UMLS:C0025362 - FACTA Search

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Query: UMLS:C0025362 (mental retardation)
15,878 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fragile-X-related proteins form a family implicated in RNA metabolism. Their sequence is composed of conserved N-terminal and central regions which contain Tudor and KH domains and of a divergent C-terminus with motifs rich in arginine and glycine residues. The most widely studied member of the family is probably FMRP (fragile X mental retardation protein), since absence or mutation of this protein in humans causes fragile X syndrome, the most common cause of inherited mental retardation. Understanding the structural properties of FMRP is essential for correlating it with its functions. The structures of isolated domains of FMRP have been reported, but nothing is yet known with regard to the spatial arrangement of the different modules, partly because of difficulties in producing both the full-length protein and its multidomain fragments in quantities, purities and monodispersity amenable for structural studies. In the present study, we describe how we have produced overlapping recombinant fragments of human FMRP and its paralogues which encompass the evolutionary conserved region. We have studied their behaviour in solution by complementary biochemical and biophysical techniques, identified the regions which promote self-association and determined their overall three-dimensional shape. The present study paves the way to further studies and rationalizes the existing knowledge on the self-association properties of these proteins.
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PMID:A study of the ultrastructure of fragile-X-related proteins. 1914 90

Fragile X syndrome, the most common form of inherited mental retardation is caused by the expansion of a CGG trinucleotide repeat in the fragile X mental retardation 1 (fmr1) gene. The abnormal expansion of the CGG repeat causes hypermethylation and subsequent silencing of the fmr1 gene, resulting in the loss of the fragile X mental retardation protein (FMRP). FMRP has been shown to use its arginine-glycine-glycine rich region (RGG box) to bind to messenger RNAs that form G quadruplex structures. Several studies reported that the G quadruplex RNA recognition alone is not sufficient for FMRP RGG box binding and that an additional stem and/or a G quadruplex-stem junction region may also be important in recognition. In this study we have used biophysical methods such as fluorescence, UV, CD and NMR spectroscopy to demonstrate that the recognition of the RNA G quadruplex structure per se, in the absence of a stem region, is sufficient for the FMRP high affinity and specific binding. These findings indicate that the presence of a stem structure in some of the FMRP G quadruplex forming mRNAs is not a requirement for protein recognition as previously believed, but rather for the proper formation of the correct RNA G quadruplex structure recognized by FMRP.
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PMID:Fragile X mental retardation protein recognition of G quadruplex structure per se is sufficient for high affinity binding to RNA. 1939 85

Inwardly rectifying potassium channel Kir4.1 is critical for glial function, control of neuronal excitability, and systemic K(+) homeostasis. Novel mutations in Kir4.1 have been associated with EAST/SeSAME syndrome, characterized by mental retardation, ataxia, seizures, hearing loss, and renal salt waste. Patients are homozygous for R65P, G77R, C140R or T164I; or compound heterozygous for A167V/R297C or R65P/R199Stop, a deletion of the C-terminal half of the protein. We investigated the functional significance of these mutations by radiotracer efflux and inside-out membrane patch clamping in COSm6 cells expressing homomeric Kir4.1 or heteromeric Kir4.1/Kir5.1 channels. All of the mutations compromised channel function, but the underlying mechanisms were different. R65P, T164I, and R297C caused an alkaline shift in pH sensitivity, indicating that these positions are crucial for pH sensing and pore gating. In R297C, this was due to disruption of intersubunit salt bridge Glu(288)-Arg(297). C140R breaks the Cys(108)-Cys(140) disulfide bond essential for protein folding and function. A167V did not affect channel properties but may contribute to decreased surface expression in A167V/R297C. In G77R, introduction of a positive charge within the bilayer may affect channel structure or gating. R199Stop led to a dramatic decrease in surface expression, but channel activity was restored by co-expression with intact subunits, suggesting remarkable tolerance for truncation of the cytoplasmic domain. These results provide an explanation for the molecular defects that underlie the EAST/SeSAME syndrome.
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PMID:Molecular mechanisms of EAST/SeSAME syndrome mutations in Kir4.1 (KCNJ10). 2080 65

