OBJECTIVETo elucidate the pathogenic genes in a pedigree with autosomal dominant ichthyosis vulgaris (IV).

METHODSLinkage analysis was performed by using STR markers in chromosome 1, and mutation detection was used to screen for FLG gene mutation.

RESULTSA maximum two-point Lod score of 3.46 (theta=0) was obtained at D1S2696. Haplotype analysis placed the critical region in a 15-CM interval defined by D1S2726 and D1S305, but no mutation of FLG was found in our IV patients.

CONCLUSIONThe pathologic gene of the IV family locates near D1S2696, and the FLG gene may not ruled out from the pathologic genes.

Female ; Humans ; Ichthyosis Vulgaris ; genetics ; Male ; Pedigree

To investigate the gene mutation in a pedigree with X-linked ichthyosis (XLI) and to explore the relationship between the mutation and its clinical manifestations, genomic DNA of affected members, the normal member of the pedigree and 50 unrelated normal members was extracted with a whole blood genomic DNA extraction kit and the DNA was used as a template for the polymerase chain reaction (PCR)-mediated amplification of exon 1 and exon 10 of the STS gene. hHb6 (human hair basic keratin) gene was used as the internal control. Our results showed that the STS gene was deleted in affected members in the pedigree with X-linked ichthyosis. The normal member of the pedigree and 50 unrelated normal members had no such deletion. The proband and his mother had products in the internal control after PCR amplification. The blank control had no product. It is concluded that deletion of the STS gene existed in this pedigree with X-linked ichthyosis, and it is responsible for the unique skin lesions of X-linked ichthyosis.
Gene Deletion ; Ichthyosis, X-Linked/*genetics ; Pedigree ; Steryl-Sulfatase/*genetics

OBJECTIVE: To carry out pedigree analysis for a rare child with comorbid X-linked ichthyosis (XLI) and Duchenne muscular dystrophy (DMD). METHODS: Whole exome sequencing (WES) and multiple ligation-dependent probe amplification (MLPA) were used to detect potential deletions in the STS and DMD genes. RESULTS: The proband was found to harbor hemizygous deletion of the STS gene and exons 48 to 54 of the DMD gene. CONCLUSION The child has comorbid XLI and DMD, which is extremely rare.
Child ; Dystrophin/genetics* ; Exons ; Gene Deletion ; Genetic Testing ; Humans ; Ichthyosis/genetics* ; Muscular Dystrophy, Duchenne/genetics* ; Mutation

Autosomal recessive congenital ichthyosis (ARCI) is characterized by being born as collodion babies, hyperkeratosis, and skin scaling. We described a collodion baby at birth with mild ectropion, eclabium, and syndactyly. Whole exome sequencing showed a compound heterozygous variant c.[56C>A], p.(Ser19X) and c.[100G>A], p.(Ala34Thr) in the PNPLA1 gene [NM_001145717; exon 1]. The protein encoded by PNPLA1 acts as a unique transacylase that specifically transfers linoleic acid from triglyceride to ω-hydroxy fatty acid in ceramide, thus giving rise to ω-O-acylceramide, a particular class of sphingolipids that is essential for skin barrier function. The variant was located in the patatin core domain of PNPLA1 and resulted in a truncated protein which could disrupt the function of the protein. This case report highlights a novel compound heterozygous mutation in PNPLA1 identified in a Chinese child.
Humans ; Infant, Newborn ; Acyltransferases/genetics* ; Ceramides/metabolism* ; Collodion ; Ichthyosis, Lamellar/genetics* ; Lipase/metabolism* ; Mutation ; Phospholipases/genetics*

OBJECTIVETo identify potential mutations in a Chinese collodion baby.

METHODSThe patient was investigated clinically. DNA was extracted from peripheral blood of the baby and his parents. All coding exons(exons 2-15) and splicing sites of transglutaminase 1(TGM1) were amplified by polymerase chain reaction (PCR). Mutation detection was performed by directed sequencing of the PCR products. A total of 100 healthy unrelated subjects were used as controls. Haplotypes were constructed with microsatellites flanking the locus, and TGM1 genotypes of the family were used to determine parental origins of the mutations. CLUSTAL X (1.81) was employed to analyze cross-species conservation of the mutant protein sequence.

RESULTSThe boy was found to be a compound heterozygote for two novel mutations: c.420A>G (I140M) from his father and c.832G>A (G278R) from his mother, with the former occurring in the transglutaminase N domain and the latter between transglutaminase N and transglutaminase-like domains. Both mutations were absent from the control subjects.

CONCLUSIONThe boy's condition was caused by two novel compound heterozygous mutations of c.420A>G and c.832G>A of TGM1. Author's results may provide new clues for molecular diagnosis of this disease.

