RESUMEN
Chromoanagenesis is a phenomenon of highly complex rearrangements involving the massive genomic shattering and reconstitution of chromosomes that has had a great impact on cancer biology and congenital anomalies. Complex chromosomal rearrangements (CCRs) are structural alterations involving three or more chromosomal breakpoints between at least two chromosomes. Here, we present a 3-year-old boy exhibiting multiple congenital malformations and developmental delay. The cytogenetic analysis found a highly complex CCR inherited from the mother involving four chromosomes and five breakpoints due to forming four derivative chromosomes (2, 3, 6 and 11). FISH analysis identified an ultrarare derivative chromosome 11 containing three parts that connected the 11q telomere to partial 6q and 3q fragments. We postulate that this derivative chromosome 11 is associated with chromoanagenesis-like phenomena by which DNA repair can result in a cooccurrence of inter-chromosomal translocations. Additionally, chromosome microarray studies revealed that the child has one subtle maternal-inherited deletion at 6p12.1 and two de novo deletions at 6q14.1 and 6q16.1~6q16.3. Here, we present a familial CCR case with rare rearranged chromosomal structures and the use of multiple molecular techniques to delineate these genomic alterations. We suggest that chromoanagenesis may be a possible mechanism involved in the repair and reconstitution of these rearrangements with evidence for increasing genomic imbalances such as additional deletions in this case.
RESUMEN
Synapsin III is a new synapsin family gene with the putative function of synaptogenesis regulation and neurotransmitter release in the brain. The gene was mapped to 22q12-q13, a schizophrenia susceptible region gene as suggested by several linkage studies. Hence, the synapsin III gene is considered a candidate gene of schizophrenia. We systematically sequenced the protein coding and 5'-promoter regions of the synapsin III gene to look for mutations in 62 Han Chinese schizophrenic patients from Taiwan with positive family history. Further case-control association study was performed among 163 patients and 151 controls using the genetic polymorphic markers identified from these 62 patients. Three single nucleotide polymorphisms (SNPs) were identified: g.-631C > G and g.-196G>A at 5'-promoter region, and g.69G>A at exon 1. Besides, no other mutations were identified in these patients. The g.69G>A polymorphism does not alter the amino acid threonine at codon 23 (ACG>ACA). Further case-control association studies also did not find significant differences of genotype or allele frequency distributions of these three polymorphisms between 163 patients and 151 non-psychotic comparison individuals. Hence, our data are not in favor of a large effect of synapsin III gene in the pathogenesis of schizophrenia.
