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Neurofibromatosis type 1 (NF1) is a common genetic disorder caused by inactivation of neurofibromin, a protein capable of modulating signal transduction by activating Ras-GTPase activity. We have used cDNA cloning and Northern blot analysis to confirm the NF1 gene produces alternatively polyadenylated mRNAs with 3' untranslated regions (3' UTR) that show striking evolutionary conservation. Scanning of the 3'UTRs for genetic variation revealed three common sequence polymorphisms (> 30% heterozygosity), one less informative polymorphism (approximately 5% heterozygosity) and one rare variant (1/144 chromosomes). These differences were used to examine relative levels of expression of normal and mutant NF1 alleles in lymphoblast cell lines and in one case, autopsy tissue, from patients with NF1. Unequal allelic expression (up to 4-fold) was observed in a subset of both sporadic and familial NF1 cases. Where linkage phase could be determined, the allele segregating with the disorder displayed a relative reduction in expression. However, the magnitude of this effect was variable suggesting the operation of additional, non-genetic factors in determining the degree of relative expression of the mutant allele.
Somat Cell Mol Genet 1998 Mar
PMID:Genetic variation in the 3' untranslated region of the neurofibromatosis 1 gene: application to unequal allelic expression. 991 10

The biosynthesis of estrogens is catalyzed by an enzyme known as aromatase (aromatase cytochrome P450; P450 arom; the product of the CYP19 gene). In recent years a number of patients have been described suffering from aromatase deficiency due to mutations in the CYP19 gene, resulting in the synthesis of a non-functional gene product and a resulting failure to synthesize estrogens. Males with this condition have sustained linear growth into adulthood resulting from failure of epiphyseal closure. Osteopenia and reduced bone mineral density and bone age are also characteristic. Lack of circulating estrogens is accompanied by elevated testosterone and gonadotropins. One of the men had macroorchidism with testicular volumes in excess of 25 ml (Morishima et al. J. Clin. Endocrinol. Metab. 80, 3689, 1995). Semen analysis was not performed on this patient, but it is of note that the one patient described with estrogen insensitivity due to a mutation in the estrogen receptor had a normal sperm count, although motility was decreased (Smith et al., New England J. Med. 331. 1056, 1994). By contrast, the other man with aromatase deficiency had testicular volumes of only 8 ml per testes, and was infertile. Sperm analysis revealed a count of 1 million/ml with 100% immotile sperm (Carani et al. New England J. Med. 337, 91, 1997). However, his clinical picture is confused by the fact that another male sibling has azoospermia, but has no CYP19 mutation, suggesting that the infertility problem may be due to a second genetic condition in this consanguineous family. Recently mice have been generated in which the aromatase (CYP19) gene and the gene encoding the estrogen receptor-alpha have been inactivated by targeted disruption (ArKO and ERKO mice, respectively). Male ERKO mice are infertile with atrophy of the testes and seminiferous tubule dysmorphogenesis resulting in decreased spermatogenesis and inacive sperm. By contrast the ArKO mice are initially fertile and sire litters of normal size ad frequency, however with advancing age the number of litters sired decreases relative to those of wild type litter ates. In contrast to the ERKO mice, light microscopic analysis of the testes of the ArKO mice reveals no gross morphological abnormalties and the testes are of normal size. Following recent observations that the estrogen receptor-beta isoform is highly expressed in seminiferous epthelium, spermatids and spermatocytes, it is conceivable that the relatively high levels of estrogens present in the ERKO mice can act through the ER-beta to cause infertility by a direct action on the testes. In this context it is well known that administration of high levels of estrogen to men results in infertility. It is apparent that studies of human and mouse models with disruptions of aromatase and the estrogen receptor have as yet failed to clarify the role of estrogens in male fertility and testicular function. Development of an ER-beta knockout mouse, or else a double, or even triple, knockout model, may be required in order to resolve these issues.
Mol Cell Endocrinol 1998 Oct 25
PMID:Genetic mutations resulting in estrogen insufficiency in the male. 992 99

Hermansky-Pudlak syndrome (HPS) is a genetic disorder characterized by defective lysosome-related organelles. Here, we report the identification of two HPS patients with mutations in the beta 3A subunit of the heterotetrameric AP-3 complex. The patients' fibroblasts exhibit drastically reduced levels of AP-3 due to enhanced degradation of mutant beta 3A. The AP-3 deficiency results in increased surface expression of the lysosomal membrane proteins CD63, lamp-1, and lamp-2, but not of nonlysosomal proteins. These differential effects are consistent with the preferential interaction of the AP-3 mu 3A subunit with tyrosine-based signals involved in lysosomal targeting. Our results suggest that AP-3 functions in protein sorting to lysosomes and provide an example of a human disease in which altered trafficking of integral membrane proteins is due to mutations in a component of the sorting machinery.
Mol Cell 1999 Jan
PMID:Altered trafficking of lysosomal proteins in Hermansky-Pudlak syndrome due to mutations in the beta 3A subunit of the AP-3 adaptor. 1002 75

