti-inflammatory peptides like copper peptides or Palmitoyl Tetrapeptide-7. Therefore, in cosmetics and dietary supplements, collagen peptides are primarily used to enhance skin elasticity and tissue repair while offering supplementary anti-inflammatory benefits.
Several anti-inflammatory peptides have demonstrated significant efficacy in various biological systems. Among them, Palmitoyl Tetrapeptide-7 and Copper Peptides are widely regarded as some of the most effective. Palmitoyl Tetrapeptide-7 reduces skin inflammation by inhibiting pro-inflammatory cytokine production (such as IL-6) and is commonly used in sensitive skin care and anti-aging products. Copper Peptides, on the other hand, possess strong antioxidant and tissue repair capabilities, reducing inflammation while promoting collagen and elastin synthesis to accelerate skin healing. Additionally, thymic peptides such as TB-500 have shown remarkable anti-inflammatory properties in medical applications. Therefore, the best anti-inflammatory peptide depends on the intended application, whether in cosmetics, skincare, or medical use.