Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0025362 (mental retardation)
 15,878 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Central nervous system dysfunctions (most notably mental retardation and microcephaly) are among the most significant effects of in utero exposure to ethanol. Ethanol has been shown to cause alterations of both neuronal and glial cells, including cell loss, and changes in their migration and maturation. Here, we propose that one of the potential targets for the developmental neurotoxicity of ethanol may be represented by the signal transduction systems activated by cholinergic muscarinic receptors. Ethanol has been shown to inhibit second messenger systems activated by various G-protein-coupled receptors, including certain subtypes of muscarinic receptors. Although the roles of muscarinic receptors in brain development have not been fully elucidated, two potentially relevant effects have been discovered in the past few years. By activating muscarinic receptors coupled to phospholipid metabolism, acetylcholine can induce proliferation of glial cells, and act as a trophic factor in developing neurons by preventing apoptotic cell death. Ethanol has been shown to inhibit both actions of acetylcholine in vitro. These effects of ethanol may lead to a decreased number of glial cells and to a loss of neurons, which have been observed following in vivo alcohol exposure. In turn, these may be the basis of microencephaly and cognitive disturbances in children diagnosed with Fetal Alcohol Syndrome.
 ...
PMID:Muscarinic cholinergic receptor signal transduction as a potential target for the developmental neurotoxicity of ethanol. 1007 78

Maternal alcoholism and thiamine deficiency are frequently considered to be the causal agents of the central nervous system (CNS) damage associated with mental retardation in the offspring. For further understanding of pathological mechanisms underlying CNS damage in both disorders, histological studies were undertaken in developing rats to compare the hippocampus CA3 pyramidal cells measurements and density between three patterns of thiamine deficiency and chronic alcohol exposure. Female rats were given thiamine-deficient diet during different periods of gestation and lactation to obtain pre-, peri-, and postnatal thiamine-deficient pups. Twelve percent ethanol/water drinking fluid was given to mothers throughout gestation and lactation to obtain ethanol-exposed pups. Thiamine was administered during developmental ethanol exposure to assess the extent of interference between ethanol and thiamine metabolism. Nondrug-treated dams were allowed ad lib access to food and water during gestation and lactation to yield control pups. Hippocampus histology was performed in 45-day-old rats, and the CA3 pyramidal cells measurements and density assessed and compared between all treatment groups. It appears that the mean nuclear size of pyramidal cells in the field CA3 was significantly reduced in all the treatments compared to the control. While the mean nuclear size decreased more severely in development ethanol exposure than in the three patterns of thiamine deficiency, no significant difference was noted when pre-, peri-, and postnatal thiamine-deficient rats were compared. However, thiamine administration during developmental ethanol exposure partially restored the mean nuclear size. In contrast, comparisons between ethanol-exposed pups and the three patterns of thiamine-deficient pups, exhibited similar intensity in the deficit of CA3 pyramidal cells. Cell loss generated by ethanol treatment was not suppressed by thiamine administration. Common and separate mechanisms underlying the effects of alcohol intoxication and thiamine deficiency on cell death and cell atrophy were suggested.
 ...
PMID:Comparative effects of developmental thiamine deficiencies and ethanol exposure on the morphometry of the CA3 pyramidal cells. 1049 92

Alcohol and drug use among individuals with mental retardation (MR) has received little empirical attention. Two studies are reported: In Study 1, individuals (n = 122) with MR were surveyed regarding their personality characteristics, alcohol and drug use, and skills to avoid substance abuse. Results indicate that although the majority of participants did not drink alcohol, among those who did, the ratio of misusers to users was nearly 1:1. In addition, misusers were deficient in specific skill areas. In Study 2, participants (n = 84) were randomly assigned to receive a prevention program in either (a) assertiveness building, (b) modeling and social inference, or (c) a delayed treatment, control condition. Results suggest that each program, at least in the short-term, improved substance knowledge and enhanced skills. Overall, these results suggest that substance use interventions focused toward individuals with MR may be beneficial.
 ...
PMID:Substance use in individuals with mental retardation. 1062 19

