Social deficits in Shank3-deficient mouse models of autism are rescued by histone deacetylase (HDAC) inhibition.

Haploinsufficiency of the SHANK3 gene is causally linked to autism spectrum disorder (ASD), and ASD-associated genes are also enriched for chromatin remodelers. Here we found that brief treatment with romidepsin, a highly potent class I histone deacetylase (HDAC) inhibitor, alleviated social deficits in Shank3-deficient mice, which persisted for ~3 weeks. HDAC2 transcription was upregulated in these mice, and knockdown of HDAC2 in prefrontal cortex also rescued their social deficits. Nuclear localization of ß-catenin, a Shank3-binding protein that regulates cell adhesion and transcription, was increased in Shank3-deficient mice, which induced HDAC2 upregulation and social deficits. At the downstream molecular level, romidepsin treatment elevated the expression and histone acetylation of Grin2a and actin-regulatory genes and restored NMDA-receptor function and actin filaments in Shank3-deficient mice. Taken together, these findings highlight an epigenetic mechanism underlying social deficits linked to Shank3 deficiency, which may suggest potential therapeutic strategies for ASD patients bearing SHANK3 mutations.

Association between PTGS2 polymorphism and autism spectrum disorders in Korean trios.

Cyclooxygenase-2 (Cox-2) is an inducible enzyme involved in neuroplasticity and the neuropathology of the central nervous system. This study evaluated the relationship between autism spectrum disorders (ASDs) and polymorphisms of PTGS2 (the gene encoding Cox-2) with 151 Korean family trios including children with ASDs. We found that the A allele of rs2745557 was preferentially transmitted in ASDs (p < 0.01) and that the GAAA haplotype was significantly associated with ASDs (p < 0.01). We also observed statistically significant associations between each genotype and the specific symptom domain scores of ADOS and ADI-R, including communication, qualitative abnormalities in reciprocal social interaction, and overactivity/agitation.

Monoamine oxidases: activities, genotypes and the shaping of behaviour.

The importance of an interaction between environment and biological factors for the expression for a particular behaviour is illustrated by results from a series of adolescents in which effects of platelet MAO activity and psychosocial environment on criminality was investigated. In a favourable environment platelet MAO-B activity was not associated with criminality, while a very strong association was found in adolescents from a bad psychosocial environment. Essentially similar findings were obtained when a MAO-A promoter polymorphism was analysed instead of platelet MAO-B activity. In boys, presence of the low functioning allele seemed to be protective against criminal activity in combination with a good environment, while it predisposed for criminality in a bad psycho-social environment. In girls, instead, homozygosity for the high activity MAO-A allele interacted with environment to predict criminality. Possible mechanisms underlying the role of monoamine oxidases for behaviour are discussed.

Role of monoamine oxidase A genotype and psychosocial factors in male adolescent criminal activity.

BACKGROUND: A number of important sociological, psychological, and biological predictors of adolescent criminal behavior have been identified during the most recent decades. The aim of this study was to replicate recent findings that interactions between a polymorphism in the monoamine oxidase A (MAO-A) gene promoter region and psychosocial factors might predict male adolescent criminal activity. METHODS: A cross-sectional study with a randomized sample from the total population of 16- and 19-year-olds from the county of Västmanland, Sweden. Eighty-one male adolescents, who volunteered to participate, were randomly selected from groups representing different degrees of deviant risk behavior. RESULTS: The present study strongly supports the notion that carrying the 3-repeat allele of the MAO-A-gene promoter increases the risk of male adolescent criminal behavior, when interacting with psychosocial factors. No effects at all of the MAO-A genotype on adolescent criminal activity were found when MAO-A genotype was considered alone (i.e., without its psychosocial context). The explained variance of the bio-psychosocial model (controlling for MAO-A) in this study exceeded the psychosocial model by 12%. CONCLUSIONS: The findings support the notion that genotype and psychosocial factors interact to precipitate male adolescent criminal behavior.

Indolethylamine-N-methyltransferase activity in psychiatric patients and controls.

The level of INMT activity was determined in the sera of 29 psychiatric patients and 11 healthy controls from St. Louis; and in 13 psychiatric patients and 15 healthy controls from Chicago. The level of enzyme activity in the serum of paranoid schizophrenics in the St. Louis group was significantly higher than in other types of schizophrenics. The mean level of enzyme activity in the serum in nonschizophrenic psychiatric patients in the Chicago group was significantly higher than that in the same group of patients from St. Louis. The serum level of INMT activity in all psychiatric patients and schizophrenic patients from St. Louis was positively correlated with severity of delusions. The only significant difference in the Chicago patients was that the occurrence of depressive features was greater in the group of patients with a low serum INMT level than in the group with a high enzyme level.