As our knowledge increases and methods further evolve, it will become straightforward to carry out a comprehensive scan for BKM120 datasheet genetic disorders in ASD, facilitating diagnosis, identifying medical concerns associated with syndromes, and defining subgroups that might be more responsive to specific therapeutic approaches (see below). Conclusions There is overwhelming evidence that ASDs are genetic disorders, but the genetic mechanisms
are varied, involving both inherited and de novo changes, as well as mutations, trinucleotide repeats, Inhibitors,research,lifescience,medical CNVs, and larger chromosomal abnormalities. An increasing proportion of ASD is being recognized as being the result of RVs associated with high ORs. Table I summarizes estimates the prevalence of some genetic variants in subjects ascertained for ASDs. Note that an additional 5% to 10% of cases have been identified with CNVs that are not recurrent but are likely pathogenic (based on size, de novo origin, etc). This suggests that, even with our current knowledge, 20% to 30% of ASDs can be given an etiological diagnosis using standard clinical genetic methods, including high-resolution Inhibitors,research,lifescience,medical karyotyping, array comparative genomic hybridization (array CGH), and MECP2 sequencing in girls,70,71 as well as PTEN sequencing in individuals with extreme macrocephaly68 and the examination of methyl
ation and gene dosage abnormalities in 15q.72 It is of interest that synaptic and neuronal cell adhesion molecules (CAMs) are appearing in Inhibitors,research,lifescience,medical RVs in ASDs. It is also of interest that cytoplasmic proteins that Inhibitors,research,lifescience,medical bind to synaptic CAMs are also being identified. These findings will lead to evidence-based hypotheses as to the molecular and cellular deficits underlying ASDs with differing etiologies. Of particular interest is the replicated
finding of SHANKS deficits, which directly implicates glutamatergic synapse Inhibitors,research,lifescience,medical dysfunction in both autism and Asperger syndrome. This finding is supported by the replicated findings with NRXN1 and NLGNS/4,which can also play a role in excitatory synapse formation, maintenance, and plasticity. As the technology for detecting smaller and smaller deletions and duplications improves and as people take advantage of the newest technologies of ultradeep sequencing, the search for RVs in ASDs will enter a new phase. In this context, a useful model for the genetic and genomic architecture of ASD might be that of MR. In MR several over hundred genes have been found and the evidence is strong that there are more genes to be found. Not only are some of the MR genes associated with ASDs, but as we discover more and more rare variants in autism, it is becoming increasingly clear that the architecture of MR could represent a good model as to what we will find in ASDs. There is empirical evidence that ASD can, in some cases, respond to intensive behavioral interventions.73 Thus, identifying individuals with greater risks of ASD at an earlier age will have important clinical and practical implications.