Methylene blue improved physical, biochemical and genetic aging markers in experiments with human skin cells and simulated skin tissues — ScienceDaily

New work from the University of Maryland suggests that a common, inexpensive and safe chemical could slow the aging of human skin. The researchers found evidence that the chemical — an antioxidant called methylene blue — could slow or reverse several well-known signs of aging when tested in cultured human skin cells and simulated skin tissue. The study was published online in the journal Scientific Reports on May 30, 2017.

“Our work suggests that methylene blue could be a powerful antioxidant for use in skin care products,” said Kan Cao, senior author on the study and an associate professor of cell biology and molecular genetics at UMD. “The effects we are seeing are not temporary. Methylene blue appears to make fundamental, long-term changes to skin cells.”

The researchers tested methylene blue for four weeks in skin cells from healthy middle-aged donors, as well as those diagnosed with progeria — a rare genetic disease that mimics the normal aging process at an accelerated rate. In addition to methylene blue, the researchers also tested three other known antioxidants: N-Acetyl-L-Cysteine (NAC), MitoQ and MitoTEMPO (mTEM).

In these experiments, methylene blue outperformed the other three antioxidants, improving several age-related symptoms in cells from both healthy donors and progeria patients. The skin cells (fibroblasts, the cells that produce the structural protein collagen) experienced a decrease in damaging molecules known as reactive oxygen species, a reduced rate of cell death and an increase in the rate of cell division throughout the four-week treatment.

Next, Cao and her colleagues tested methylene blue in fibroblasts from older donors (>80 years old) again for a period of four weeks. At the end of the treatment, the cells from older donors had experienced a range of improvements, including decreased expression of two genes commonly used as indicators of cellular aging: senescence-associated beta-galactosidase and p16.

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