Trichothiodystrophy (TTD) is a rare autosomal recessive disorder characterized by sulfur-deficient brittle hair complicated with ichthyosis, physical and mental retardation, and proneness to infections. Approximately half of TTD patients exhibit cutaneous photosensitivity because of the defect of nucleotide excision repair. Three genes, XPB, XPD and TTDA, have been identified as causative genes of photosensitive TTD. These three genes are components of basal transcription factor IIH. Most TTD cases have been reported in Europe and North America. We report a severely affected Japanese TTD patient with XPD mutations. Interestingly, his father has ichthyotic skin. The alteration in the paternal allele was a nucleotide substitution leading to Arg-722 to Trp (R722W), as previously reported in TTD patients. The other alteration in the maternal allele was a novel 3-bp deletion at nucleotides 67-69, resulting in the deletion of Ser-23, which is located upstream of helicase motif I and is the closest to the N-terminal end of XPD in reported mutations. The expression study showed that the two alterations were causative mutations for TTD. In Asia, it is likely that there are TTD patients who have not been diagnosed.
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PMID:A Japanese trichothiodystrophy patient with XPD mutations. 2094 42

Solute carrier family 1, member 1 (SLC1A1; also known as EAAT3 and EAAC1) is the major epithelial transporter of glutamate and aspartate in the kidneys and intestines of rodents. Within the brain, SLC1A1 serves as the predominant neuronal glutamate transporter and buffers the synaptic release of the excitatory neurotransmitter glutamate within the interneuronal synaptic cleft. Recent studies have also revealed that polymorphisms in SLC1A1 are associated with obsessive-compulsive disorder (OCD) in early-onset patient cohorts. Here we report that SLC1A1 mutations leading to substitution of arginine to tryptophan at position 445 (R445W) and deletion of isoleucine at position 395 (I395del) cause human dicarboxylic aminoaciduria, an autosomal recessive disorder of urinary glutamate and aspartate transport that can be associated with mental retardation. These mutations of conserved residues impeded or abrogated glutamate and cysteine transport by SLC1A1 and led to near-absent surface expression in a canine kidney cell line. These findings provide evidence that SLC1A1 is the major renal transporter of glutamate and aspartate in humans and implicate SLC1A1 in the pathogenesis of some neurological disorders.
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PMID:Loss-of-function mutations in the glutamate transporter SLC1A1 cause human dicarboxylic aminoaciduria. 2112 49

Creatine is a nitrogen containing compound that serves as an energy shuttle between the mitochondrial sites of ATP production and the cytosol where ATP is utilized. There are two known disorders of creatine synthesis (both transmitted as autosomal recessive traits: arginine: glycine amidinotransferase (AGAT) deficiency; OMIM 602360; and guanidinoacetate methyltransferase (GAMT) deficiency (OMIM 601240)) and one disorder of creatine transport (X-linked recessive SLC6A8 creatine transporter deficiency (OMIM 300036)). All these disorders are characterized by brain creatine deficiency, detectable by magnetic resonance spectroscopy. Affected patients can have mental retardation, hypotonia, autism or behavioral problems and seizures. The diagnosis of these conditions relies on the measurement of plasma and urine creatine and guanidinoacetate. Creatine levels in plasma are reduced in both creatine synthesis defects and guanidinoacetate is increased in GAMT deficiency. The urine creatine/creatinine ratio is elevated in creatine transporter deficiency with normal plasma levels of creatine and guanidinoacetate. The diagnosis is confirmed in all cases by DNA testing or functional studies. Defects of creatine biosynthesis are treated with creatine supplements and, in GAMT deficiency, with ornithine and dietary restriction of arginine through limitation of protein intake. No causal therapy is yet available for creatine transporter deficiency and supplementation with the guanidinoacetate precursors arginine and glycine is being explored. The excellent response to therapy of early identified patients with GAMT or AGAT deficiency candidates these condition for inclusion in newborn screening programs.
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PMID:Disorders of creatine transport and metabolism. 2130 88

