Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: UNIPROT:Q00604 (X-linked)
16,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An assay of cultured skin fibroblasts identified several individuals with 3 beta-hydroxysteroid-sulphate sulphatase deficiency. All patients with this inborn error of metabolism had clinically apparent ichthyosis and a family history of this skin disorder compatible with X-linked inheritance. It is concluded that steroid-sulphatase deficiency is the bio-chemical basis of at least some cases of X-linked ichthyosis.
...
PMID:X-linked ichthyosis due to steroid-sulphatase deficiency. 7 68

Steroid sulphatase activity was determined in cultured fibroblasts from 25 individuals with X-linked ichthyosis from four countries. All those with X-linked disease had markedly reduced enzyme levels compared with controls and patients with other types of ichthyosis. X-linked ichthyosis seems to be the result of a common mutation affecting the expression of steroid-sulphatase activity.
...
PMID:Enzymatic basis of typical X-linked icthyosis. 8 Jun 84

An aromatic retinoid (Ro-10/9359) was used for oral treatment of five cases of ichthyosis (three lamellar, two X-linked. Complete clearing of the skin lesions was achieved in all five patients within 24.2 +/- 3.2 days (X-linked 21.75 +/- 6.5, lamellar 23 days). Histopathology showed reduction of the hyperkeratosis, and thickening of the granular layer. Clinical side effects were of mild intensity and included cheilitis, conjunctivitis and pruritus. All side effects were reversible upon reduction of the daily dosage. In three patients treatment was discontinued after clearing of lesions. Fresh lesions re-appeared 6 weeks later. One patient with X-linked ichthyosis developed two recurrences during maintenance treatment; one patient with lamellar ichthyosis was kept in complete remission for 9 weeks on a reduced daily dosage.
...
PMID:Oral treatment of ichthyosis with an aromatic retinoid. 70

The characterization of steroid sulfatase (STS) gene mutation from seven X-linked ichthyotic patients was performed by multiple polymerase chain reaction (MPCR) which amplified two specific regions at the 5' and 3' end of STS gene. The results indicated that five out seven patients were found to have entire STS gene deletion. Two other cases and five patients' mothers showed two amplification fragments. So did two cases of dominant ichthyosis vulgaris. It was further ascertained that entire gene deletion is the main mutation of STS locus in Chinese population. MPCR is a rapid and simple method for gene diagnosis of X-linked ichthyosis.
...
PMID:[Gene deletion of X-linked ichthyosis]. 132 47

The clinical and histologic distinction between X-linked recessive and autosomal dominant ichthyosis was studied by evaluating 12 classical differential parameters in 85 patients. Thirty-three of them had X-linked and 52 autosomal dominant ichthyosis. Eight of these parameters were generally helpful in the differential diagnosis: age of onset, severity of involvement, scale size, chapping of hands and feet, atopic background, influence of warm weather, corneal opacities and state of the granular layer. Involvement of skin folds, keratosis pilaris, increased palmo-plantar markings and improvement with age were unreliable. In the literature, age of onset and corneal opacities were additionally found unreliable; the histology was of limited value in two reports. Therefore, we concluded that the herein evaluated differential criteria seem to be valid mainly when considering groups of patients. For the individual case, an error in diagnosis, particularly in X-linked ichthyosis, is not rare when relying solely on these criteria. When in doubt, determination of steroid sulphatase activity is mandatory.
...
PMID:Autosomal dominant ichthyosis and X-linked ichthyosis. Comparison of their clinical and histological phenotypes. 168 74

The distal portion of the short arm of the human X chromosome (Xp) exhibits many unique and interesting features. Distal Xp contains the pseudoautosomal region, a number of disease loci, and several cell-surface markers. Several genes in this area have also been observed to escape X-chromosomal inactivation. The characterization of new polymorphic loci in this region has permitted the construction of a refined multipoint linkage map extending 15 cM from the Xp telomere. This interval is known to contain the loci for the diseases X-linked ichthyosis, chondrodysplasia punctata, and Kallmann syndrome, as well as the cell-surface markers Xg and 12E7. This region also contains the junction between the pseudoautosomal region and strictly X-linked sequences. The locus MIC2 has been demonstrated by linkage analysis to be indistinguishable from the pseudoautosomal junction. The steroid sulfatase locus has been mapped to an interval adjacent to the DXS278 locus and 6 cM from the pseudoautosomal junction. The polymorphic locus (STS) DXS278 was shown to be informative in all families studied, and linkage analysis reveals that the locus represents a low-copy repeat with at least one copy distal to the STS gene. The generation of a multipoint linkage map of distal Xp will be useful in the genetic dissection of many of the unique features of this region.
...
PMID:A multipoint linkage map of the distal short arm of the human X chromosome. 186 90