Androgen excess is one of the most common reproductive endocrinologic abnormalities of women. Excluding specific etiologies such as androgen-secreting neoplasms and non-classic adrenal hyperplasia, the majority of androgen excess is functional in nature. It is clear that studies concerned with the heritability of this disorder greatly depend on how it is defined. Patients with the PolyCystic Ovary Syndrome (PCOS) are clearly included. However, we argue that ovulatory women with hirsutism and hyperandrogenemia should also be considered as affected which, together with PCOS, comprise the population of women we define as having Functional Androgen Excess (FAE). Our data, and that of others, suggests that FAE/PCOS is a familial disorder, with a single autosomal dominant gene effect and a variable phenotype. Inheritance appears to be equally probable from the maternal as from the paternal side of the family. Nonetheless, our data also suggests that the affection rate among mothers is less than expected, which may be due to decreased fertility of affected mothers, or to our inability to detect the disorder in older, menopausal or hormonally treated individuals. Finally, it appears that a woman's risk for developing PCOS is approximately 40% if her sister is affected. While considering FAE/PCOS to be a dominant genetic disorder with a high degree of expressivity, its highly variable phenotype suggests that besides a single genetic mutation other factors must be contributing to the development and expression of the disorder. These factors may include environmental influences (such as fat and carbohydrate consumption) exercise level, peripubertal stress and/or hormonal exposure; and additional genetic defects, such as those that regulate insulin secretion or determine body type.
J Steroid Biochem Mol Biol
PMID:Heritability and the risk of developing androgen excess. 1041

Anhidrotic ectodermal dysplasia (EDA) is a human genetic disorder of impaired ectodermal appendage development. The EDA gene encodes isoforms of a novel transmembrane protein, ectodysplasin. The sequence of the longest isoform includes an interrupted collagenous domain of 19 Gly-X-Y repeats and a motif conserved in the tumor necrosis factor (TNF)-related ligand family. In order to understand better the function of the ectodysplasin protein molecule and its domains, we have studied the processing and localization of wild-type and mutated isoforms in transfected human fetal kidney 293 and monkey kidney COS-1 cells. Similar to other members of collagenous membrane proteins and members of TNF-related ligands, ectodysplasin is a type II membrane protein and it forms trimers. The membrane localization of ectodysplasin is asymmetrical: it is found on the apical and lateral surfaces of the cells where it co-localizes with cytoskeletal structures. The TNF-like motif and cysteines found near the C-terminus are necessary for correct transport to the cell membrane, but the intracellular and collagenous domains are not required for the localization pattern. Our results suggest that ectodysplasin is a new member in the TNF-related ligand family involved in the early epithelial-mesenchymal interaction that regulates ectodermal appendage formation.
Hum Mol Genet 1999 Oct
PMID:Ectodysplasin is a collagenous trimeric type II membrane protein with a tumor necrosis factor-like domain and co-localizes with cytoskeletal structures at lateral and apical surfaces of cells. 1048 78

Age-related macular degeneration (AMD) is increasingly recognized as a complex genetic disorder in which one or more genes contribute to an individual's susceptibility for developing the condition. Twin and family studies as well as population-based genetic epidemiologic methods have convincingly demonstrated the importance of genetics in AMD, though the extent of heritability, the number of genes involved, and the phenotypic and genetic heterogeneity of the condition remain unresolved. The extent to which other hereditary macular dystrophies such as Stargardts disease, familial radial drusen (malattia leventinese), Best's disease, and peripherin/RDS-related dystrophy are related to AMD remains unclear. Alzheimer's disease, another late onset, heterogeneous degenerative disorder of the central nervous system, offers a valuable model for identifying the issues that confront AMD genetics.
Mol Vis 1999 Nov 03
PMID:The genetics of age-related macular degeneration. 1056 53

Age-related macular degeneration (AMD) is increasingly recognized as a complex genetic disorder in which one or more genes contribute to an individual's susceptibility for developing the condition. Twin and family studies as well as population-based genetic epidemiologic methods have convincingly demonstrated the importance of genetics in AMD, though the extent of heritability, the number of genes involved, and the phenotypic and genetic heterogeneity of the condition remain unresolved. The extent to which other hereditary macular dystrophies such as Stargardts disease, familial radial drusen (malattia leventinese), Best's disease, and peripherin/RDS-related dystrophy are related to AMD remains unclear. Alzheimer's disease, another late onset, heterogeneous degenerative disorder of the central nervous system, offers a valuable model for identifying the issues that confront AMD genetics.
Mol Vis 1999 Nov 03
PMID:What can we learn about age-related macular degeneration from other retinal diseases? 1056 54

