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Query: UMLS:C0004352 (autism)
 32,579 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cause of autism is unknown. Recently, it has been suggested that it involves metabolic disorders of serotonin and/or dopamine. On the other hand, there is a close relationship between hormone secretion and monoamines. The aim of this study was to analyze the secretion of GH, PRL, TSH, cortisol, LH and FSH. The subjects were 30 children with autism, 25 males and 5 females, aged from 1 10/12 to 9 10/12 years. Their IQs (DQs) ranged from 34 to 123. Pituitary hormone secretion was measured during provocation with insulin (0.1 unit/kg), TRH (10 micrograms/kg) and/or LH-RH (100 micrograms/m2) in 26 of 30 cases. Control subjects included 16 age-matched children with attention deficit disorder (ADD) and 18 age-matched children with mental retardation (MR) without autistic and organic central nervous diseases. The 24-hour secretion rhythm of GH, PRL and cortisol for 14 cases with autism and of LH and FSH for 9 cases was also investigated. In insulin provocation test, the peak values of GH and delta GH (peak GH level minus baseline GH level) in ADD were significantly higher than those in MR (p less than 0.05). In TRH provocation test, the peak values of TSH and delta TSH in autism were significantly lower than those in MR. Five cases of autistic children revealed borderline responses for TSH, while the only one each of ADDs and MRs revealed borderline responses for TSH. In a study of the 24-hour hormone secretion rhythm, eleven of the 14 autistic children showed an abnormal secretion rhythm.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Neuroendocrinologic studies on autism]. 271 59

Plasma growth hormone responses to insulin-induced hypoglycemia were examined in eight preschool-age autistic children. Six of these children were examined on two separate occasions: during the period of baseline evaluation and after 4 weeks of daily haloperidol administration. On at least one occasion, half of this small sample exhibited persistent elevation of growth hormone levels, with a failure to return to baseline values over the course of a 135-minute period postinsulin infusion. These data are consistent with the occurrence of hypothalamic dysfunction in subgroups of autistic children. Short-term administration of haloperidol did not diminish the ability of the pituitary to secrete growth hormone in response to insulin-induced hypoglycemia.
J Autism Dev Disord 1986 Mar
PMID:Plasma growth hormone response to insulin-induced hypoglycemia in infantile autism: a pilot study. 287 51

Hypothalamo-pituitary functions were examined in thirteen children with behavioral disorders (six with hyperkinesia, four with autism, two with tic and one with schizophrenia) before and during treatment with pimozide, an antidopaminergic drug. The mean (+/- S.E.M.) basal serum PRL level (24.5 +/- 4.2 ng/ml) during pimozide treatment was significantly higher than that (12.4 +/- 3.2 ng/ml) before treatment. Hyperresponse of PRL to TSH releasing hormone (TRH) was observed in five (three with hyperkinesia, one with tic and one with autism) of the thirteen patients before treatment and in seven (four with hyperkinesia, two with autism and one with tic) during treatment. Mean TSH response during treatment was not significantly different from that before treatment. However, three of the four autistic children showed hyperresponse of TSH to TRH before treatment, whereas only one also showed a hyperresponse during treatment. The pimozide treatment had no demonstrable influence on GH or cortisol secretion in response to insulin-induced hypoglycemia, or on serum T4 and T3 levels.
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PMID:Influence of pimozide on hypothalamo-pituitary function in children with behavioral disorders. 642 90

Rett syndrome is characterized by disruption of a period of vigorous brain growth with synapse development. Neurotrophic factors are important regulators of neuronal growth, differentiation, and survival during early brain development. The aims of this study were to study the role of neurotrophic factors in Rett syndrome, specifically whether Rett syndrome has abnormal levels of specific neurotrophic factors in serum and cerebrospinal fluid and whether the changes differ from other neuropediatric patients, for example, those with infantile autism. Four neurotrophic factors were measured: nerve growth factor, brain-derived neurotrophic factor, glial cell line-derived neurotrophic factor, and insulin-like growth factor 1 from the frozen cerebrospinal fluid and from serum (except glial cell line-derived neurotrophic factor) by enzyme-linked immunosorbent assay and cerebrospinal fluid glutamate and aspartate by high-performance liquid chromatography (HPLC) method in patients with Rett syndrome. Insulin-like growth factor 1 was measured from the cerebrospinal fluid of patients with infantile autism. We found low concentrations of cerebrospinal fluid nerve growth factor in patients with Rett syndrome compared with control patients. The serum levels and other cerebrospinal fluid neurotrophic factor levels of the patients did not differ from the controls. Patients with Rett syndrome had high cerebrospinal fluid glutamate levels. Patients with infantile autism had low cerebrospinal fluid insulin-like growth factor 1 levels. Nerve growth factor acts especially on cholinergic neurons of the basal forebrain, whereas insulin-like growth factor 1 acts on cerebellar neurons. In Rett syndrome, the forebrain is more severely affected than the other cortical areas. In autism, many studies show hippocampal or cerebellar pathology. Our findings are in agreement with the different morphologic and neurochemical findings (brain growth, affected brain areas, neurotransmitter metabolism) in the two syndromes. Impairment in dendritic development in Rett syndrome could be the consequence of cholinergic deficiency and of neurotrophic factor/glutamate imbalance. Cholinergic gene expression might be influenced by the Rett syndrome gene directly or via the neurotrophic factor system.
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PMID:Neurotrophic factors in the pathogenesis of Rett syndrome. 1464 51