The 22q13.3 deletion syndrome is characterized by a significant delay in language development, mental retardation, hypotonia, and autistic features. Cumulative evidence has shown that haploinsufficiency of the SHANK3 gene is a major cause of the neurological symptoms of the 22q13.3 deletion syndrome. Shank3, a multidomain protein containing the SH3 and PDZ domains, is thought to play an important role in the formation and function of synapses in the developing brain. In this study, we analyzed the SHANK3 gene in 128 autistic patients with manifestations similar to those seen in the 22q13.3 deletion syndrome. The results showed a 6-amino acid deletion upstream of the SH3 domain, a missense variant (arginine to histidine at amino acid position 656) in the PDZ domain, and the insertion or deletion of a repeated 10-bp GC sequence located 9-bp downstream from the 3' end of exon 11. None of these variants was found in 228 controls.
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PMID:Novel variants of the SHANK3 gene in Japanese autistic patients with severe delayed speech development. 2137 2

Fragile X mental retardation protein (FMRP) is required for normal cognition. FMRP has two autosomal paralogs, which although similar to FMRP, cannot compensate for the loss of FMRP expression in brain. The arginine- and glycine-rich region of FMRP (the RGG box) is unique; it is the high-affinity RNA-binding motif in FMRP and is encoded by exon 15. Alternative splicing occurs in the 5' end of exon 15, which is predicted to affect the structure of the distally encoded RGG box. Here, we provide evidence that isoform 3, which removes 25 amino acids from the 5' end of exon 15, has an altered conformation that reduces binding of a specific antibody and renders the RGG box unable to efficiently associate with polyribosomes. Isoform 3 is also compromised in its ability to form granules and to associate with a key messenger ribonucleoprotein Yb1 (also known as p50, NSEP1 and YBX1). Significantly, these functions are similarly compromised when the RGG box is absent from FMRP, suggesting an important regulatory role of the N-terminal region encoded by exon 15.
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PMID:A new regulatory function of the region proximal to the RGG box in the fragile X mental retardation protein. 2186 66

Fragile X syndrome, the most prevalent inheritable mental retardation, is caused by the loss of fragile X mental retardation protein (FMRP) expression. FMRP is an RNA-binding protein with nucleo-cytoplasmic shuttle activity, proposed to act as a translation regulator of specific mRNAs in the brain. It has been shown that FMRP uses its arginine-glycine-glycine (RGG) box domain to bind a subset of mRNA targets that form a G-quadruplex structure. FMRP has also been shown to undergo the post-translational modifications of arginine methylation and phosphorylation, as well as alternative splicing, resulting in multiple isoforms. The alternative splice isoforms investigated in this study, isoform 1 (ISO1), isoform 2 (ISO2), and isoform 3 (ISO3), are created by the alternative splicing acceptor site at exon 15. FMRP ISO2 and ISO3 are truncated by 12 and 13 residues, respectively, relative to the longest FMRP isoform ISO1. These truncations, which are in the close proximity of the RGG box domain, preserve the integrity of the RGG box in all three isoforms, but eliminate the in vivo phosphorylation sites, present only on FMRP ISO1. We have expressed and purified recombinant FMRP ISO1, ISO2 and ISO3 in Escherichia coli, free of post-translational modifications, and by using fluorescence spectroscopy, we show that each FMRP isoform binds G-quadruplex RNA, albeit with different binding affinities, suggesting that naturally occurring sequence modifications in the proximity of the RGG box modulate its G-quadruplex RNA binding ability.
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PMID:Analysis of the Fragile X mental retardation protein isoforms 1, 2 and 3 interactions with the G-quadruplex forming semaphorin 3F mRNA. 2213 4

Hyperargininemia is an inborn error of metabolism (IEM) characterized by tissue accumulation of arginine (Arg). Mental retardation and other neurological features are common symptoms in hyperargininemic patients. Considering purinergic signaling has a crucial role from the early stages of development and underlying mechanisms of this disease are poorly established, we investigated the effect of Arg administration on locomotor activity, morphological alterations, and extracellular nucleotide hydrolysis in larvae and adult zebrafish. We showed that 0.1 mM Arg was unable to promote changes in locomotor activity. In addition, 7-day-post-fertilization (dpf) larvae treated with Arg demonstrated a decreased body size. Arg exposure (0.1 mM) promoted an increase in ATP, ADP, and AMP hydrolysis when compared to control group. These findings demonstrated that Arg might affect morphological parameters and ectonucleotidase activities in zebrafish larvae, suggesting that purinergic system is a target for neurotoxic effects induced by Arg.
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PMID:Arginine exposure alters ectonucleotidase activities and morphology of zebrafish larvae (Danio rerio). 2299 33

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