Abstract
Complex chromosomal rearrangements (CCRs) describe structural rearrangements, essentially translocations, involving at least three breakpoints on two or more chromosomes. Although they are rare in humans, their clinical identification is important since CCR carriers can display various phenotypes which include phenotypically normal subjects, infertile males and patients with mental retardation and/or congenital abnormalities. The rearrangement can be de novo or familial. The use of fluorescent in situ hybridization assays and molecular techniques for the characterization of CCRs have indicated that the rearrangements could be more complex than initially assumed. Accumulating data have revealed that the mechanisms underlying the genesis of CCRs remain elusive. We performed a large PubMed search in order to summarize the current knowledge in this field and address important aspects of CCR formation and meiotic behavior, highlighting the complexity of these rearrangements at the chromosomal and genomic level. The review of published data indicates that the complexity of CCRs is becoming increasingly known, thanks to the application of more and more efficient molecular techniques. These approaches have allowed the precise sequence analysis of breakpoints and the identification of insertions, deletions, inversions and recombination events. New models have been proposed for the formation of CCRs, based on replication-based mechanisms and specific sequence elements. Their meiotic behavior has been discussed in the light of these new molecular data. Despite the increasing understanding of the mechanisms involved in their genesis, CCRs arise as unique, complex events for which the genetic and reproductive counseling of carriers remains a challenge.
Highlights
Complex chromosome rearrangements (CCRs) are structural abnormalities involving more than two chromosome breaks with exchanges of chromosomal segments
The second part of this review focuses on the meiotic behavior of CCRs and implications for fertility, summarizing data on meiotic segregation and discussing recent results on direct sperm chromosome analysis in male carriers of CCRs and the introduction of preimplantation genetic diagnosis (PGD) for CCR couples
The general figures determined by Gorski et al (1988) and Madan et al (1997), for the overall risk of spontaneous abortion in phenotypically normal carriers of CCRs (50%) and the risk of an unbalanced live born child if a pregnancy develops to term (20%), are probably not suitable for the genetic counseling of all CCRs because of the private nature of each CCR
Summary
Complex chromosome rearrangements (CCRs) are structural abnormalities involving more than two chromosome breaks with exchanges of chromosomal segments. To date, ,255 cases of CCRs involving three or more chromosomes have been reported. Various classifications of CCRs have been proposed according to their nature, the number of chromosome breaks, their distribution or the involvement of intra-chromosomal rearrangements. Heterozygous carriers of balanced CCRs are considered to have a high risk for spontaneous abortion or chromosomally abnormal offspring, since the meiotic segregation of a CCR can theoretically lead to numerous unbalanced chromosomal configurations. The difficulty of genetic and reproductive counseling of CCRs is linked to the unique and complex nature of each CCR, and the paucity of available data on their meiotic segregation. Male carriers of CCRs are often subfertile or sterile due to spermatogenesis arrest
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