Exosomes for Muscle Tissue

Core functional proteins: IGF-1, bFGF, VEGF, TGF-β3, IL-10, HSP70, SOD, MyoD, myoglobin, fibronectin

Targets: Skeletal-muscle satellite cells, damaged fibres, sarcolemma cells, injury-site macrophages, vascular endothelium

Targeting logic: After acute strain or contusion, injured fibres release CXCL12 and TNF-α and the sarcolemma over-expresses integrin receptors; exosomes home via CXCR4 to the injured area, anchoring damaged fibres and satellite cells while sparing healthy muscle.

1. IGF-1 and MyoD activate satellite-cell proliferation and differentiation to form new fibres, rapidly repairing torn fibres and restoring contraction.
2. bFGF and VEGF regenerate microvasculature at the injury site, improving blood and oxygen supply and clearing metabolic waste.
3. IL-10 and TGF-β3 inhibit NF-κB and shift M1→M2 macrophages, quickly easing swelling and pain and limiting damage to healthy fibres.
4. HSP70 and SOD clear oxidative radicals, reducing myocyte apoptosis and post-injury fibrosis risk.
5. Fibronectin rebuilds the muscle matrix scaffold and repairs the sarcolemma, restoring structural integrity.

Core functional proteins: IL-10, TGF-β3, HSP70, SOD, bFGF, PDGF, NGF antagonists, collagenase inhibitors, antimicrobial peptides

Targets: Skeletal-muscle fibroblasts, myofascial cells, local immune cells, sensory nerve endings, damaged fibres

Targeting logic: Chronic strain and myofasciitis carry persistent sterile inflammation, fascial adhesion and micro-injury, continuously releasing CXCL12 and pro-inflammatory factors; exosomes enrich the strained area and target fascia and damaged fibres.

1. IL-10 and TGF-β3 suppress chronic sterile inflammation and down-regulate TNF-α and IL-6, easing soreness and stiffness and improving fascial adhesion.
2. NGF antagonists dampen over-sensitised sensory nerve endings, relieving the persistent pain of chronic strain.
3. bFGF and PDGF repair damaged fibres and fascial cells, improving elasticity and reducing recurrence.
4. HSP70 and SOD clear long-term oxidative damage, reducing apoptosis and chronic fatigue.
5. Collagenase inhibitors rebalance collagen to reduce abnormal fascial thickening and restore gliding; antimicrobial peptides prevent secondary infection.

Core functional proteins: IGF-1, bFGF, MyoD, MGF, VEGF, TGF-β3, IL-10, SOD, MMP inhibitors, myostatin antagonists

Targets: Satellite cells, muscle fibres, myonuclei, muscle vascular endothelium, interstitial fibroblasts

Targeting logic: In atrophic, weakening areas the fibres thin and satellite-cell function is suppressed, with ongoing oxidative-stress signalling; exosomes target the atrophic region, acting on satellite cells and fibres to promote hypertrophy and recovery.

1. Myostatin antagonists block the myostatin pathway, releasing the brake on satellite cells to drive fibre hypertrophy and number, reversing atrophy.
2. IGF-1, MGF and MyoD activate satellite-cell proliferation and differentiation, boosting protein synthesis and fibre cross-section and strength.
3. VEGF improves muscle microcirculation, raising oxygen and nutrient supply for better endurance.
4. TGF-β3 and MMP inhibitors inhibit muscle fibrosis and abnormal collagen build-up, preserving normal structure.
5. IL-10 and SOD clear chronic inflammation and oxidative radicals, reducing apoptosis and slowing age-related decline.