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Query: UMLS:C0025362 (
mental retardation
)
15,878
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In Down syndrome (DS), enhanced apoptosis (programmed cell death) may play a role in the pathogenesis of characteristic
mental retardation
and precocious dementia of Alzheimer-type. Upregulation of p53 and APO-1/
Fas
(CD95) precedes apoptosis in many cell types, and a potential role for these molecules has already been demonstrated in Alzheimer's disease (AD) and several other neurodegenerative diseases. We measured p53 and APO-1/
Fas
(CD95) protein in four different regions of cerebral cortex and cerebellum in nine adult DS patients with Alzheimer-like neuropathologic lesions compared to nine controls. Quantitative ELISA demonstrated higher frontal lobe (mean+/-SD: 0.10+0.035 vs. 0.041+/-0.016 ng/mg protein), temporal lobe (0.062+/-0.021 vs. 0.032+/-0.019 ng/mg protein) and cerebellar levels (0.078+/-0.030 vs. 0.039+/-0.032 ng/mg protein) of p53 protein, and higher temporal lobe (mean+/-SD: 12.3+/-4.3 vs. 5.3+/-2.0 U/mg protein) and cerebellar levels (5.9+/-1.4 vs. 2.9+/-1.1 U/mg protein) of APO-1/
Fas
(CD95) protein. The results suggest that p53- or APO-1/
Fas
(CD95)-associated apoptosis may be an important feature of neurodegeneration in DS.
...
PMID:Apoptosis-associated proteins p53 and APO-1/Fas (CD95) in brains of adult patients with Down syndrome. 1002 87
In Down syndrome, enhanced apoptosis (programmed cell death) may play a role in the pathogenesis of characteristic early
mental retardation
and precocious neurodegeneration of Alzheimer type. Various apoptosis-associated proteins (Bax, Bcl-2,
Fas
, p53, Hsp70, neuronal apoptosis inhibitory protein-like immunoreactivity) were investigated in four different cortical regions and the cerebellum of one fetal Down syndrome (35 weeks' gestation) postmortem brain sample compared with a control brain sample. The most impressive finding was an at least fivefold elevation of Bax protein together with decreased Bcl-2 values in all Down syndrome cerebral regions investigated. In addition, antiapoptotic, presumably caspase-inhibitory, principles like heat shock protein 70 and neuronal apoptosis inhibitory protein were also reduced. Whereas
Fas
protein, an important member of receptor-mediated apoptosis, was inconsistently altered, a rather surprising finding was reduced proapoptotic, regulatory protein p53 in four of five regions. The findings are in good agreement with the proposed role of the Bcl-2 protein family in regulating developmental (naturally occurring) apoptotic neuronal death and further suggest that developmental apoptosis may be inappropriately commandeered by so far undefined pathologic processes in Down syndrome.
...
PMID:Evidence for apoptosis in the fetal Down syndrome brain. 1141 11
A six-year-old male presented with multiple congenital anomalies,
mental retardation
, developmental delay, and an increased frequency of upper and lower respiratory infections and deficiency of all blood lymphocyte populations. Chromosome analysis showed an unbalanced translocation involving chromosomes 4 and 13, leading to partial trisomy for 4pter-q12 and partial monosomy for 13pter-q13 [karyotype, 46,XY,+der(4)t(4;13)(q12;q12),-13)]. The mother is the carrier of a balanced translocation involving chromosomes 4 and 13. The translocation is known to be segregating for three generations in this family. The child was found to have deficiency of all blood lymphocyte populations, but other hemopoietic lineages appeared to be normal. In addition, his fresh T cells were principally CD45RA+, CD62L+, and deficient in the
Fas
receptor. This deficiency of all blood lymphocyte populations may be due to an overdose of a gene or genes located in the region of chromosome 4 or a partial deficiency of a gene or genes in the region of chromosome 13 that regulate the development of the lymphocyte lineage. Since the mother contributed two copies of chromosomal region 4pter-q12 and no copy of 13pter-q12, the deficiency of all blood lymphocyte populations in our patient may be the result of either uniparental disomy or imprinting. A maternal granduncle with dissimilar dysmorphic features was not lymphopenic but was neutropenic.
...