Fetal alcohol syndrome (FAS) is a specific polydystrophic pattern of malformations with the following diagnostic criteria: 1. Maternal alcohol dependence or alcohol abuse during pregnancy. 2. Pre- and postnatal deficiency of growth in weight, height and head circumference. 3. Multiple minor and major anomalies recognizable mainly at a typical face. 4. Structural injuries and changes at the central nervous system with complex brain dysfunction combining elements of cognitive impairments, behavioral disturbance and neurological damage. Fetal alcohol effects (FAE) or so-called "alcohol-related neurodevelopmental disorders" (ARND) with predominant neurotoxic effects and a large spectrum of cerebral dysfunctions are manifold more frequent than the full-blown FAS. These remain mostly unrecognized, overlooked and they are difficult to be diagnosed, the symptoms being unspecific. Alcohol in pregnancy is nowadays the most important and the most frequent toxic substance for the embryo and the fetus and one of the most frequent causes of mental retardation. The longlasting and irreversible consequences refer to school development, social maturation, social behaviour and later life-style. The diagnosis is based on the careful maternal history and on the clinical findings; there are no biochemical parameters of assessment. The risk of addiction development in these children is assumed to be more than 20 percent.
 ...
PMID:[Alcohol and pregnancy--embryopathy and alcohol effects]. 1080 85

Alcohol is a teratogen and it can cause lasting birth defects called Fetal Alcohol Syndrome (FAS)/Fetal Alcohol Effects (FAE). FAS is one of the leading causes of mental retardation. FAS/FAE can result in a myriad of behavioral, learning and developmental problems. There are estimates of 12,000 new cases of FAS yearly. The school nurse plays an important advocacy and educational role in helping the child with FAS. Family involvement is important for the child with FAS.
 ...
PMID:FAS/FAE: impact on children. 1088 55

Pregnant rats were fed an ethanol-containing liquid diet between gestational day (GD) 10 and GD 21. Leptomeningeal heterotopias were observed in the cerebral cortex of ethanol-exposed fetuses. They appeared on the brain surface of the lateral cortical region near the rhinal fissure, and were found more numerously in the rostral than the caudal region. These abnormalities contained certain neuronal perikarya, microtubule-associated protein (MAP) 1b-positive neuronal processes, and Rat-401-positive radial glial fibers. Immunostaining for Rat-401 revealed that the heterotopias protruded through breaches in the glia limitans. In adult rats exposed to ethanol prenatally, the heterotopias persisted in the lateral cortical region. We conclude that prenatal exposure to ethanol might induce defects in the glia limitans, resulting in the genesis of leptomeningeal heterotopias. These abnormalities may be related to mental retardation or the cognitive deficits associated with human fetal alcohol syndrome (FAS).
 ...
PMID:Prenatal exposure to ethanol induces leptomeningeal heterotopia in the cerebral cortex of the rat fetus. 1119 37

Prenatal ethanol exposure may cause neurological damage and subsequent mental retardation in humans, with learning deficits similar to those following damage to the prefrontal cortex. This study examined cognitive dysfunction and cortical damage after prenatal exposure to ethanol using a chronic administration model. Pregnant Sprague-Dawley rats received one of three diets during gestation: a liquid diet containing 35% ethanol-derived calories (ETOH), an isocaloric liquid diet (ISO), or standard chow (CHOW). Subjects were obtained from ETOH dams with blood alcohol concentrations (BACs) above 90 mg/dl and corresponding ISO and CHOW controls (one male pup/litter; n=6 pups/group). At approximately 90 days of age, subjects began training on a series of unique auditory discrimination problems using a successive go/no-go procedure. A criterion of 85% accuracy determined when a rat continued to the next problem. Subjects completed a varying number of problems within a 30-session limit, after which all rats were tested on a tone/click discrimination and reversal. Subjects were then sacrificed and neuronal number in the medial prefrontal cortex (mPFC) was estimated by the optical fractionator method. Prenatal ethanol exposure induced significant cell loss in the mPFC, which was associated with significantly impaired reversal learning. Poor performance by ETOH subjects on the tone/click reversal indicates a transfer of training deficit that may reflect failures of inhibitory control.
 ...
PMID:Prenatal ethanol exposure, generalized learning impairment, and medial prefrontal cortical deficits in rats. 1171 Dec 48

