Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lesch-Nyhan disease (LND) is an X-linked metabolic disorder caused by lack of activity of the purine salvage enzyme hypoxanthine phosphoribosyltransferase (HPRT) and characterized by hyperuricemia and debilitating neurological manifestations. The mechanisms underlying the neuropathology are not well understood and the principal neurochemical lesion characterized to date is a deficiency of the dopamine system in the basal ganglia. To facilitate the study of mechanism(s) by which HPRT deficiency causes the dopamine defect, we have compared the survival and dopamine phenotype of primary cultures of dopamine neurons derived from HPRT-deficient mice with the dopaminergic neurons from wild-type mice. The survival of dopaminergic neurons from both sources was promoted to an equal extent by glial cell line-derived neurotrophic factor (GDNF), a potent survival factor for dopamine neurons in vitro. Although the survival of the HPRT-deficient neurons was indistinguishable from that of cells derived from wild-type counterparts, the HPRT-deficient cells demonstrated a persistent deficiency of dopamine content and dopamine uptake with increasing neuritic differentiation, indicating that GDNF does not restore the normal phenotype in HPRT-deficient dopamine neurons despite its well-known protective and regenerative properties in several neurodegeneration models. Nevertheless, the demonstration that GDNF trophic support promotes the survival of these dopaminergic neurons will facilitate gaining a better understanding of the neuropathological mechanisms of LND by allowing a more extensive analysis of the cells central to the Lesch-Nyhan phenotype, the dopaminergic neurons of the basal ganglia.
Mol Ther 2000 May
PMID:Characterization of the dopamine defect in primary cultures of dopaminergic neurons from hypoxanthine phosphoribosyltransferase knockout mice. 1093 70

Propionyl-CoA carboxylase (PCC) catalyzes the biotin-dependent carboxylation of propionyl-CoA to d-methylmalonyl-CoA in the mitochondrial matrix. Human PCC is a dodecamer composed of pairs of nonidentical alpha and beta subunits encoded by PCCA and PCCB genes, respectively. Deficiency of PCC results in propionic acidemia (PA), a metabolic disorder characterized by severe metabolic ketoacidosis, vomiting, lethargy, and hypotonia. To date, almost 60 mutations have been reported in both genes. Exon 15 of the beta subunit is one of the two sites where a number of mutations have been identified in PA patients. In the primary betaPCC sequence, these mutations lead to three substitutions (R512C, L519P, and N536D), three truncations (R499X, R514X, and W531X), and one insertion (A51_R514insP). We expressed these mutant proteins in Escherichia coli in which the GroESL complex was overexpressed. The only mutation that does not impact the stability of mutant betaPCC in bacteria is W531X. The remaining mutations lead to either complete (L519P, N536D) or partial (R499X, R512C, A513_R514insP, and R514X) degradation of the mutant subunits. Size-exclusion chromatography revealed that R512C and W531X do not affect the assembly of alphaPCC and betaPCC to active oligomers. Specific activities for these mutant proteins, however, were only 3.9 and 10% of the wild type, respectively. Taken together, the carboxyl-terminal portion of 40 amino acid residues of the beta subunit affects the stability and the assembly of the alpha and beta subunits as well as the carboxylation of propionyl-CoA.
Mol Genet Metab 2000 Dec
PMID:Changes in the carboxyl terminus of the beta subunit of human propionyl-CoA carboxylase affect the oligomer assembly and catalysis: expression and characterization of seven patient-derived mutant forms of PCC in Escherichia coli. 1113 55

Pseudoxanthoma elasticum (PXE) is a relatively rare heritable disorder affecting the skin, eyes and cardiovascular system, with considerable morbidity and mortality. The disease affects the elastic fibers of affected organs, which become progressively calcified. Thus, PXE has been considered as a prototypic heritable connective tissue disorder affecting the elastic fiber system. Recently, PXE has been linked to mutations in the MRP6/ABCC6 gene, a member of the ABC transporter family, expressed primarily in the liver and the kidneys. This information, together with clinical observations suggesting environmental, hormonal and/or dietary modulation of the disease, raises the intriguing possibility that PXE is a primary metabolic disorder at the environment-genome interface.
Trends Mol Med 2001 Jan
PMID:Molecular genetics of pseudoxanthoma elasticum: a metabolic disorder at the environment-genome interface? 1142 82

