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Query: UMLS:C0025362 (
mental retardation
)
15,878
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We report the clinical, biochemical, and molecular genetic findings in a family with an unusual mitochondrial disease phenotype harboring a novel mtDNA tRNA
glutamic acid
mutation at position 14709. The proband and his sister presented with congenital myopathy and
mental retardation
and subsequently developed cerebellar ataxia. Other family members had either adult-onset diabetes mellitus with muscle weakness or adult-onset diabetes mellitus alone. Ragged-red and cytochrome c oxidase (COX)-negative fibers were present in muscle biopsies. Biochemical studies of muscle mitochondria showed reduced complex I and IV activities. The mtDNA mutation was heteroplasmic in blood and muscle in all matrilineal relatives analyzed. Primary myoblast, but not fibroblast, cultures containing high proportions of mutant mtDNA exhibited impaired mitochondrial translation. These observations indicate that mtDNA tRNA point mutations should be considered in the differential diagnosis of congenital myopathy. In addition they illustrate the diversity of phenotypes associated with this mutation in the same family and further highlight the association between mtDNA mutations and diabetes mellitus.
...
PMID:Congenital encephalomyopathy and adult-onset myopathy and diabetes mellitus: different phenotypic associations of a new heteroplasmic mtDNA tRNA glutamic acid mutation. 772 55
Coumarin derivatives and anticonvulsants administered during pregnancy enter the fetal circulation, interfering with the action of vitamin K. Vitamin K plays a crucial part in the gamma-carboxylation of
glutamic acid
residues of the vitamin K-dependent coagulation factors prothrombin, FVII, FIX, and FX. Other vitamin K-dependent proteins in the coagulation cascade are protein C and protein S. Vitamin K-dependent bone proteins are osteocalcin and gamma-carboxyglutamate matrix protein. Administration of coumarol derivatives results in under carboxylation of the vitamin K-dependent proteins. Anticoagulation therapy with warfarin is followed by an increased risk of embryopathy, which has been shown to be greatest between gestational weeks 6 and 12. Administration of warfarin is also followed by an increased risk both of fetal intraventricular hemorrhage, and of cerebral microbleedings, which may result in microencephaly and
mental retardation
. Treatment with coumarol derivatives should therefore be avoided during pregnancy, even in pregnant women with artificial heart valves, and replaced by heparin. Hemorrhage in the newborn related to the use of anticonvulsant drugs during pregnancy occurs very early within the first 24 hours, probably due to increased degradation of vitamin K. Transplacental administration of vitamin K has been shown to prevent neonatal hemorrhage induced by maternal anticonvulsant therapy. Prophylactic administration of vitamin K, especially by intramuscular injection, has been reported to be associated with an increased risk of childhood cancer. However, subsequent extensive studies have yielded no evidence of any relationship between prophylactic vitamin K administration and the occurrence of childhood cancer.
...
PMID:Antenatal drugs affecting vitamin K status of the fetus and the newborn. 874 99
X-linked hydrocephalus is a genetic form of hydrocephalus that frequently occurs in females. It is characterized by ventricular dilatation,
mental retardation
, deformity of the thumb and spastic paraparesis. Recently, 23 different mutations of the gene for the neural cell adhesion molecule, L1CAM, located at chromosome region Xq28, have been reported, 16 of which were detected in families with X-linked hydrocephalus. We sequenced the coding region of the L1CAM gene of patients from two different families with X-linked hydrocephalus and found a novel mutation at nucleotide residue 1963 in one family. This mutation from adenine to guanine results in an amino acid change from lysine to
glutamic acid
at residue 655 of the L1CAM protein, which belongs to the fibronectin type III domain. We report another method of the rapid identification of the mutation based on the polymerase chain reaction. This mutation was not detected among 70 X chromosomes from a healthy population. Ours is the first report demonstrating this gene mutation in X-linked hydrocephalus in an Asian population. Our findings further emphasize the evolving genotypic heterogeneity in X-linked hydrocephalus.
...
PMID:A new mutation of the L1CAM gene in an X-linked hydrocephalus family. 911 41
A human disorder caused by mutation in nonmuscle actin has not been reported. We report here a variant of nonmuscle actin in a female patient with recurrent infections, photosensitivity, and
mental retardation
. She also had abnormalities in neutrophil chemotaxis, superoxide production, and membrane potential response. Two-dimensional PAGE analysis of proteins from neutrophils and other cell types from this patient demonstrated a unique protein spot migrating at 42 kDa with pI shifted slightly to neutral relative to normal beta- and gamma-actin. Digestion peptide mapping and Western blotting showed this spot to be an abnormal actin. A full-length cDNA library was constructed by using mRNA from patient's cells and cDNA encoding the mutant beta-actin molecule was identified by an in vitro translation method. Sequencing of the clones demonstrated a G-1174 to A substitution, predicting a
glutamic acid
-364 to lysine substitution in beta-actin and eliminating a HinfI DNase restriction site found in normal beta-actin sequence. By HinfI digestion and by sequencing, the mutation in one allele of patient's genomic DNA was confirmed. Though no defect in cell-free polymerization of actin was detected, this defect lies in a domain important for binding to profilin and other actin-regulatory molecules. In fact, the mutant actin bound to profilin less efficiently than normal actin did. Heterozygous expression of mutant beta-actin in neutrophils and other cells of this patient may act in a dominant-negative fashion to adversely affect cellular activities dependent on the function of nonmuscle actin.
...
PMID:A heterozygous mutation of beta-actin associated with neutrophil dysfunction and recurrent infection. 1041 37
Resistance to thyroid hormone (RTH) is a syndrome of reduced sensitivity to thyroid hormone, most commonly caused by mutations in the thyroid hormone receptor (TR) beta gene. Mutations are mostly located in the ligand-binding domain of the TRbeta, decreasing T(3) binding to the mutant TRbeta molecule, which in turn interferes with the function of the wild-type (WT) TR. A total of 122 different TRbeta gene mutations have been identified so far, with 46 occurring in more than one family. We now report a family with two novel TRbeta mutations occurring in the same nucleotide. The proposita had two children from each of her two marriages. One daughter and one son from each marriage had severe RTH with free T(4) and T(3) levels 3- to 4-fold the mean normal values and unsuppressed TSH,
mental retardation
, and deafness. The proposita had a missense mutation (GTG to GGG) in codon 458 of the TRbeta gene, resulting in the replacement of the normal valine with glycine (V458G). Although this mutation was transmitted to her affected son, the mutated codon in her affected daughter was GAG, encoding
glutamic acid
(V458E). Haplotype analysis showed that this de novo mutation occurred on the already mutant allele of the proposita. Cotransfection of each of these mutant TRbetas with the wild-type TRbeta showed a potent dominant negative effect. Large amounts of T(3) were required to dissociate homodimers of the mutant TRbeta bound to DNA. In addition, and in contrast to other mutant TRbetas with severe T(3)-binding defects, homodimer release failed to recruit the steroid receptor coactivator. No defects in heterodimerization with retinoid X receptor-alpha or association with a nuclear receptor corepressor, were identified. These in vitro data are in agreement with the in vivo phenotype of severe RTH. Unique and previously unreported in human inherited diseases is the occurrence of a de novo mutation at an already mutant nucleotide. Because the occurrence by chance is extremely unlikely, it is postulated that the presence of three guanines in the sequence created by the mutant nucleotide of the proposita results in a mutagenic site prone to de novo mutation.
...
PMID:A de novo mutation in an already mutant nucleotide of the thyroid hormone receptor beta gene perpetuates resistance to thyroid hormone. 1559 85
