RESUMEN
Parents of children with 22q11.2 deletion syndrome (22q11DS) report concern about the psychiatric manifestations of the condition, but typically receive little information about this in clinical encounters and instead find information about it elsewhere. We developed an educational booklet about the psychiatric manifestations of 22q11DS and assessed its utility among parents of children with the condition. First, six parents of individuals with 22q11DS completed cognitive interviews to review an established generic booklet about the genetics of psychiatric conditions-and to suggest 22q11DS-specific adaptations. We used these suggestions to develop a novel booklet specific to psychiatric conditions and 22q1DS. Then, before and 1-month after reading the novel 22q11DS-specific online booklet, 73 parents of children with 22q11DS (with/without psychiatric conditions) completed validated scales (measuring empowerment, stigma, intolerance of uncertainty), an adapted version of a scale measuring worry about their child developing psychiatric illness, and purpose-designed items assessing perceptions of understanding of 22q11DS and mental illness, confidence in recognizing early signs, etc. After reading the 22q11DS online booklet, participants' feelings of empowerment increased (p = 0.002), while feelings of worry about their child developing psychiatric illness decreased (p = 0.05), and they reported better understanding 22q11DS and mental illness, and increased confidence in recognizing early warning signs. There is potential benefit in broadly distributing this educational booklet to parents of children with 22q11DS.
RESUMEN
Bacteriophages Awesomesauce and LastJedi infect Mycobacterium smegmatis mc2155. While the Awesomesauce genome is 57,054 bp with 94 protein-coding genes, the LastJedi genome is 55,149 bp with 94 protein-coding genes. Nucleotide sequence comparison in Phamerator detected synteny between Awesomesauce gp49 to gp61 and singleton LilSpotty. Whole-genome BLASTn alignments revealed that LastJedi strongly resembles Clifton (99.41% identity).
RESUMEN
BACKGROUND: Microdeletions of the MEF2C gene are linked to a syndromic form of autism termed MEF2C haploinsufficiency syndrome (MCHS). MEF2C hypofunction in neurons is presumed to underlie most of the symptoms of MCHS. However, it is unclear in which cell populations MEF2C functions to regulate neurotypical development. METHODS: Multiple biochemical, molecular, electrophysiological, behavioral, and transgenic mouse approaches were used to characterize MCHS-relevant synaptic, behavioral, and gene expression changes in mouse models of MCHS. RESULTS: We showed that MCHS-associated missense mutations cluster in the conserved DNA binding domain and disrupt MEF2C DNA binding. DNA binding-deficient global Mef2c heterozygous mice (Mef2c-Het) displayed numerous MCHS-related behaviors, including autism-related behaviors, changes in cortical gene expression, and deficits in cortical excitatory synaptic transmission. We detected hundreds of dysregulated genes in Mef2c-Het cortex, including significant enrichments of autism risk and excitatory neuron genes. In addition, we observed an enrichment of upregulated microglial genes, but this was not due to neuroinflammation in the Mef2c-Het cortex. Importantly, conditional Mef2c heterozygosity in forebrain excitatory neurons reproduced a subset of the Mef2c-Het phenotypes, while conditional Mef2c heterozygosity in microglia reproduced social deficits and repetitive behavior. CONCLUSIONS: Taken together, our findings show that mutations found in individuals with MCHS disrupt the DNA-binding function of MEF2C, and DNA binding-deficient Mef2c global heterozygous mice display numerous MCHS-related phenotypes, including excitatory neuron and microglia gene expression changes. Our findings suggest that MEF2C regulates typical brain development and function through multiple cell types, including excitatory neuronal and neuroimmune populations.