Applied Research · Exosome Synthetic Biology
Gene-level precision,
reshaping cellular youth
Core Efficacy Directions
Three-dimensional intervention to rebuild skin cellular homeostasis
Skin deterioration is the compounding loss of control across three mechanisms: aging (structural collapse), inflammation (signal imbalance), and oxidative stress (metabolic damage). Exosomes intervene across all three root causes simultaneously through multi-pathway gene instructions — rebuilding cellular homeostasis rather than surface repair.
Three-pillar precision strategy: ① Anti-aging — activate Wnt/β-catenin > TGF-β/Smad pathways to stimulate fibroblast collagen and elastin synthesis, reversing ECM degradation; ② Anti-inflammatory — downregulate the NF-kB/IL-6/TNF-α axis while activating IL-10/TGF-β to break the inflammatory cycle; ③ Antioxidant — activate the NRF2 > FOXO > SIRT1 > AMPK cascade to scavenge ROS, suppress AGE glycation, and protect mitochondrial function.
Other Application Directions
Three Additional Skin Indications
Beyond inflammatory skin conditions, the platform extends into skin aging, pigmentation, and post-procedure repair — addressing the three root causes of aging: structural collapse, signal imbalance, and metabolic decline via exosome gene instructions.
Indication Category
Skin Aging
Activates the TGF-β/Smad > COL1A1/ELN/HAS2 axis to stimulate collagen and elastin synthesis, while NRF2 > FOXO > SIRT1 > AMPK scavenges free radicals and suppresses AGEs glycation for structural and metabolic reversal of aging.
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Indication Category
Pigmentation & Uneven Tone
Activates the Nrf2 antioxidant pathway and blocks oxidation-induced MITF→TYR melanin synthesis, combined with IL-10 anti-inflammatory logic to curb recurrent pigmentation at the source.
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Indication Category
Skin Repair
Initiates the KRT14 > CLDN1 > IVL > FLG epidermal regeneration axis and promotes basal-layer cell renewal (Ki67), while repairing dermal structure and barrier proteins for full functional reconstruction.
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Platform Technology
Three engineered technology pathways
Exosome synthetic biology is not just nutrient supplementation — it delivers genetic instructions. Six-dimensional cell remodeling + intelligent carrier delivery + gene-level reprogramming form a complete engineering system that, by mastering Wnt, NF-kB, and Nrf2 pathways, achieves a leap from ingredient supplementation to cellular reprogramming for long-lasting reversal of aging, inflammation, and oxidative damage.
Six-Dimensional Cell Remodeling
Contouring, collagen regeneration, anti-inflammation, antioxidant, metabolic activation, and gene regulation — six dimensions in sync
Activates COL1A1/ELN for contour and firmness; targets NF-kB/TNF-α to suppress inflammation; synthesizes SOD/Catalase function to scavenge ROS and block AGEs glycation; promotes Ki67 basal-layer metabolic renewal; TGF-β/FGF/Wnt signal peptides precisely regulate cellular growth order — a six-dimensional cell remodeling system.
Exosome Delivery Vehicle
mRNA, microRNA, bioactive proteins, and lipids — four cargo types delivering gene-level instructions
Exosomes carry mRNA (gene expression instructions), microRNA (gene silencing or activation), Bioactive Proteins (direct cell repair), and Lipids (membrane fusion, penetration assistance) to cross the stratum corneum and deliver gene instructions to target dermal cells.
Gene-Level Reprogramming
Mastering Wnt, NF-kB, and Nrf2 core pathways — from ingredient supplementation to cellular reprogramming
Exogenous intelligent synthetic peptides activate the stem cell pathway (Wnt/β-catenin) while co-regulating anti-aging genes (SIRT1, FOXO3), repairing mitochondrial damage, and promoting Mitophagy renewal. This reprograms skin from the root and rebuilds cellular order for long-lasting reversal.
Next Step
Fully reverse aging · extinguish inflammation · defend against oxidation
The six-dimensional cell remodeling system uses exosome intelligent delivery to direct anti-aging, anti-inflammatory, and antioxidant gene instructions into target skin cells — spanning inflammatory, aging, pigmentation, and repair scenarios for a leap from ingredient supplementation to cellular reprogramming.