PMID:Trisomy 4 pter-q12 and monosomy of chromosome 13 pter-q12 in a male with deficiency of all blood lymphocyte populations. 1147 5
Apoptosis is the mechanism by which cells are programmed to die under a wide range of physiological and developmental stimuli. Accumulating evidence indicates that enhanced apoptosis (programmed cell death) in Down syndrome (DS) may play a role in
mental retardation
and precocious neurodegeneration of the Alzheimer-type. In this regard, alteration of several apoptosis related proteins have been reported in adult DS brain. Fetal DS neurons exhibited increased reactive oxygen species leading to early apoptosis, however, expression of apoptosis related proteins in fetal DS, has never been considered. To address this issue, we investigated the expression of proteins involved in apoptosis including
Fas
(CD95, APO-1), caspase-3, Bcl-2 and annexins in the cerebral cortex of control and DS fetal brain by western blot and two dimensional electrophoresis. Here, we report that no detectable changes were obtained in fetal DS brain in the expression of
Fas
, caspase-3, Bcl-2 and Annexins (I, II, V, and VI) compared to controls. In parallel experiment, we also examined the expression of neuron specific enolase (NSE), a neuronal marker found to be decreased in adult DS brain, to see if there is any neuronal loss and no difference was observed between the two groups. Protein expression did not correlate with age. The unchanged levels of
Fas
, Bcl-2 and annexins together with unaltered caspase-3 expression, a predominant caspase that executes apoptosis in the developing nervous system, suggest that enhanced apoptosis may not be apparent in fetal DS brain as demonstrated for adult DS brain.
...
PMID:Unaltered expression of Fas (CD95/APO-1), caspase-3, Bcl-2 and annexins in brains of fetal Down syndrome: evidence against increased apoptosis. 1177 40
Acyl-CoA synthetase long-chain family member 4 (ACSL4) converts long-chain fatty acids to acyl-CoAs that are indispensable for lipid metabolism and cell signaling. Mutations in ACSL4 cause nonsyndromic X-linked
mental retardation
. We previously demonstrated that Drosophila dAcsl is functionally homologous to human ACSL4, and is required for axonal targeting in the brain. Here, we report that Drosophila dAcsl mutants exhibited distally biased axonal aggregates that were immunopositive for the synaptic-vesicle proteins synaptotagmin (Syt) and cysteine-string protein, the late endosome/lysosome marker lysosome-associated membrane protein 1, the autophagosomal marker Atg8, and the multivesicular body marker Hrs (hepatocyte growth factor-regulated tyrosine kinase substrate). In contrast, the axonal distribution of mitochondria and the cell adhesion molecule
Fas
II (fasciclin II) was normal. Electron microscopy revealed accumulation of prelysomes and multivesicle bodies. These aggregates appear as retrograde instead of anterograde cargos. Live imaging analysis revealed that dAcsl mutations increased the velocity of anterograde transport but reduced the flux, velocity, and processivity of retrograde transport of Syt-enhanced green fluorescent protein-labeled vesicles. Immunohistochemical and electrophysiological analyses showed significantly reduced growth and stability of neuromuscular synapses, and impaired glutamatergic neurotransmission in dAcsl mutants. The axonal aggregates and synaptic defects in dAcsl mutants were fully rescued by neuronal expression of human ACSL4, supporting a functional conservation of ACSL4 across species in the nervous system. Together, our findings demonstrate that dAcsl regulates axonal transport of synaptic vesicles and is required for synaptic development and function. Defects in axonal transport and synaptic function may account, at least in part, for the pathogenesis of ACSL4-related
mental retardation
.
...
PMID:Drosophila Acyl-CoA synthetase long-chain family member 4 regulates axonal transport of synaptic vesicles and is required for synaptic development and transmission. 2130 43
Phenylketonuria (PKU), an autosomal recessive disorder of amino acid metabolism caused by mutations in the phenylalanine hydroxylase (PAH) gene, leads to childhood
mental retardation
by exposing neurons to cytotoxic levels of phenylalanine (Phe). A recent study showed that the mitochondria-mediated (intrinsic) apoptotic pathway is involved in Phe-induced apoptosis in cultured cortical neurons, but it is not known if the death receptor (extrinsic) apoptotic pathway and endoplasmic reticulum (ER) stress-associated apoptosis also contribute to neurodegeneration in PKU. To answer this question, we used specific inhibitors to block each apoptotic pathway in cortical neurons under neurotoxic levels of Phe. The caspase-8 inhibitor Z-IETD-FMK strongly attenuated apoptosis in Phe-treated neurons (0.9 mM, 18 h), suggesting involvement of the
Fas
receptor (FasR)-mediated cell death receptor pathway in Phe toxicity. In addition, Phe significantly increased cell surface
Fas
expression and formation of the
Fas
/FasL complex. Blocking
Fas
/FasL signaling using an anti-
Fas
antibody markedly inhibited apoptosis caused by Phe. In contrast, blocking the ER stress-induced cell death pathway with salubrinal had no effect on apoptosis in Phe-treated cortical neurons. These experiments demonstrate that the
Fas
death receptor pathway contributes to Phe-induced apoptosis and suggest that inhibition of the death receptor pathway may be a novel target for neuroprotection in PKU patients.
...
PMID:The Fas/Fas ligand death receptor pathway contributes to phenylalanine-induced apoptosis in cortical neurons. 2394 Jul 67
