HaMut Lam

A Missense Mutation in the Zinc-Finger Domain of the Human Hairless Gene Underlies Congenital Atrichia in a Family of Irish Travellers

Congenital atrichia is a rare, recessively inherited form of hair loss affecting both males and females and is characterized by a complete absence of hair follicles. Recently, a mutation in the human hairless gene was implicated in the pathogenesis of congenital atrichia. The human hairless gene encodes a putative single zinc-finger transcription-factor protein with restricted expression in brain and skin, which is believed to regulate catagen remodeling in the hair cycle. In this study, we report the identification of a missense mutation in the zinc-finger domain of the hairless gene in a large inbred family of Irish Travellers with congenital atrichia. The mutated arginine residue is conserved among human, mouse, and rat, suggesting that it is of significant importance to the function of the zinc-finger domain.

A Locus for Autosomal Recessive Hypodontia with Associated Dental Anomalies Maps to Chromosome 16q12.1

We sincerely thank the family members who participated in this study. The Pakistan Science Foundation provided the support necessary for M.A. to visit the family members. This work was supported, in part, by National Institutes of Health–National Human Genome Research Institute grant HG-00008 (to J.O.) and by a grant from the National Institutes of Health–National Institute of Arthritis, Musculoskeletal and Skin Diseases, Skin Disease Research Center (to J.O. and A.M.C.).

A recurrent mutation in the loricrin gene underlies the ichthyotic variant of Vohwinkel syndrome

Summary Vohwinkel syndrome (VS) is a family of genodermatoses which exhibits extensive clinical and genetic heterogeneity. Here, we studied a pedigree originating from the UK with typical features of the ichthyotic variant of VS and identified a recurrent insertion mutation in the loricrin gene resulting in a mutant polypeptide with an unusual C terminus. Functional studies in transgenic mice have shown that the accumulation of mutant loricrin in the nucleus appears to interfere with the later stages of epidermal differentiation, thereby explaining the clinical manifestations of ichthyosis, keratoderma and pseudoainhum. Our findings extend the body of evidence implicating mutations in the loricrin gene as the underlying cause of VS.

Identification of a Founder Mutation in the Protoporphyrinogen Oxidase Gene in Variegate Porphyria Patients from Chile

Variegate porphyria (VP; OMIM 176200) is characterized by a partial defect in the activity of protoporphyrinogen oxidase (PPO), the seventh enzyme of the porphyrin-heme biosynthetic pathway. The disease is usually inherited as an autosomal dominant trait displaying incomplete penetrance. In an effort to characterize the spectrum of molecular defects in VP, we identified 3 distinct mutations in 6 VP families from Chile by PCR, heteroduplex analysis, automated sequencing, restriction enzyme digestion and haplotyping analysis. The mutations consisted of 2 deletions and 1 missense mutation, designated 1239delTACAC, 1330delT and R168H. The occurrence of the missense mutation R168H had been reported previously in American, German and Dutch VP families, suggesting that this may represent a frequent recurrent mutation. Interestingly, the mutation 1239delTACAC was found in patients from 4 unrelated families living in different parts of Chile, suggesting that it might represent a common mutation in Chile. Haplotype analysis using 15 microsatellite markers which closely flank the PPO gene on chromosome 1q22, spanning approximately 21 cM, revealed the presence of R168H on different haplotypes in 6 VP patients from 3 unrelated families. In contrast, we found the occurrence of 1239delTACAC on the same chromosome 1 haplotype in 11 mutation carriers from 4 unrelated families with VP. These findings are consistent with R168H representing a hotspot mutation and 1239delTACAC existing as a founder mutation in the PPO gene. Our data comprise the first genetic studies of the porphyrias in South America and will streamline the elucidation of the genetic defects in VP patients from Chile by allowing an initial screening for the founder mutation 1239delTACAC.

Molecular basis of variegate porphyria: a de novo insertion mutation in the protoporphyrinogen oxidase gene

Abstract The porphyrias are disorders that result from the inherited or acquired dysregulation of one of the eight enzymes in the heme biosynthetic pathway. Variegate porphyria (VP) is characterized by deficiencies in protoporphyrinogen oxidase (PPO) and has recently been genetically linked (Z = 6.62) to the PPO gene on chromosome 1q21. In this study, we have identified two sequence variants in the PPO gene in a family with VP. The first is a neutral polymorphism at the -47 position of intron 2; this polymorphism is present in the general population and is unlikely to underlie the VP phenotype. The second is a mutation in the PPO gene in a patient with VP; the mutation consists of an apparently de novo 2-bp insertion in exon 3 of PPO and results in a frameshift and downstream premature termination codon. These data establish that a frameshift mutation in PPO is the underlying mutation in this patient with VP and explain the sporadic occurrence of the phenotype in this family.

C73R is a hotspot mutation in the uroporphyrinogen III synthase gene in congenital erythropoietic porphyria

Congenital erythropoietic porphyria (CEP) results from profoundly deficient activity of the fourth enzyme of the haeme biosynthetic pathway, uroporphyrinogen III synthase (UROIIIS). CEP is a rare, recessively inherited disorder, and mutations in the UROIIIS gene detected in CEP patients are heterogeneous. The notable exception to this rule is a single missense mutation, designated C73R, which represents over 40% of all mutant UROIIIS alleles. In this study, we investigated three separate families with CEP from different ethnic backgrounds. We performed haplotype analysis using two microsatellite markers that closely flank the UROIIIS gene on chromosome 10q24, spanning a region of 4 cM on the GB4 linkage panel. Haplotype analysis revealed the occurrence of C73R on different haplotypes in four out of four disease chromosomes studied. The results are consistent with the hypothesis that C73R is a hotspot mutation for CEP, and does not represent wide dispersion of a single ancestral mutant C73R allele.

Identification of a recurrent mutation in the human hairless gene underlying atrichia with papular lesions

Identification of mutations in the hairless (HR) gene in patients with atrichia with papular lesions (APL) has proven of critical importance, as it provides a basis for the differentiation between APL and alopecia universalis. The establishment of the diagnostic criteria for APL has triggered the identification of a large number of APL patients among those suspected to suffer from alopecia universalis. This advancement has resulted in the discovery of an increasing number of hairless mutations in both consanguineous and nonconsanguineous APL families. Here, we report the identification of a homozygous mutation, 3434delC, in an APL patient of Arab‐‐Palestinian descent. The proband is a 23‐year‐old female with generalized scalp and body alopecia. To confirm the diagnosis of APL and to identify the specific mutation, we sequenced the hairless gene. Sequencing of all exons of the hairless gene revealed a homozygous frameshift mutation, 3434delC, in exon 18. Interestingly, the same mutation was previously identified in an Arab‐‐Israeli family. Our data suggest that the 3434delC mutation most likely represents a founder mutation in this geographical region.