BackgroundHydrocellular foam dressing, modern wound dressing, induces moist wound environment and promotes wound healing: however, the regulatory mechanisms responsible for these effects are poorly understood. This study was aimed to reveal the effect of hydrocellular foam dressing on hyaluronan, which has been shown to have positive effects on wound healing, and examined its regulatory mechanisms in rat skin.Methodology/Principal FindingsWe created two full-thickness wounds on the dorsolateral skin of rats. Each wound was covered with either a hydrocellular foam dressing or a film dressing and hyaluronan levels in the periwound skin was measured. We also investigated the mechanism by which the hydrocellular foam dressing regulates hyaluronan production by measuring the gene expression of hyaluronan synthase 3 (Has3), peroxisome proliferator-activated receptor α (PPARα), and CD44. Hydrocellular foam dressing promoted wound healing and upregulated hyaluronan synthesis, along with an increase in the mRNA levels of Has3, which plays a primary role in hyaluronan synthesis in epidermis. In addition, hydrocellular foam dressing enhanced the mRNA levels of PPARα, which upregulates Has3 gene expression, and the major hyaluronan receptor CD44.Conclusions/SignificanceThese findings suggests that hydrocellular foam dressing may be beneficial for wound healing along with increases in hyaluronan synthase 3 and PPARα gene expression in epidermis. We believe that the present study would contribute to the elucidation of the mechanisms underlying the effects of hydrocellular foam dressing-induced moist environment on wound healing and practice evidence-based wound care.
We examined the effect of perfluorooctanoic acid (PFOA) on adipose cells using 3T3-L1 adipocytes and found that PFOA increased adipocyte differentiation, triglyceride accumulation, and the mRNA level of factors related to adipocyte differentiation. In addition, PFOA bound to peroxisome proliferator-activated receptor γ (PPAR γ). These results suggest that PFOA promotes adipocyte differentiation as a PPAR γ ligand.
In this study, the antidiabetic effects of a hot water extract of edible Chrysanthemum morifolium Ramat. (HW-ECM) were investigated in type 2 diabetic mice. HW-ECM improved blood glucose levels and insulin resistance and increased adiponectin mRNA expression in adipose tissues and protein concentrations in the plasma. Moreover, it increased adipose mRNA and protein expressions of peroxisome proliferator-activated receptor γ (PPARγ), a regulator of adiponectin transcription, and mRNA expression of its downstream target genes. It also reduced the adipose cell size and attenuated the mRNA expression of pro-inflammatory adipocytokines in adipose tissues. These data presumably indicate a hypoglycemic mechanism of HW-ECM, involving increased PPARγ expression, decreased the adipocyte sizes, and suppression of chronic inflammation in adipose tissues. Finally, elevated adiponectin levels lead to amelioration of insulin resistance and the corresponding hypoglycemic effects. Therefore, HW-ECM indicates its potential as a functional food for type 2 diabetes.
Our study suggests that HF diets reduce ceramide and lipid synthesis in the skin by reducing levels of SPT and HMG-CoA reductase through lowered adiponectin and PPAR-α activity. Additionally, they decrease lipid content by enhancing β-oxidation.
Branched-chain amino acids (BCAAs) exhibit many physiological functions. However, the potential link and mechanism between BCAA and skin function are unknown. We examined the effects of deletion of branched-chain α-keto acid dehydrogenase kinase (BDK), a key enzyme in BCAA catabolism, on type I and III tropocollagen syntheses in mice. Leucine and isoleucine levels were significantly lower in the skin of BDK-KO mice compared with wild-type mice. No changes in valine concentrations were observed. The levels of type I and III tropocollagen proteins and mRNAs (COL1A1 and COL3A1) were significantly lower in the skin of BDK-KO mice compared with wild-type mice. The phosphorylation of p70 S6 kinase, which indicates mammalian target of rapamycin (mTOR) activation, was reduced in the skin of BDK-KO mice compared with wild-type mice. These findings suggest that deficiencies of leucine and isoleucine reduce type I and III tropocollagen syntheses in skin by suppressing the action of mTOR.
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