Propionic acidemia is an inherited metabolic disorder caused by deficiency of propionyl-CoA carboxylase, a dodecameric enzyme composed of alpha-PCC and beta-PCC subunits (encoded by genes PCCA and PCCB) that have been associated with a number of mutations responsible for this disease. To clarify the molecular effect associated with gene alterations causing propionic acidemia, 12 different mutations affecting the PCCB gene (R67S, S106R, G131R, R165W, R165Q, E168K, G198D, A497V, R512C, L519P, W531X, and N536D) were analyzed for their involvement in alpha-beta heteromeric and beta-beta homomeric assembly. The experiments were performed using the mammalian two-hybrid system, which was assayed at two different temperatures to distinguish between mutations directly involved in interaction and those probably affecting polypeptide folding, thus indirectly affecting the correct assembly. Mutations R512C, L519P, W531X, and N536D, located at the carboxyl-terminal end of the PCCB gene, were found to inhibit alpha-beta heteromeric and/or the beta-beta homomeric interaction independently of the cultivation temperature, reflecting their primary effect on the assembly. Two mutations A497V and R165Q did not affect either heteromeric or homomeric assembly. The remaining mutations (R67S, S106R, G131D, R165W, E168K, and G198D), located in the amino-terminal region of the beta-polypeptide, resulted in normal interaction levels only when expressed at the lower temperature, suggesting that these changes could be considered as folding defects. From these results and the clinical manifestations associated with patients bearing the mutations described above, several genotype-phenotype correlations may be established. In general, the temperature-sensitive mutations are associated with a less severe, although variable phenotype. This could correlate with the recent hypothesis that the effect of folding mutations can be influenced by the capacity of the cellular protein quality control machinery, which provides clues to our understanding of the variability of the clinical symptoms observed among the patients bearing these mutations.
Mol Genet Metab 2001 Dec
PMID:Effect of PCCB gene mutations on the heteromeric and homomeric assembly of propionyl-CoA carboxylase. 1174 52

Adrenomyeloneuropathy (AMN) and cerebral childhood adrenoleukodystrophy (CCALD) are the main phenotypic variants of an X-linked inherited metabolic disorder causing demyelination, X-linked adrenoleukodystrophy (X-ALD). It is caused by mutations in the ABCD1 (ALD) gene encoding a peroxisomal ABC transporter. Inactivation of the murine ALD gene does not lead to a detectable clinical phenotype in mice up to 6 months, and no cerebral pathology resembling the childhood form (CCALD) was observed. In this work, we show that older ALD-deficient mice exhibit an abnormal neurological and behavioral phenotype, starting at around 15 months. This is correlated with slower nerve conduction, and with myelin and axonal anomalies detectable in the spinal cord and sciatic nerve, but not in brain. The phenotype of ALD-deficient mice mimics features of human AMN, thus providing a model for investigating the pathogenesis of this disease.
Hum Mol Genet 2002 Mar 01
PMID:Late onset neurological phenotype of the X-ALD gene inactivation in mice: a mouse model for adrenomyeloneuropathy. 1187 44

Porphyria cutanea tarda (PCT) is a human metabolic disorder due to the acquired or genetic impairment of uroporphyrinogen decarboxylase (URO-D) activity, the fifth enzyme of the heme biosynthetic pathway. A classification of inherited and non-inherited forms is based on the enzyme activity levels in red blood cells (RBC). Clinical manifestations of PCT are often precipitated by triggering factors such as alcohol, drug abuse, estrogens, virus infections, hepatotoxic chemicals and hepatic siderosis. We measured URO-D activity in RBC from a large sample of Italian PCT patients in order to define the enzyme activity distribution and to attempt a correlation among activity, risk factors and clinical outcome. Three classes of patients with low, normal and over-normal URO-D activity were defined according to control values. Low URO-D levels were present in 25.8% of patients, suggesting the familial form of PCT (type II). In this group, the outcome of PCT seems to be less influenced by risk factors. Patients with over-normal URO-D activity in RBC deserve further investigation.
Cell Mol Biol (Noisy-le-grand) 2002 Feb
PMID:Levels of uroporphyrinogen decarboxylase (URO-D) in erythrocytes of Italian porphyria cutanea tarda patients. 1192 44

Niemann-Pick type C (NPC) disease is a rare inherited metabolic disorder characterized by hepatosplenomegaly, progressive neurodegeneration, and storage of lipids such as cholesterol and glycosphingolipids in most tissues. The current study was conducted to characterize the Niemann-Pick C1 (NPC1) protein in feline fibroblasts. This was accomplished by generating rabbit polyclonal antibodies against a peptide corresponding to amino acids 1256-1275 of the feline NPC1 protein. The results obtained using immunoblot analysis identified two major proteins that migrated at approximately 140 and 180 kDa. These two proteins were absent when immunoblots were incubated in the presence of feline NPC1 antibody and immunizing peptide, or preimmune serum. Fluorescence microscopy of feline fibroblasts incubated with the feline NPC1 antibody revealed granular staining within the perinuclear region of the cell. This granular staining was diminished when feline fibroblasts were incubated in the presence of feline NPC1 antibody and immunizing peptide, or was completely absent when feline fibroblasts were incubated in the presence of preimmune serum. Additional studies using double-labeled fluorescence microscopy indicated that feline NPC1 partially colocalized with markers for late endosomes/lysosomes, endoplasmic reticulum, and microtubules, but not the trans-Golgi network. In summary, the results presented in this report demonstrate that the NPC1 protein in feline fibroblasts has a similar distribution as that previously described for human and murine fibroblasts.
Mol Genet Metab 2002 May
PMID:The Niemann-Pick C1 protein in feline fibroblasts. 1217 78

