Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004352 (autism)
 32,579 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Autism is a rare neurodevelopmental disorder with a strong genetic component. Co-occurrence of autism and chromosomal abnormalities is useful to localize candidate regions that may include gene(s) implicated in autism determinism. Several candidate chromosomal regions are known, but association of chromosome 22 abnormalities with autism is unusual. We report a child with autistic syndrome and a de novo 22q13.3 cryptic deletion detected by FISH. Previously described cases with 22q13.3 deletions shared characteristic developmental and speech delay, but autism was not specifically reported. This case emphasizes a new candidate region that may bear a gene involved in autism etiopathogenesis. Am. J. Med. Genet. (Neuropsychiatr. Genet.) 96:839-844, 2000.
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PMID:Case with autistic syndrome and chromosome 22q13.3 deletion detected by FISH. 1112 Nov 93

We report a de novo, apparently balanced (2;8)(q35;q21.2) translocation in a boy with developmental delay and autism. Cross species (colour) paint (Rx) and SKY FISH, forward and reverse chromosome painting, and FISH with subtelomeric probes were used to examine the patient's karyotype, but further rearrangements were not detected. FISH with region specific clones mapping near 2q35 and 8q21.2 breakpoints and STS mapping performed on the isolated derivative chromosomes were used to refine the location of the breakpoints further. A cryptic deletion of between 4.23 and 4.41 Mb in extent and involving at least 13 complete genes or transcription units was found at the breakpoint on 2q35. The deletion includes the promoter and 5' untranslated region of the paired box 3 (PAX3) gene. The child has very mild dystopia canthorum which may be associated with the PAX3 haploinsufficiency. The 8q21.2 breakpoint is within MMP16 which encodes matrix metalloproteinase 16. We postulate that the cryptic deletion and rearrangement are responsible for the patient's phenotype and that a gene (or genes) responsible for autism lies at 2q35 or 8q21.2. The results present a step towards identifying genes predisposing to autism.
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PMID:A cryptic deletion of 2q35 including part of the PAX3 gene detected by breakpoint mapping in a child with autism and a de novo 2;8 translocation. 1207 Feb 44

Fine mapping of deletion regions in autistic patients represents a valuable screening tool for identifying candidate genes for autism. A number of studies have ascertained associations between autism and terminal 2q deletion with the breakpoint within 2q37. Here we describe a 12-year-old female patient with terminal 2q37.3 cryptic deletion and autistic behaviour. Her clinical features included hypotonia and feeding difficulties during infancy, coarse face with notably prominent forehead, prominent eyebrows, broad flat nasal bridge and round cheeks, small hands and feet with bilateral brachymetaphalangism, proximal implantation of the thumbs and short toenails, mild mental retardation and autistic behaviour. Recorded autistic features included early lack of eye contact and, during infancy, little social interactions, propensity to be stereotypically busy and to get anxious. In order to more closely delineate the linkage region for autism within 2q37, the findings in this patient were combined to those in 2 previously reported siblings with a well documented 2q37.3 deletion, but without autistic disorder. The exact size of the deleted segment was determined by mapping the deleted region in each group with a series of specific BAC clones linearly ordered on the 2q37 region. The deletion in the autistic patient appeared to be larger [breakpoint flanked by more centromeric clones RP11-680016 (236.9 Mb) and 201F21 (237.4 Mb)] than in the non autistic siblings [more telomeric clones RP11-205L13 (237.8 Mb) and 346114 (238.2 Mb)], revealing a distance of maximum 1.3 Mb between the breakpoints. Accordingly, the extent of the candidate region for susceptibility genes for autism on distal 2q is reduced to maximum 1.3 Mb. Comparison with another well documented autistic patient from the literature results in the same conclusion. These findings represent thus a further step towards identifying genes predisposing to autism.
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PMID:Deletion 2q37.3 and autism: molecular cytogenetic mapping of the candidate region for autistic disorder. 1551 21

