Tam Kurachi, Hironobu Ishimaru, Ryo Tadakuma, Miu Okaue, Akira Koda, Yuhki Ueda, Takaaki Doi
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In addition, we verified the effects of MPS on NO production in different skin cell types, such as keratinocytes (KCs), endothelial cells (ECs), and dermal fibroblasts (DFs).</p></div><div><h3>Methods</h3><p>We used raster-scanning optoacoustic imaging mesoscopy to observe <em>in vivo</em> changes in the skin blood volume. NO production was determined in each cell using an NO indicator. An enzyme-linked immunoassay was used to measure the phosphorylated nitric oxide synthase (NOS) levels in ECs, DFs, and KCs in the presence or absence of MPS.</p></div><div><h3>Results</h3><p>Topical application of MPS increased the skin blood volume in mice, and this increase was abolished through the addition of NOS inhibitors. MPS promoted the dose-dependent production of NO in various cells, which caused alterations in the phosphorylation state of NOS.</p></div><div><h3>Conclusion</h3><p>Our findings demonstrate that MPS promotes an increase in skin blood volume and NO production in various skin cell types. 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引用次数: 0
摘要
背景多硫酸粘多糖(MPS)作为一种活性成分被广泛应用于治疗骨质疏松症和血流障碍的外用制剂中。虽然外用 MPS 产品可以增加皮肤血流量(CBF),但其基本机制仍不清楚。我们研究了一氧化氮(NO)(一种与局部血容量增加有关的强效介质)与 MPS 对小鼠血流加速作用的关联。此外,我们还验证了 MPS 对角质形成细胞 (KC)、内皮细胞 (EC) 和真皮成纤维细胞 (DF) 等不同类型皮肤细胞中 NO 生成的影响。使用 NO 指示剂测定每个细胞的 NO 产量。结果局部应用 MPS 增加了小鼠的皮肤血容量,通过添加 NOS 抑制剂,这种增加被取消。结论我们的研究结果表明,MPS 能促进皮肤血容量的增加和各种皮肤细胞中 NO 的产生。这些结果表明,MPS 有可能通过不同类型皮肤细胞中的 NO 生物合成途径加速 CBF。
Mucopolysaccharide polysulfate increases local skin blood volume through nitric oxide production
Background
Mucopolysaccharide polysulfate (MPS) is widely used as an active ingredient in topical preparations for the treatment of asteatosis and blood flow disorders. Although topical MPS products can increase cutaneous blood flow (CBF), the underlying mechanism remains unclear.
Objective
In this study, we aimed to elucidate how MPS increases CBF. We investigated the association of nitric oxide (NO), a powerful mediator associated with increased local blood volume, with the blood flow-accelerating action of MPS in mice. In addition, we verified the effects of MPS on NO production in different skin cell types, such as keratinocytes (KCs), endothelial cells (ECs), and dermal fibroblasts (DFs).
Methods
We used raster-scanning optoacoustic imaging mesoscopy to observe in vivo changes in the skin blood volume. NO production was determined in each cell using an NO indicator. An enzyme-linked immunoassay was used to measure the phosphorylated nitric oxide synthase (NOS) levels in ECs, DFs, and KCs in the presence or absence of MPS.
Results
Topical application of MPS increased the skin blood volume in mice, and this increase was abolished through the addition of NOS inhibitors. MPS promoted the dose-dependent production of NO in various cells, which caused alterations in the phosphorylation state of NOS.
Conclusion
Our findings demonstrate that MPS promotes an increase in skin blood volume and NO production in various skin cell types. These results suggest that MPS can potentially accelerate CBF through the NO biosynthesis pathway in different skin cell types.