Delineation of a region responsible for panhypopituitarism in 20p11.2.

We report on the case of a young woman with a de novo 20p11.21p11.23 deletion, discovered by array-CGH. She has behavioral troubles with autistic traits, intellectual disability, panhypopituitarism, severe hypoglycemia, epilepsy, and scoliosis. The majority of the reported 20p deletions are located on the 20p12 region, covering the JAG1 gene responsible for the Alagille syndrome. More proximal deletions are even rarer, with very few cases described in the literature to date. The deletion carried by our patient is, to our knowledge, the smallest described de novo proximal 20p11.2 deletion. It was first discovered by 0.5 Mb BAC array-CGH, further delineated using an oligonucleotide array, and finally confirmed by fluorescence in situ hybridization. The deletion is 4.22 Mb in size, with the exact location on chr20: 19.810.034-24.031.344 (Feb. 2009, GRCh37/hg19). In light of the other reported cases that display genomic and phenotypic overlap with our patient, we discuss the phenotype of our patient, in order to further delineate the 20p proximal deletion phenotype. We propose a minimal critical region responsible for panhypopituitarism with global developmental delay, intellectual disability, scoliosis and facial dysmorphism. Moreover, considering the deleted genes, we highlight the impact of the deletion of this minimal critical region on the Shh signaling pathway.

Partial Xp11.23-p11.4 duplication with random X inactivation: clinical report and molecular cytogenetic characterization.

Partial duplications of the short arm of the X chromosome are relatively rare and have been described in males and females. We describe a 4 10/12-year-old girl presenting with developmental delay, severe language retardation and minor anomalies with slightly elevated head circumference (+1.8 SD), prominent forehead, wide palpebral fissures and anteverted nares. No pigmentary dysplasia of the skin was present. The external genitalia were normal. The karyotype completed by cytogenetic analysis with the Whole Chromosome Painting probe of chromosome X revealed a de novo partial duplication of the short arm of an X chromosome. In order to further characterize the duplicated segment, we used a series of BAC probes extending from band Xp11.22 to Xp22.1. BACs from Xp11.23 to Xp11.4 were duplicated. The karyotype was finally defined as 46,X,dup(X)(p11p11).ish dup(X)(p11.23p11.4)(WCPX+,RP11-416I6++,RP11-386N14++,RP11-466C12++). The X-inactivation status was studied using the human androgen receptor (HUMARA) and the FRAXA locus methylation assay. Unexpectedly, the two X chromosomes were found to be randomly inactivated, in the proband. Indeed, usually, in women with structurally abnormal X chromosome, the abnormal X chromosome is preferentially inactivated and those patients share an apparent normal phenotype. So, we speculate that in the present case, the phenotype of the patient could be explained by a functional disomy of the genes present in the duplicated region. We will discuss the possible implication of these genes on the observed phenotype.

Unbalanced inherited complex chromosome rearrangement involving chromosome 8, 10, 11 and 16 in a patient with congenital malformations and delayed development.

Complex chromosome rearrangements (CCR) are rare structural chromosome aberrations that can be found in patients with phenotypic abnormalities or in phenotypically normal patients presenting, however, recurrent miscarriages or infertility. Conventional karyotype generally allows their identification. However, molecular cytogenetic methods can reveal subtle rearrangements. We report, here, the identification of an unbalanced maternally inherited CCR in a boy with multiple congenital malformations and delayed development. High-resolution karyotype completed by molecular cytogenetic prompted us to precise the rearrangements. The healthy mother was found to carry a balanced de novo CCR that implicates four chromosomes (8, 10, 11 and 16), six breakpoints, three translocations and an insertion. The malsegregation of this CCR had led, in her son, to partial 10p12.3 to 10p14 deletion, a chromosomal region associated with the DiGeorge like phenotype.