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Gene responsible for severe congenital skin disease, Harlequin Ichthyosis, identified by Queen Mary team

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11.03.2005

The genetic cause of the devastating skin disease Harlequin Ichthyosis has been discovered by a team at Barts and the London, Queen Mary’s School of Medicine and Dentistry.

In a paper to be published online in April in the American Journal of Human Genetics, Professor David Kelsell, of Queen Mary’s Centre for Cutaneous Research, outlines the recent breakthrough. Harlequin Ichthyosis (HI) is a rare, life threatening condition, where babies are born covered in a thick ‘coat of armour’. The skin dries out to form hard diamond shaped plaques, severely restricting their movement.

Historically, these babies usually die within two days of birth, due to feeding problems, bacterial infection and/or respiratory diseases. But a number of patients now survive, thanks to the wider availability of neonatal care, and developments in treatment. Prof Kelsell said: “The search for the genetic cause of HI has taken more than seven years, with groups in the UK, Japan and US finding the classical linkage analysis techniques unsuccessful. This is largely down to the lethal nature of the condition and the small size of families with the condition. Our breakthrough came from applying SNP array technology.”

The relatively new SNP or ‘Snip’ array technology has made searching for disease genes a much quicker and cheaper process - one which enabled Kelsell and his team to identify the HI gene in a matter of weeks.

SNPs, or single nucleotide polymorphisms, are common but minute variations in the DNA sequence; they occur when just one of the four letters that make up the code swaps places. Each array is the size of a fingernail, and contains over 10,000 of these different SNPs. Identifying an SNP which is consistently inherited with a disease can help point researchers to the ‘linked’ gene that may be ultimately responsible for the condition.

Professor Kelsell’s team looked at individuals from twelve families who are affected with HI; three from the USA; seven from the UK and two from Italy – all from diverse ethnic backgrounds. Using SNP array technology, they were able to pinpoint the area of code responsible for HI, and discovered mutations in the ABCA12 gene that maps in this area, in 11 of the 12 patients studied. Harlequin Ichthyosis affects a number of families in the UK; four children affected by HI, and Professor Kelsell’s discovery, will be the subject of an ITV documentary; Real Lives: the Harlequin Sisters, to be broadcast later this year.

HI is thought to be caused by a defect in the way lipids (fats) are transported and discharged into the top layers of the skin. Normally, tiny spherical grains called lamellar granules migrate upwards through the skin, depositing lipids into the intercellular spaces of the skin’s uppermost layer. These lipids act as a protective barrier against bacteria and infection.

In patients with HI, these lamellar granules are formed abnormally; the ABCA12 gene may play a critical role in their formation, explaining the defects in the epidermal barrier seen in this disorder.

Until now, pre-natal screening tests for HI were often unreliable and inconclusive, involving risky, invasive procedures such as foetal skin biopsies. Professor Kelsell added: “By identifying ABCA12, our team has provided the molecular clue towards understanding the numerous biological abnormalities seen in HI skin, and established the means for early prenatal DNA diagnosis of HI.” The team’s next step will be to investigate the role of ABCA12 in the skin with financial support from BDF: Newlife.

Sian Wherrett | Source: alphagalileo
Further information: www.ajhg.org
www.qmul.ac.uk

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