Case-Control Studies ; China ; Heterozygote ; Humans ; Ichthyosis, Lamellar ; genetics ; Infant ; Male ; Mutation ; Pedigree ; Transglutaminases ; genetics

A specialized tissue type, the keratinizing epithelium, protects terrestrial mammals from water loss and noxious physical, chemical and mechanical insults. This barrier between the body and the environment is constantly maintained by reproduction of inner living epidermal keratinocytes which undergo a process of terminal differentiation and then migrate to the surface as interlocking layers of dead stratum corneum cells. These cells provide the bulwark of mechanical and chemical protection, and together with their intercellular lipid surroundings, confer water-impermeability. Much of this barrier function is provided by the cornified cell envelope (CE), an extremely tough protein/lipid polymer structure formed just below the cytoplasmic membrane and subsequently resides on the exterior of the dead cornified cells. It consists of two parts: a protein envelope and a lipid envelope. The protein envelope is thought to contribute to the biomechanical properties of the CE as a result of cross-linking of specialized CE structural proteins by both disulfide bonds and N(epsilon)-(gamma-glutamyl)lysine isopeptide bonds formed by transglutaminases. Some of the structural proteins involved include involucrin, loricrin, small proline rich proteins, keratin intermediate filaments, elafin, cystatin A, and desmosomal proteins. The lipid envelope is located on the exterior of and covalently attached by ester bonds to the protein envelope and consists of a monomolecular layer of omega-hydroxyceramides. These not only serve of provide a Teflon-like coating to the cell, but also interdigitate with the intercellular lipid lamellae perhaps in a Velcro-like fashion. In fact the CE is a common feature of all stratified squamous epithelia, although its precise composition, structure and barrier function requirements vary widely between epithelia. Recent work has shown that a number of diseases which display defective epidermal barrier function, generically known as ichthyoses, are the result of genetic defects of the synthesis of either CE proteins, the transglutaminase 1 cross-linking enzyme, or defective metabolism of skin lipids.
Animal ; Cell Membrane/metabolism ; Epidermis/metabolism* ; Epidermis/chemistry* ; Human ; Ichthyosis/metabolism ; Ichthyosis/genetics ; Keratinocytes/metabolism* ; Keratinocytes/chemistry ; Membrane Lipids/metabolism* ; Membrane Proteins/metabolism* ; Protein-Glutamine gamma-Glutamyltransferase/metabolism

Adult ; China ; Female ; Humans ; Ichthyosis Vulgaris ; diagnosis ; genetics ; Male ; Middle Aged ; Pedigree ; Young Adult

Adult ; Child, Preschool ; Female ; Humans ; Ichthyosis Vulgaris ; genetics ; Infant ; Male ; Mutation ; Pedigree

OBJECTIVETo explore the pathogenesis of a patient featuring azoospermia and steroid sulfatase deficiency.

METHODSPolymerase chain reaction (PCR), G-banded karyotyping and Illumina Human CytoSNP-12 Beadchip analysis were conducted.

RESULTSSTS sites PCR showed that there was no deletion in the AZF zone. G-banding analysis indicated an unknown structural change in chromosome X, which was verified by single nucleotide polymorphism array (SNP array) as a 5.4 Mb deletion in Xp22.31-p22.33.

CONCLUSIONThe Xp22.31-p22.33 deletion probably underlies the Kallman syndrome and steroid sulfatase defect in the patient.

Adult ; Humans ; Ichthyosis, X-Linked ; genetics ; Kallmann Syndrome ; genetics ; Karyotyping ; Male ; Polymerase Chain Reaction ; Polymorphism, Single Nucleotide

X-linked ichthyosis (XLI) is a metabolic disease with steroid sulfatase deficiency and often occurs at birth or shortly after birth. The encoding gene of steroid sulfatase, STS, is located on the short arm of the X chromosome, and STS deletion or mutation can lead to the development of this disease. This study collected the data on the clinical phenotype from a family, and the proband, a boy aged 11 years with full-term vaginal delivery, had dry and rough skin and black-brown scaly patches, mainly in the abdomen and extensor aspect of extremities. Peripheral blood samples were collected from each family member and DNA was extracted. Multiplex ligation-dependent probe amplification (MLPA) was used to measure the copy number of STS on the X chromosome. Whole-genome microarray was used to determine the size of the segment with microdeletion in the X chromosome. MLPA was then used for prenatal diagnosis for the mother of the proband. The results revealed that the proband and another two male patients had hemizygotes in STS deletion. Gene microarray identified a rare deletion with a size of 1.6 Mb at Xp22.31 (chrX: 6,516,735-8,131,442). Two female family members were found to be carriers. Prenatal diagnosis showed that the fetus carried by the proband's mother was a carrier of this microdeletion. This study showed STS gene deletion in this family of XLI, which causes the unique skin lesions of XLI. MLPA is a convenient and reliable technique for the molecular and prenatal diagnosis of XLI.
Child ; Humans ; Ichthyosis, X-Linked ; diagnosis ; genetics ; Male ; Mutation ; Polymorphism, Single Nucleotide ; Prenatal Diagnosis ; Steryl-Sulfatase ; genetics