A case of incontinentia pigmenti in Japan and its genetic examination

The common NF-κB essential modulator (NEMO) gene rearrangement in Korean patients with incontinentia pigmenti

Incontinentia pigmenti (IP) is a rare X-linked dominant disorder characterized by highly variable abnormalities of the skin, eyes and central nervous system. A mutation of the nuclear factor-κB essential modulator (NEMO) located at Xq28 is believed to play a role in pathogenesis and the mutation occurs mostly in female patients due to fatal consequence of the mutation in males in utero. This study was designed to identify the common NEMO rearrangement in four Korean patients with IP. Deletion of exons 4 to 10 in the NEMO, the most common mutation in IP patients, was detected in all of the patients by the use of long-range PCR analysis. This method enabled us to discriminate between NEMO and pseudogene rearrangements. Furthermore, all of the patients showed skewed XCI patterns, indicating pathogenicity of IP was due to cells carrying the mutant X chromosome. This is the first report of genetically confirmed cases of IP in Korea.

NEMO gene mutations in Chinese patients with incontinentia pigmenti

BACKGROUND/PURPOSE

Incontinentia pigmenti is a rare, X-linked, dominant genodermatosis affecting skin, teeth, eyes, and central nervous system. Symptoms are associated with mutations in the nuclear factor-kappa B essential modulator (NEMO) gene on chromosome Xq28. Here, a subpopulation of Chinese patients with incontinentia pigmenti were examined to investigate the frequency and pattern of NEMO mutations, and to analyze their clinical features.

METHODS

From January 1996 to August 2006, 52 participants (21 probands and 31 family members) were screened for symptoms of incontinentia pigmenti and NEMO gene mutations. We designed a NEMO-specific PCR primer, referred to as In2S, to detect a deletion of exon 4-10 of the NEMO gene, which represents the mutation most frequently associated with incontinentia pigmenti. For participants without this deletion, all exons were sequenced to screen for other NEMO mutations. In addition, the clinical manifestations and family histories of the participants were analyzed.

RESULTS

Exon 4-10 was deleted in 13 probands, and one proband had a novel point mutation (G549C) in exon 5 that converted a glutamine to a histidine. Seven probands (33%) had no mutation in any of the exons of the NEMO gene. One of four participants who presented with hyperpigmentation also had the exon 4-10 deletion. One patient had a positive family history before the study took place, but no NEMO mutation was identified in any of the family members. Remarkably, the mothers of three of the probands exhibited the exon 4-10 deletion; however, their clinical manifestations were subtle and unrecognizable.

CONCLUSION

Mutational analysis of the NEMO gene was helpful in diagnosing incontinentia pigmenti among participants with a nearly normal phenotype or an incomplete form of the disease that only caused hyperpigmentation symptoms.

Vaccination as a probable cause of incontinentia pigmenti reactivation

We report a female infant with recurrent biopsy-proven vesicobullous incontinentia pigmenti occurring after her 12-month and 18-month immunizations. To our knowledge, incontinentia pigmenti vesicobullous recurrence following immunizations has not been reported. We propose that vaccinations may serve as triggers for incontinentia pigmenti reactivation.