Cockayne syndrome (CS) is a human genetic disorder characterized by UV sensitivity, developmental abnormalities, and premature aging. Two of the genes involved, CSA and CSB, are required for transcription-coupled repair (TCR), a subpathway of nucleotide excision repair that removes certain lesions rapidly and efficiently from the transcribed strand of active genes. CS proteins have also been implicated in the recovery of transcription after certain types of DNA damage such as those lesions induced by UV light. In this study, site-directed mutations have been introduced to the human CSB gene to investigate the functional significance of the conserved ATPase domain and of a highly acidic region of the protein. The CSB mutant alleles were tested for genetic complementation of UV-sensitive phenotypes in the human CS-B homologue of hamster UV61. In addition, the CSB mutant alleles were tested for their ability to complement the sensitivity of UV61 cells to the carcinogen 4-nitroquinoline-1-oxide (4-NQO), which introduces bulky DNA adducts repaired by global genome repair. Point mutation of a highly conserved glutamic acid residue in ATPase motif II abolished the ability of CSB protein to complement the UV-sensitive phenotypes of survival, RNA synthesis recovery, and gene-specific repair. These data indicate that the integrity of the ATPase domain is critical for CSB function in vivo. Likewise, the CSB ATPase point mutant failed to confer cellular resistance to 4-NQO, suggesting that ATP hydrolysis is required for CSB function in a TCR-independent pathway. On the contrary, a large deletion of the acidic region of CSB protein did not impair the genetic function in the processing of either UV- or 4-NQO-induced DNA damage. Thus the acidic region of CSB is likely to be dispensable for DNA repair, whereas the ATPase domain is essential for CSB function in both TCR-dependent and -independent pathways.
Mol Biol Cell 1999 Nov
PMID:The ATPase domain but not the acidic region of Cockayne syndrome group B gene product is essential for DNA repair. 1056 57

Cystic fibrosis (CF) is a lethal, hereditary disorder characterized by a neutrophil-dominated inflammation of the lung. We sought to determine whether neutrophils from individuals with CF release more neutrophil elastase (NE) than neutrophils from normal subjects. Our results showed that peripheral blood neutrophils (PBNs) from normal subjects and individuals with CF contained similar amounts of NE, but after preincubation with CF bronchoalveolar lavage (BAL) fluid, significantly more NE was released by CF PBNs, a release that was amplified further by incubation with opsonized Escherichia coli. To determine which components of CF BAL fluid stimulated this excessive NE release from CF PBNs, we repeated the experiments after neutralization or immunoprecipitation of tumor necrosis factor (TNF)-alpha and interleukin (IL)-8 in CF BAL fluid. We found that subsequent NE release from CF PBNs was reduced significantly when TNF-alpha and IL-8 were removed from CF BAL fluid. When TNF-alpha and IL-8 were used as activating stimuli, CF PBNs released significantly greater amounts of NE compared with PBNs from control subjects and individuals with bronchiectasis. These results indicate that CF PBNs respond abnormally to TNF-alpha and IL-8 in CF BAL fluid and react to opsonized bacteria by releasing more NE. This may help explain the increased NE burden seen in this condition.
Am J Physiol Lung Cell Mol Physiol 2000 Jan
PMID:Increased elastase release by CF neutrophils is mediated by tumor necrosis factor-alpha and interleukin-8. 1064 88

Bloom syndrome (BS) is a rare genetic disorder characterized by small body size, photosensitivity, immunodeficiency and a high predisposition to various types of cancer. BLM was identified as the causative gene for BS. The BLM protein is homologous to DNA helicase and has two basic amino acid clusters in its C-terminal region. Previously, we reported that the distal arm of these basic amino acids clusters in the BLM protein functioned as the nuclear localization signal (NLS) of the protein. In this study, we generated plasmid constructs for expression of enhanced green fluorescent protein (EGFP) fused with various BLM protein variants having a mutation with deletions or substitutions in the basic amino acid and analyzed the subcellular localization of the expressed proteins. The EGFP-fused protein containing the basic amino acid cluster region proximal to the C-terminus of BLM helicase was localized exclusively in the nucleus. However, the EGFP-BLM proteins that lacked either Arg1344 or Lys1346 distributed in both the cytoplasm and the nucleus equally. Deletion of Arg1347 also resulted in localization in both the nucleus and cytoplasm, and substitution of Arg1344, Lys1346, Arg1347 or Arg1348 with non-basic amino acids reduced the nuclear localization of BLM protein. Mouse BLM protein which also migrate to the nucleus has two basic amino acid clusters in the C-terminus and the basic amino acids (Lys1346-Pro1347-Lys1348-Arg1349-Arg1350) proximal to the C-terminus are conserved between mouse and human. These findings suggest that the Arg1344-Ser1345-Lys1346-Arg1347 sequence at the C-terminus of the human BLM protein is essential for nuclear localization of this protein.
Int J Mol Med 2000 May
PMID:Characterization of the nuclear localization signal in the DNA helicase responsible for Bloom syndrome. 1076 50

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