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: UMLS:C0004134 (
ataxia
)
15,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Vanishing white matter disease is a recently described leukoencephalopathy that is characterized by chronic and episodic neurological deterioration. These episodes often follow periods of fever or minor head trauma. It frequently presents in childhood with problems of
ataxia
and tremor. Five genes have been identified for the disease, EIF2B1-5, which encode the five subunits of
translation initiation factor
eIF2B. Mutations in each of the genes may independently cause the disease. The defect in eIF2B results in abnormalities in translation and its regulation, leading to abnormalities in protein synthesis and its regulation. Magnetic resonance imaging of the brain reveals extensive cerebral white matter abnormalities with evidence of white matter rarefaction and cystic degeneration, which has been confirmed pathologically. We report the first confirmed Australasian patient.
...
PMID:Vanishing white matter disease in a child presenting with ataxia. 1567 Feb 29
Mutations in eukaryotic initiation factor 2B (eIF2B) cause one of the most common leukodystrophies, childhood
ataxia
with CNS hypomyelination/vanishing white matter disease or CACH/VWM. Patients may develop a wide spectrum of neurological abnormalities from prenatal-onset white matter disease to juvenile or adult-onset
ataxia
and dementia, sometimes with ovarian insufficiency. The pattern of diffuse white matter abnormalities on MRI of the head is often diagnostic. Neuropathological abnormalities indicate a unique and selective disruption of oligodendrocytes and astrocytes with sparing of neurons. Marked decrease of asialo-transferrin in cerebrospinal fluid is the only biochemical abnormality identified thus far. Eukaryotic
translation initiation factor
2B (eIF2B) mutations cause a decrease in guanine nucleotide exchange activity on eIF2-GDP, resulting in increased susceptibility to stress and enhanced ATF4 expression during endoplasmic reticulum stress. eIF2B mutations are speculated to lead to increased susceptibility to various physiological stress conditions. Future research will be directed towards understanding why abnormal control of protein translation predominantly affects brain glial cells.
...
PMID:Childhood ataxia with CNS hypomyelination/vanishing white matter disease--a common leukodystrophy caused by abnormal control of protein synthesis. 1637 43
Eukaryotic
translation initiation factor
2B (eIF2B) is the heteropentameric guanine-nucleotide exchange factor specific for eukaryotic initiation factor 2 (eIF2). Under stressed conditions, guanine-nucleotide exchange is strongly inhibited by the tight binding of phosphorylated eIF2 to eIF2B. Here, we report the crystal structure of the alpha subunit of human eIF2B at 2.65 A resolution. The eIF2Balpha structure consists of the N-terminal alpha-helical domain and the C-terminal Rossmann-fold-like domain. A positively charged pocket, whose entrance is about 15-17 A in diameter, resides at the boundary between the two domains. A sulfate ion is located at the bottom of the pocket (about 16 A in depth). The residues comprising the sulfate-ion-binding site are strictly conserved in eIF2Balpha. Since this deep, wide pocket with the sulfate-ion-binding site is not conserved in distant homologues, including 5-methylthioribose 1-phosphate isomerases, these characteristics may be distinctive of eIF2Balpha. Interestingly, the yeast eIF2Balpha missense mutations that reduce the eIF2B sensitivity to phosphorylated eIF2 are mapped on the other side of the pocket. One of the three human eIF2Balpha missense mutations that induce the lethal brain disorder vanishing white matter or childhood
ataxia
with central nervous system hypomyelination is mapped inside the pocket. The beta and delta subunits of eIF2B are homologous to eIF2Balpha and may have tertiary structures similar to the present eIF2Balpha structure. The sulfate-ion-binding residues of eIF2Balpha are well conserved in eIF2Bbeta/delta. The abovementioned yeast and human missense mutations of eIF2Bbeta/delta were also mapped on the eIF2Balpha structure, which revealed that the human mutations are clustered on the same side as the pocket, while the yeast mutations reside on the opposite side. As most of the mutated residues are exposed on the surface of the eIF2B subunit structure, these exposed residues are likely to be involved in either the subunit interactions or the interaction with eIF2.
...
PMID:Crystal structure of the alpha subunit of human translation initiation factor 2B. 1963 57
Protein synthesis (also termed mRNA translation) is a key step in the expression of a cell's genetic information, in which the information contained within the coding region of the mRNA is used to direct the synthesis of the new protein, a process that is catalysed by the ribosome. Protein synthesis must be tightly controlled, to ensure the right proteins are made in the right amounts at the right time, and must be accurate, to avoid errors that could lead to the production of defective and potentially damaging proteins. In addition to the ribosome, protein synthesis also requires proteins termed translation factors, which mediate specific steps of the process. The first major stage of mRNA translation is termed 'initiation' and involves the recruitment of the ribosome to the mRNA and the identification of the correct start codon to commence translation. In eukaryotic cells, this process requires a set of eIFs (eukaryotic initiation factors). During the second main stage of translation, 'elongation', the ribosome traverses the coding region of the mRNA, assembling the new polypeptide: this process requires eEFs (eukaryotic elongation factors). Control of eEF2 is important in certain neurological processes. It is now clear that defects in eIFs or in their control can give rise to a number of diseases. This paper provides an overview of translation initiation and its control mechanisms, particularly those examined in neuronal cells. A major focus concerns an inherited neurological condition termed VHM (vanishing white matter) or CACH (childhood
ataxia
with central nervous system hypomyelination). VWM/CACH is caused by mutations in the
translation initiation factor
, eIF2B, a component of the basal translational machinery in all cells.
...
PMID:Protein synthesis and its control in neuronal cells with a focus on vanishing white matter disease. 1990 66