Cri du Chat syndrome (CdCs) is a well-defined clinical entity, with an incidence of 1/15,000 to 1/50,000. The critical region for CdCs has been mapped to 5p15, with the hallmark cat-like cry sublocalized to 5p15.3 and the remaining clinical features to 5p15.2. We report findings in a subject with a de novo t(5;7)(p15.2;p12.2) and an inv(3)(p24q24), who was found to have a cryptic microdeletion in the critical region for CdCs detected using a 1-Mb genomic microarray. In addition to 5p deletion, the proband had a de novo single clone loss at the 3p breakpoint of inv(3)(p24q24) and a familial single clone deletion at 18q12. Deletions were confirmed using microsatellite analysis and fluorescence in situ hybridization. The 5p deletion encompasses approximately 3 Mb, mapping to the border between bands 5p15.2 and 5p15.31. The single clone deletion on chromosome 3 maps to 3p24.3-3p25, for which there is no known phenotype. The clinical features of our proband differ from the characteristic CdC phenotype, which may reflect the combined effect of the two de novo microdeletions and/or may further refine the critical region for CdCs. Typical features of CdCs that are present in the proband include moderate intellectual disability, speech, and motor delay as well as dysmorphic features (e.g. broad and high nasal root, hypertelorism, and coarse facies). Expected CdCs features that are not present are growth delay, microcephaly, round facies, micrognathia, epicanthal folds, and the signature high-pitched cry. Behavioral traits in this subject included autism spectrum disorder, attention-deficit hyperactivity disorder, and unmanageable behavior including aggression, tantrums, irritability, and self-destructive behavior. Several of these behaviors have been previously reported in patients with 5p deletion syndrome. Although most agree on the cat-cry critical region (5p15.3), there is discrepancy in the precise location and size of the region associated with the more severe manifestations of CdCs. The clinical description of this proband and the characterization of his 5p deletion may help to further refine the phenotype-genotype associations in CdCs and autism spectrum disorder.
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PMID:A variant Cri du Chat phenotype and autism spectrum disorder in a subject with de novo cryptic microdeletions involving 5p15.2 and 3p24.3-25 detected using whole genomic array CGH. 1573 71

The serotonergic (5HT) system plays a key role in modulating behaviors, such as appetite and anxiety and has been implicated in many human disorders of mood and mind. Recent studies have begun to identify the signaling molecules and transcriptional cascades governing 5HT neuron development in the hindbrain. Already at early stages, local differences in requirements of 5HT neuron development have become apparent. These studies point toward cryptic heterogeneity amongst 5HT neurons and suggest that 5HT neuron determination and differentiation may be more flexible and less absolute biologic processes than might have been expected. Ultimately, the intrinsic heterogeneity and environmental sensitivity of 5HT neurons may help explain the variability observed in some human behavioral disorders, such as autism spectrum disorder, and the less predictable behavioral consequences of fetal alcohol syndrome.
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PMID:Molecular genetics of the early development of hindbrain serotonergic neurons. 1628 75

To assess the frequency of cryptic subtelomeric rearrangements in children and adolescents with autism spectrum disorders, blood samples were studied using a complete set of subtelomeric FISH probes in 72 children with autism spectrum disorders. All children had normal high resolution karyotype, DNA fra-X analysis, brain MRI, metabolic work-up, and physical/neurological examination. Subtelomeric analysis did not detect abnormalities in any of the subjects, suggesting the uselessness of such investigations in individuals with primary autism spectrum disorders.
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PMID:The yield of subtelomeric FISH analysis in the evaluation of autistic spectrum disorders. 1641 95

Autism spectrum disorders (ASDs) are a group of neurodevelopmental disorders with a strong genetic aetiology. In approximately 1% of cases, duplication of the 15q11-13 region has been reported. We report the clinical, array-comparative genomic hybridization (CGH) and cytogenetic evaluation of two individuals from a multiplex family demonstrating autism due to a maternally inherited gain of 15q11-13. Our findings indicate that unlike most 15q11-13 gains, which are caused by interstitial duplication of this region or supernumerary marker chromosomes deriving from proximal 15q, the 15q gain in this family is the result of abnormal segregation of a cryptic familial translocation with breakpoints at 14q11.2 and 15q13.3. The affected members of this family were found to have a normal karyotype at >550 band resolution. This translocation was identified using the 1-Mb resolution whole genome array (Spectral Genomics). The affected individuals have a gain of seven clones from proximal 15q, a loss of two clones from proximal 14q and a gain of two clones from 6q. Fluorescent in situ hybridization (FISH) analysis with clones from chromosomes 14 and 15, combined with DAPI reverse banding, showed an abnormal karyotype with one normal chromosome 15 and the der(15) t(14;15)(q11.2.;q13.3), resulting in the gain of proximal 15q and the loss of proximal 14q in affected individuals. The duplication of two clones from 6q in the affected subjects was also found in unaffected members of the family. Our findings suggest that the gain of 15q in autism may in some cases be due to cryptic translocations with breakpoints in the pericentromic regions of chromosome 15 and a different acrocentric chromosome. Variation in the size of pericentromic regions of any acrocentric chromosome may justify karyotype and FISH studies of autistic probands and their parents using probes from the 15q proximal region to determine recurrence risk for autism in some families.
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PMID:15q duplication associated with autism in a multiplex family with a familial cryptic translocation t(14;15)(q11.2;q13.3) detected using array-CGH. 1643 93

