Abstract
BackgroundGanoderma sp., such as Ganoderma tsugae (GT), play an important role in traditional Chinese medicine. Ganoderma sp. contains several constituents, including Sacacchin, which has recently drawn attention because it can not only enhance the repair of muscle damage but also strengthen the muscle enforcement. Although Ganoderma sp. have a therapeutic effect for neuromuscular disorders, the underlying mechanism remains unclear. This study investigated the effect and underlying molecular mechanism of micronized sacchachitin (mSC) on satellite cells (SCs), which are known as the muscle stem cells.MethodsThe myogenic cells, included SCs (Pax7+) were isolated from tibialis anterior muscles of a healthy rat and were cultured in growth media with different mSC concentrations. For the evaluation of SC proliferation, these cultivated cells were immunostained with Pax7 and bromodeoxyuridine assessed simultaneously. The molecular signal pathway was further investigated by using Western blotting and signal pathway inhibitors.ResultsOur data revealed that 200 µg/mL mSC had an optimal capability to significantly enhance the SC proliferation. Furthermore, this enhancement of SC proliferation was verified to be involved with activation of TAK1-JNK-AP-1 signaling pathway through TLR2, whose expression on SC surface was confirmed for the first time here.ConclusionMicronized sacchachitin extracted from GT was capable of promoting the proliferation of SC under a correct concentration.
Highlights
Ganoderma sp., such as Ganoderma tsugae (GT), play an important role in traditional Chinese medicine
It was summarized as the following. micronized sacchachitin (mSC) was measured by particle size analyzer to show an average effective diameter of 2.06 μm with a mid-range polydispersity index (0.459)
When it was observed under SEM, it shows no sign of particles but appearing to be more like the gel matrix
Summary
Ganoderma sp., such as Ganoderma tsugae (GT), play an important role in traditional Chinese medicine. This study investigated the effect and underlying molecular mechanism of micronized sacchachitin (mSC) on satellite cells (SCs), which are known as the muscle stem cells. In addition to the therapeutic effects mentioned above, enhancement of muscular strength is another well-known effect of Ganoderma-based drugs, which have recently drawn attentions. This Ganoderma-based drug has exhibited effectiveness in improving muscle strength in neuromuscular diseases, including Duchenne muscular dystrophy [15, 16]. This Ganoderma-based drug has already been clinically applied for more than 30 years, complete understanding and precise mechanism of this drug in improving muscular regeneration and thereby increasing the muscular mass and strength remains unclear
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