GRACILE syndrome (Fellman syndrome, MIM 603358), an autosomal recessive metabolic disorder of the Finnish disease heritage, has been diagnosed in 25 infants of 18 families. The incidence is at least 1/47,000 in Finland. The main findings are fetal growth retardation, Fanconi type aminoaciduria, cholestasis, iron overload (liver hemosiderosis, hyperferritinemia, hypotransferrinemia, increased transferrin iron saturation, and free plasma iron), profound lactic acidosis, and early death. The pathophysiology of the metabolic disturbance is unsolved. No significant deficiency of complex III activity of respiratory chain has been found, although we recently showed that the underlying genetic cause is a missense mutation (S78G) in the BCS1L gene and other mutations in that gene have been associated with complex III deficiency. BCS1L encodes a mitochondrial protein, acting as a chaperone in the assembly of complex III. Iron accumulation in liver, a typical feature being less abundant with increasing age, might be a primary abnormality or a secondary phenomenon due to liver dysfunction. In order to decrease the iron overload, three infants have been repeatedly treated with apotransferrin followed by exchange transfusion. Improvement in iron biochemistry occurred, but no clear beneficial effect on the clinical condition was found. Further studies will elucidate the role of iron in the pathophysiology of the disease.
Blood Cells Mol Dis
PMID:The GRACILE syndrome, a neonatal lethal metabolic disorder with iron overload. 1254 34

Phenylketonuria (PKU) is a metabolic disorder that results from a deficiency of hepatic phenylalanine hydroxylase (PAH). Identification of the PKU genotype is useful for predicting clinical PKU phenotype. More than 400 mutations resulting in PAH deficiency have been reported worldwide. We used a genedetecting instrument to identify the nine prevalent Japanese mutations in the PAH gene among 31 PKU patients as a preliminary study. This instrument can automatically detect mutations through the use of allelespecific oligonucleotide (ASO) capture probes, and gave results comparable to those of sequencing studies. Each country has uniquely prevalent and specific mutations causing PKU, and less than 50 types of such mutations are generally present in each country. Early genotyping of PKU makes it possible to identify the phenotype and select the optimal therapy for the disease. For early genotyping, the instrumental method described here shortens the time required for genotyping based on mRNA and/or genomic DNA of PKU parents.
Mol Biotechnol 2003 Jul
PMID:Rapid single-base mismatch detection in genotyping for phenylketonuria. 1277 91

The expression of regucalcin in rat bone marrow cells was investigated. The expression of regucalcin mRNA in the bone marrow cells of normal (wild-type) rat was shown by using reverse transcription-polymerase chain reaction (RT-PCR) with a specific primer of regucalcin cDNA. Regucalcin protein was detected in the marrow cells of normal (wild-type) rats using Western blot analysis. Regucalcin levels were significantly increased in the marrow cells of regucalcin transgenic (TG) male and female rats with increasing age (5-36 weeks old). When the marrow cells obtained from normal or regucalcin TG rats (36-week-old) were cultured for 7 days, the number of tartrate-resistant acid phosphatase (TRACP), a marker enzyme of osteoclasts, positive multinucleated cells (MNCs) were significantly increased in the marrow culture of regucalcin TG rats. This increase was remarkable in female TG rats as compared with male TG rats. The effect of parathyroid hormone [human PTH (1-34); 10(-7) M] or 1,25-dihydroxyvitamin D3 [1,25(OH)2D3; 10(-7) M] in stimulating TRACP-positive MNCs formation was significantly enhanced in female regucalcin TG rats. Calcium content in the femoral-diaphyseal and -meta-physeal tissues was significantly decreased in regucalcin TG rats (10- or 36-week-old). This decrease was greater in female than in male. Femoral-metaphyseal deoxyribonucleic acid (DNA) content was significantly reduced in regucalcin TG male and female rats (36-week-old). Moreover, serum inorganic phosphorus, triglyceride, HDL-cholesterol, and albumin concentrations were significantly increased in regucalcin TG female rats (36-week-old), while serum calcium, zinc, and glucose concentrations were not significantly altered in TG male and female rats. In TG male rats, serum triglyceride and HDL-cholesterol concentrations were significantly raised. This study demonstrates that regucalcin is expressed in rat bone marrow cells, and that osteoclastic bone resorption is stimulated in regucalcin TG rats with increasing age. Also, regucalcin TG aged rats was found to induce serum metabolic disorder.
Int J Mol Med 2004 Mar
PMID:Expression of regucalcin in rat bone marrow cells: involvement of osteoclastic bone resorption in regucalcin transgenic rats. 1476 76


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