Cytogenetic imbalances are increasingly being realized as causes of autism. Here, we report a de novo translocation between the short arms of chromosomes 15 and 16 in a female with autism, epilepsy, and global developmental delay. FISH analysis identified a cryptic deletion of approximately 160 kb at the boundary of the first exon and first intron of the 1.7 Mb ataxin-2 binding protein-1 (A2BP1) gene, also called FOX1. Quantitative real time PCR (Q-PCR) analysis verified a deletion of exon 1 in the 5' promoter region of the A2BP1 gene. Reverse transcription PCR (qRT-PCR) showed reduced mRNA expression in the individual's lymphocytes, demonstrating the functional consequence of the deletion. A2BP1 codes for a brain-expressed RNA binding or splicing factor. Because of emerging evidence in the role of RNA processing and gene regulation in pervasive developmental disorders, we performed further screening of A2BP1 in additional individuals with autism from the Autism Genetics Resource Exchange (AGRE) collection. Twenty-seven SNPs were genotyped across A2BP1 in 206 parent-child trios and two regions showed association at P < or = 0.008 level. No additional deletions or clear mutations were identified in 88 probands by re-sequencing of all exons and surrounding intronic regions or quantitative PCR (Q-PCR) of exon 1. Although only nominal association was observed, and no obvious causal mutations were identified, these results suggest that A2BP1 may affect susceptibility or cause autism in a subset of patients. Further investigations in a larger sample may provide additional information regarding the involvement of this gene in the autistic phenotype.
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PMID:Cytogenetic and molecular characterization of A2BP1/FOX1 as a candidate gene for autism. 1750 74

Terminal deletions of chromosome 2 with breakpoints at or within band 2q37, ranging from visible abnormalities to cryptic, subtelomeric deletions, have been recognized with increasing frequency among children with mild-moderate mental retardation, characteristic facial appearance, and behavioral manifestations which often place them on the autism spectrum. The stereotypic facial characteristics include prominent forehead, thin, highly arched eyebrows, depressed nasal bridge, full cheeks, deficient nasal alae and prominent columella, thin upper lip, and various minor anomalies of the pinnae. Abnormal nipples, including inverted nipples, have been reported in a number of cases. CNS, ocular, cardiac, gastrointestinal, renal, and other GU anomalies have been noted in nearly one-third of patients. Of note, coarctation or hypoplasia of the aorta has been described in several affected children. Wilms tumor, renal dysplasia, and tracheomalacia have been reported only with the most proximal breakpoint at band 2q37.1 while a range of GI anomalies, pyloric stenosis, and diaphragmatic defects have been reported with breakpoints throughout the region. A subset of patients with the most distal deletion present phenotypic features which mimic Albright hereditary osteodystrophy (AHO). In addition to the AHO-like phenotype, later onset findings include seizures and cystic kidneys. Timely diagnosis of this recognizable syndrome provides a basis for genetic counseling, appropriate surveillance, and intervention, and avoids unnecessary and expensive diagnostic testing.
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PMID:Chromosome 2q37 deletion: clinical and molecular aspects. 1791 77

The deletion 22q13.3 syndrome (deletion 22q13 syndrome or Phelan-McDermid syndrome) is a chromosome microdeletion syndrome characterized by neonatal hypotonia, global developmental delay, normal to accelerated growth, absent to severely delayed speech, and minor dysmorphic features. The deletion occurs with equal frequency in males and females and has been reported in mosaic and non-mosaic forms. Due to lack of clinical recognition and often insufficient laboratory testing, the syndrome is under-diagnosed and its true incidence remains unknown. Common physical traits include long eye lashes, large or unusual ears, relatively large hands, dysplastic toenails, full brow, dolicocephaly, full cheeks, bulbous nose, and pointed chin. Behavior is autistic-like with decreased perception of pain and habitual chewing or mouthing. The loss of 22q13.3 can result from simple deletion, translocation, ring chromosome formation and less common structural changes affecting the long arm of chromosome 22, specifically the region containing the SHANK3 gene. The diagnosis of deletion 22q13 syndrome should be considered in all cases of hypotonia of unknown etiology and in individuals with absent speech. Although the deletion can sometimes be detected by high resolution chromosome analysis, fluorescence in situ hybridization (FISH) or array comparative genomic hybridization (CGH) is recommended for confirmation. Differential diagnosis includes syndromes associated with hypotonia, developmental delay, speech delay and/or autistic-like affect (Prader-Willi, Angelman, Williams, Smith-Magenis, Fragile X, Sotos, FG, trichorhinophalangeal and velocardiofacial syndromes, autism spectrum disorders, cerebral palsy). Genetic counseling is recommended and parental laboratory studies should be considered to identify cryptic rearrangements and detect parental mosaicism. Prenatal diagnosis should be offered for future pregnancies in those families with inherited rearrangements. Individuals with deletion 22q13 should have routine examinations by the primary care physician as well as genetic evaluations with referral to specialists if neurological, gastrointestinal, renal, or other systemic problems are suspected. Affected individuals benefit from early intervention programs, intense occupational and communication therapies, adaptive exercise and sport programs, and other therapies to strengthen their muscles and increase their communication skills. No apparent life-threatening organic abnormalities accompany the diagnosis of deletion 22q13.
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PMID:Deletion 22q13.3 syndrome. 1850 57


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