Gene deletion studies in mice and in Drosophila have shown that the 40S ribosomal protein S6 Kinases, dS6K in Drosophila and S6K1 and S6K2 in mice are important regulators of cell growth in response to insulin stimulation and nutrition availability. Here we chiefly focus on dS6k and S6K1, whose activities are regulated by an upstream kinase termed the mammalian target of rapamycin (mTOR, or dTOR in Drosophila). Our understanding of the mechanisms regulating the mTOR/S6K1-signalling pathway will be fundamental in determining the mechanisms which control cell growth in response to insulin signalling. Recent findings from this laboratory and others suggests that the tumour suppressor complex made of two proteins TSC1/hamartin and TSC2/tuberin, acts as a negative regulator of mTOR/S6K1 signalling. Mutations in either TSC1 or TSC2 are genetically linked to tuberous sclerosis complex (TSC) syndrome, which can lead to severe pathological consequences, including mental retardation, epilepsy and autism, as well as cardiac, pulmonary and renal failure. Despite a large number of initial reports on the TSC1/TSC2 complex, and the finding that its activity is regulated by protein kinase B (PKB), the direct target of the TSC1/TSC2 inhibitory complex was unknown until recently. Since TSC2 has a GTPase-activating domain, or GAP-like sequence, others and we searched for a small GTP binding protein, which may serve as the target of TSC1/TSC2 inhibitory complex. In our case we took advantage of a genome wide screen in Drosophila for effectors of cell growth and in parallel searched for a small GTPase whose activity is up-regulated in TSC2-deficient cells. The identified gene was a member of the Ras family of GTPases termed Ras homologue enriched in brain or Rheb. Here we review recent findings demonstrating that the TSC1/TSC2 inhibitory complex normally acts on Rheb to mediate mTOR/S6K1-signalling.
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PMID:The mTOR/S6K signalling pathway: the role of the TSC1/2 tumour suppressor complex and the proto-oncogene Rheb. 1556 27

Obesity and attention-deficit hyperactivity disorder (ADHD) are both increasing in prevalence. Childhood exposure to television has shown linkage to both ADHD and obesity with the former ascribed to dysfunctional cognitive hyperstimulation and the latter to altered patterns of diet and exercise. Empirical evidence has contradicted prior presumptions that the hyperactivity of ADHD would decrease the risk of obesity. Instead, obesity and ADHD demonstrate significant comorbidity. We propose that obesity and ADHD represent different manifestations of the same underlying dysfunction, a phenomenon we term environmental oversampling syndrome. Oversupply of information in the form of nutritional content and sensory content may independently predispose to both obesity and ADHD. Moreover, the pathogenic mechanisms of these conditions may overlap such that nutritional excess contributes to ADHD and cognitive hyperstimulation contributes to obesity. The overlapping effects of medications provide further evidence towards the existence of shared etiologic pathways. Metabolism and cognition may represent parallel systems of intelligence, and oversampling of content may constitute the source of parallel dysfunctions. The emerging association between psychiatric and metabolic disorders suggests a fundamental biologic link between these two systems. In addition, the immune system may represent yet another form of intelligence. The designation of syndrome X subsumes seemingly unrelated metabolic and inflammatory entities. Environmental oversampling syndrome may represent an even more inclusive concept that encompasses various metabolic, inflammatory, and behavioral conditions. Apparently disparate conditions such as insulin resistance, diabetes, hypertension, syndrome X, obesity, ADHD, depression, psychosis, sleep apnea, inflammation, autism, and schizophrenia may operate through common pathways, and treatments used exclusively for one of these conditions may prove beneficial for the others.
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PMID:Obesity and ADHD may represent different manifestations of a common environmental oversampling syndrome: a model for revealing mechanistic overlap among cognitive, metabolic, and inflammatory disorders. 1590 45

