AsianScientist (Oct. 21, 2015) – An international team of researchers, led by scientists from Agency for Science, Technology and Research’s (A*STAR) Institute of Medical Biology (IMB), has discovered a novel protein mutation which results in a rare premature skin aging condition.
The findings shed light on the underlying mechanisms of skin aging, and bring us one step closer to maintaining skin youthfulness through targeting such enzymes. The study was published in the American Journal of Human Genetics and involved collaborations with over 16 hospitals and research centers across 11 countries.
As we age, our skin tends to become thinner, more fragile, and lacking in elasticity, leading to wrinkles. Understanding why and how our skin ages, then, is the first step to slowing down the effects.
The study examined the DNA samples of patients with suspected De Barsy Syndrome (DBS), otherwise known as ‘wrinkly skin syndrome.’ It belongs to a group of rare connective tissue disorders, known as cutis laxa (CL) syndromes, in which the skin hangs loosely in folds and turns inelastic.
A previous study in 2009 had found that mutation of the PYCR1 gene was an underlying cause of DBS, making PYCR1 a prime target for anti-wrinkling treatments for common disorders related to aging. Intriguingly though, in these patients’ cases, while they showed DBS-like symptoms, their PYCR1 genes did not bear any mutations, suggesting that other genes could be responsible.
It was found that a unique mutation in the enzyme P5CS affecting only the residue Arg138, was the cause for the observed symptoms and a prematurely-aged appearance. Having identified this, scientists can now develop treatments to counteract P5CS mutations, and therefore hope to recover skin elasticity.
This particular form of CL, while milder than DBS, was further found to be autosomal dominant, such that only one copy of a disease allele is necessary for one to be susceptible and there is a 50 percent chance the offspring will inherit the disease allele and suffer from the disorder. This is opposed to the autosomal recessive DBS, which bears only a 25 percent chance. This discovery will certainly ameliorate the diagnostics, treatment, and genetic counselling processes for patients.
Beyond CL patients, skin aging and wrinkling is also a pertinent aspect of overall human aging, and such insights can improve our management of aging, particularly to address the global issue of an aging population. Furthermore, this area is one of the hot focus areas for personal care companies, and this discovery identifies a novel target for the development of wrinkle-defying treatments, and improvement of the skin’s self-renewal capacity and youthful appearance.
IMB and IMCB Senior Principal Investigator Dr. Bruno Reversade, one of the study’s corresponding authors, commented, “We are now certain that skin aging in humans is under the control of proline metabolism, which both PYCR1 and P5CS are involved in. Our next challenge is to find out if these two enzymes are druggable to develop active compounds to slow down the effects of aging.”
The article can be found at: Fischer-Zirnsak et al. (2015) Recurrent De Novo Mutations Affecting Residue Arg138 of Pyrroline-5-Carboxylate Synthase Cause a Progeroid Form of Autosomal-Dominant Cutis Laxa.
Source: A*STAR; Photo: Shutterstock.
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