Glial cells and their interactions with neurons play vital roles during the ontogeny of the nervous system and in the adult brain. Alcohol intake during pregnancy can cause mental retardation and neurobehavioral disorders as well as fetal alcohol syndrome (FAS). Clinical and experimental evidence indicate that in utero alcohol exposure induces structural and functional abnormalities in gliogenesis and in glial-neuronal interactions, suggesting a potential role of glial cells on ethanol-induced developmental brain abnormalities. In vivo studies have shown ethanol-associated alterations in the migration of neurons and radial glial as well as in astrogliogenesis and myelin development. In astrocytes in primary culture, ethanol has been found to (1) impair cell growth and differentiation, (2) decrease the levels of glialfibrillary acidic protein or GFAP (an astrocyte marker) and its gene expression and (3) interfere with the stimulatory effect of trophic factors affecting their release and receptor expression. Evidence also suggests that ethanol affects intracellular protein trafficking, which may mediate some effects of ethanol on astroglial cells. These findings suggest that glial cells are target of ethanol toxicity during brain development and may underlie the neurodevelopmental abnormalities observed after in utero alcohol exposure and in FAS.
 ...
PMID:Glia and fetal alcohol syndrome. 1177 Aug 80

A major mechanism guiding neural development is through cell-cell and cell-matrix adhesions and signaling mediated by cell adhesion molecules (CAMs). The majority of CAMs have been grouped into three families: the cadherins, the integrins and the members of the immunoglobulin superfamily including L1. While the elucidation of new receptors and matrix components has become a frequent occurrence, the elucidation of the mechanisms by which they operate, and the function of those mechanisms in complex developmental events remains rudimentary. Members of all three families participate in differential adhesion, signal transduction and physical/mechanical effects. Each of these modes of action is a potential target for developmental neurotoxicants. In this brief review, the role of L1 in normal and abnormal neurodevelopment will be summarized. L1 is a cell surface transmembrane glycoprotein with a single copy gene on the X chromosome. There are two alternatively spliced exons, with the RSLE containing form found only on axons and growth cones of post-mitotic neurons. L1 mediates the following functions: adhesion, neurite extension, neuronal migration, and axon fasciculation. L1 is critical for normal neural development; humans with genetic defects in L1, termed corpus callosum hypoplasia, mental retardation, adducted thumbs, spasticity and hydrocephalus (CRASH) syndrome, and mice lacking expression of L1 have extensive neuropathologic and aberrant behaviors. The observation that patients with fetal alcohol syndrome share similar features to patients with CRASH has lead to the investigation of the effects of ethanol on L1. Physiologic concentrations of ethanol have been shown to inhibit L1 mediated neurite outgrowth in cerebellar granule neurons. Such inhibition may result from decreased expression, altered cell surface distribution, impaired signal transduction, or impaired interaction with the cytoskeleton. These data indicate that L1 and its associated signaling pathways are potentially targets for developmental neurotoxicants.
 ...
PMID:L1 cell adhesion molecule signal cascades: targets for ethanol developmental neurotoxicity. 1177 Aug 84

Fetal alcohol syndrome (FAS) is the leading cause of mental retardation in western society. We investigated possible changes in glutamate receptor levels in neonatal animals following ethanol exposure using radioligand binding and western blot analysis. We used a vapor chamber to administer ethanol to neonatal Wistar rats 3 h a day from postnatal day (PND) 4-9. A separation control group was separated from their mothers for the same time and duration as the vapor treatment, while a normal control group was left to develop normally. Daily ethanol administrations resulted in decreased brain weight and body weight, as well as microencephaly (decreased brain:body weight ratio). Neither the affinity nor maximum binding of [(3)H]MK-801 (dizoclipine maleate) in the cortex of PND10 rats differed between treatment groups. Western blot analysis also failed to reveal any changes in NMDAR1, NMDAR2A, or NMDAR2B receptor levels. In contrast, the AMPA receptor subunit GluR1 was greatly reduced in vapor-treated pups compared with control pups, as revealed by western blot analysis. A similar reduction was found in westerns with an antibody recognizing the GluR2 and 4 subunits. These results indicate that ethanol reduces AMPA rather than NMDA receptors in the developing neocortex, possibly by blocking NMDA receptors during development.
 ...
PMID:Neonatal ethanol exposure reduces AMPA but not NMDA receptor levels in the rat neocortex. 1203 20


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>