Elastase inhibiting activity (EIA) has been observed in normal skin as a response to surface trauma, immediately following the intra-epidermal accumulation of polymorphonuclear leukocytes (PMN). In order to elucidate the relation between EIA and inflammation, the inhibiting activity was assessed in skin samples of scaling dermatoses (a) without significant inflammation: erythrodermic autosomal recessive lamellar ichthyosis (EARLI), non-erythrodermic autosomal recessive lamellar ichthyosis (NEARLI), X-linked recessive ichthyosis (XLRI) and X-linked dominant chondrodysplasia punctata (XLD-CDP); (b) with predominantly mononuclear cell infiltration: atopic dermatitis; (c) with mixed infiltration of PMN and mononuclear cells: psoriasis and Netherton syndrome. All skin disorders investigated showed an increased EIA as compared with normal skin. Scales from psoriatic lesions, EARLI and Netherton syndrome showed a statistically significant increase in EIA above that observed in other monogenic disorders of keratinization NEARLI, XLRI XLD-CDP and above atopic dermatitis. EIA proved to be an indicator for abnormal keratinization with a marked expression when a mixed infiltrate is present in the skin.
...
PMID:Elastase-inhibiting activity in scaling skin disorders. 196 1

The murine X-linked steroid sulfatase gene (Sts) normally escapes X inactivation. However, we have observed that most long-term murine cell cultures are deficient in STS activity even though only the L cells are known to be derived from an STS- mouse strain. To investigate this phenomenon, we developed a selective system whereby STS+ cells could be selected from STS- populations. The system is based on making cells dependent on cholesterol-sulfate as the sole source of cholesterol, allowing only STS+ cells to grow. Two STS- cell lines, after treatment with either 5-azacytidine (5AC) or ethyl methane sulfonate (EMS), yielded STS+ revertants, suggesting that their STS- phenotype was due to hypermethylation. To study the evolution of STS- cell lines, we established XO and XX primary lines from STS+ strains; the XX cell line remained STS+ after more than 200 cell doublings whereas the XO became STS- after about 100 doublings. Treatment of this STS- XO cell line with 5AC produced clones with restored STS activity. All the revertants showed a growth disadvantage compared to their STS- counterparts. It would appear that aberrant methylation is the basis for much of the STS deficiency observed in established murine lines and that its propagation is due to the growth advantage of STS- over STS+ cells.
...
PMID:Inactivation and reactivation of sex-linked steroid sulfatase gene in murine cell culture. 245 Apr 5

Steroid sulfatase (STS) deficiency is the biochemical defect of X-linked ichthyosis (XLI), one of the most common X-linked disorders. We studied 57 European unrelated patients affected by STS deficiency. Twenty-eight patients were from Italy, 24 from the United Kingdom, 4 from The Netherlands, and 1 from Denmark. In two families XLI was associated with Kallmann syndrome (hypogonadotropic hypogonadism and anosmia). STS enzymatic activity was profoundly deficient in all cases. Direct DNA analysis, using cDNA and genomic probes from the STS gene and linked regions, demonstrated heterogeneity of the molecular defect. Forty-eight patients (84%) showed a deletion of the STS gene. In 44 cases the deletion also involved the STS flanking locus DXS237. In 1 patient a partial deletion of the STS gene was detected and in 9 patients no evidence of deletion was found. Locus DXS31 (probe M1A), previously mapped to Xp22.3-pter, was not deleted either in 24 patients with X-linked ichthyosis or in two families with X-linked ichthyosis associated with Kallmann syndrome. Consequently, the following loci order could be suggested: telomere--DXS31--(DXS237, STS)--Kallmann--centromere. Immunoblotting experiments, performed using anti-STS polyclonal antibodies, revealed the absence of cross-reacting material to STS in all cases tested, including 4 patients without evidence of deletions.
...
PMID:Molecular heterogeneity of steroid sulfatase deficiency: a multicenter study on 57 unrelated patients, at DNA and protein levels. 264 67

We report on a male infant with X-linked ichthyosis, X-linked Kallmann syndrome, and X-linked recessive chondrodysplasia punctata (CPXR). Chromosome analysis showed a terminal deletion with a breakpoint at Xp22.31, inherited maternally. This patient confirms the localization of XLI, XLK, and CPXR to this region of the X chromosome and represents an example of a "contiguous gene syndrome." A comparison of the manifestations of patients with CPXR, warfarin embryopathy, and vitamin K epoxide reductase deficiency shows a remarkable similarity. However, vitamin K epoxide reductase deficiency does not appear to be the cause of CPXR. We propose that CPXR may be due to a defect in a vitamin K-dependent bone protein such as vitamin K-dependent bone carboxylase, osteocalcin, or matrix Gla protein.
...
PMID:Male infant with ichthyosis, Kallmann syndrome, chondrodysplasia punctata, and an Xp chromosome deletion. 275 Jul 77


1 2 3 4 5 6 Next >>

---