Elevated free fatty acid (FA) levels lead to insulin resistance, hypertension, and microangiopathy, all of which are associated with type 2 diabetes. On the other hand, deficiencies of FA are indicative of certain neurodegenerative diseases, including autism. Thus, free FA levels are a diagnostic indicator for a variety of disorders. Here we describe the use of a commercially available FA binding protein labeled with acrylodan (ADIFAB), which we modified with a ruthenium metal-ligand complex with the intention of creating a low-cost FA sensor. The dual-labeled FA binding protein was used in lifetime-assisted ratiometric sensing (LARS) of oleic acid. For both steady-state and time-resolved luminescence decay experiments, the protein is responsive to oleic acid in the range of 0.02-4.7 microM. The emission at 432 nm, which is associated with the acrylodan occupying the FA binding site, decreases in intensity and red shifts to 505 nm on the addition of oleic acid. The intensities of the 505-nm peak due to the acrylodan displaced from the binding site by FA and of the 610-nm emission peak of ruthenium remained nearly unchanged. Fitting of the fluorescence decay data using the method of least squares revealed three emitting components with lifetimes of approximately 0.60, 4.00, and 370 ns. Fractional intensities of the emitting species indicate that changes in modulation between 2 and 10 MHz on binding of the protein with oleic acid are due mainly to the 4.00-ns component. The 0.60- and 370-ns components are assigned to acrylodan (505 nm) and ruthenium, respectively. Note that because ruthenium has a lifetime that is two orders of magnitude longer than that of acrylodan, the FA measurements were carried out at excitation frequencies lower than what can be done with acrylodan alone. Thus, low-cost instrumentation can be designed for a practical FA sensor without sacrificing the quality of measurements.
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PMID:Fatty acid sensor for low-cost lifetime-assisted ratiometric sensing using a fluorescent fatty acid binding protein. 1613 30

Tuberous sclerosis complex (TSC) is an autosomal dominant tumor syndrome that affects approximately 1 in 6000 individuals. It is characterized by the development of tumors, named hamartomas, in the kidneys, heart, skin and brain. The latter often cause seizures, mental retardation, and a variety of developmental disorders, including autism. This disease is caused by mutations within the tumor suppressor gene TSC1 on chromosome 9q34 encoding hamartin or within TSC2 on chromosome 16p13.3 encoding tuberin. TSC patients carry a mutant TSC1 or TSC2 gene in each of their somatic cells, and loss of heterozygosity has been documented in a wide variety of TSC tumors. Recent data suggest that functional inactivation of TSC proteins might also be involved in the development of other diseases not associated with TSC, such as sporadic bladder cancer, breast cancer, ovarian carcinoma, gall bladder carcinoma, non-small-cell carcinoma of the lung, and Alzheimer's disease. Tuberin and hamartin form a heterodimer, suggesting they might affect the same processes. Tuberin is assumed to be the functional component of the complex and has been implicated in the regulation of different cellular functions. The TSC proteins regulate cell size control due to their involvement in the insulin signalling pathway. Furthermore, they are potent positive regulators of the cyclin-dependent kinase inhibitor p27, a major regulator of the mammalian cell cycle. Here we review the current knowledge on how mutations within the TSC genes could trigger deregulation of stability and localization of the tumor suppressor p27.
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PMID:The tuberous sclerosis genes and regulation of the cyclin-dependent kinase inhibitor p27. 1671 32

There has been little exploration of major biologic regulators of cerebral development in autism. We measured insulin-like growth factors (IGF) -1 and -2 from cerebrospinal fluid (CSF) by radio immunoassay in 25 children with autism (median age 5y 5mo; range 1y 11mo-15y 10mo; 20 males, 5 females), and in 16 age-matched comparison children without disability (median age 7y 4mo; range 1y 1mo-15y 2mo; eight males, eight females). IGF-1 and -2 concentrations were further correlated with age of patients and head size. CSF IGF-1 concentration was significantly lower in patients with autism than in the comparison group. The CSF concentrations of children with autism under 5 years of age were significantly lower than their age-matched comparisons. The head circumferences correlated with CSF IGF-1 in children with autism but no such correlation was found in the comparison group. There was no difference between the two groups in CSF IGF-2 concentrations. No patients with autism had macrocephaly. We conclude that low concentrations of CSF IGF-1 at an early age might be linked with the pathogenesis in autism because IGF-1 is important for the survival of Purkinje cells of the cerebellum. The head growth might be explained by the actions of IGF-1 and -2 reflected in CSF concentrations.
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PMID:Cerebrospinal fluid insulin-like growth factors IGF-1 and IGF-2 in infantile autism. 1690 22

Obesity is a highly heritable and genetically heterogeneous disorder. Here we investigated the contribution of copy number variation to obesity in 300 Caucasian patients with severe early-onset obesity, 143 of whom also had developmental delay. Large (>500 kilobases), rare (<1%) deletions were significantly enriched in patients compared to 7,366 controls (P < 0.001). We identified several rare copy number variants that were recurrent in patients but absent or at much lower prevalence in controls. We identified five patients with overlapping deletions on chromosome 16p11.2 that were found in 2 out of 7,366 controls (P < 5 x 10(-5)). In three patients the deletion co-segregated with severe obesity. Two patients harboured a larger de novo 16p11.2 deletion, extending through a 593-kilobase region previously associated with autism and mental retardation; both of these patients had mild developmental delay in addition to severe obesity. In an independent sample of 1,062 patients with severe obesity alone, the smaller 16p11.2 deletion was found in an additional two patients. All 16p11.2 deletions encompass several genes but include SH2B1, which is known to be involved in leptin and insulin signalling. Deletion carriers exhibited hyperphagia and severe insulin resistance disproportionate for the degree of obesity. We show that copy number variation contributes significantly to the genetic architecture of human obesity.
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PMID:Large, rare chromosomal deletions associated with severe early-onset obesity. 2088 Jan 23


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