Elke Back

Deletion mapping on chromosome 10p and definition of a critical region for the second DiGeorge syndrome locus (DGS2)

DiGeorge syndrome (DGS) is a developmental field defect, characterised by absent/hypoplastic thymus and parathyroid, and conotruncal heart defects, with haploinsufficiency loci at 22q (DGS1) and 10p (DGS2). We performed fluorescence in situ hybridisations (FISH) and polymerase chain reaction (PCR) analyses in 12 patients with 10p deletions, nine of them with features of DGS, and in a familial translocation 10p;14q associated with midline defects. The critical DGS2 region is defined by two DGS patients, and maps within a 1 cM interval including D10S547 and D10S585. The other seven DGS patients are hemizygous for both loci. The breakpoint of the reciprocal translocation 10p;14q maps at a distance of at least 12 cM distal to the critical DGS2 region. Interstitial and terminal deletions described are in the range of 10–50 cM and enable the tentative mapping of loci for ptosis and hearing loss, features which are not part of the DGS clinical spectrum.

Absence of Y-specific DNA sequences in human 46,XX true hermaphrodites and in 45,X mixed gonadal dysgenesis

SummaryA search for Y-specific DNA sequences has been performed in a sample of seven 46,XX true hermaphrodites and one 45,X mixed gonadal dysgenesis case and compared with a sample of 11 XX males. Using six Y-specific DNA probes no hybridization signal was obtained in the hermaphrodite group; in contrast, all XX males gave a positive signal with at least one probe. This difference is statistically highly significant. We conclude that the aetiology of true hermaphroditism is different from that of the XX male syndrome. As all cases of the hermaphrodite group are positive for the serological sex-specific antigen (Sxs) it is concluded that this antigen can be present even in the absence of Y-specific DNA.

Familial ring (20) chromosomal mosaicism

SummaryRing (20) chromosomal mosaicism defined by two cell lines (one normal and the other with the ring) has been demonstrated in lymphocyte and fibroblast cultures from three members of a family through two generations. Two carriers of the ring chromosome were affected and showed the typical signs of r(20) syndrome including mental retardation, microcephaly, behavioral disorders, and epilepsy. The epilepsy is characterized by complex partial seizures sometimes evolving secondarily into generalized tonic-clonic seizures and is poorly controlled by or resistant to medical treatment. The mother of the two patients, also a carrier of ring (20) chromosomal mosaicism, was clinically and phenotypically normal and did not exhibit any signs of epilepsy. Lymphocyte and fibroblast cultures from the most severely affected sib, the proband, contained the highest percentage of cells with ring (20) chromosome and revealed the greatest instability of the ring. Though it is assumed that the ring (20) chromosome arose from terminal breakage and reunion in both arms, no loss of genetic material could be documented cytogenetically. Yet the question arises of how ring chromosomal mosaicism can be passed on. One explanation might be that a chromosome 20 predisposed to terminal lesions or breaks is transmitted from the mother to her offspring. Inherited instability of this type might lead to de novo formation of the ring.

Serial duplication of 10 (q11→q22) in a patient with minor congenital malformations

A boy is reported with mild retardation and minimal dysplasias, carrying a serial duplication of 10(q11→q22). The possible origin of the aberrant chromosome is discussed in the context of similar cases from the literature.

Trisomy 22 in a newborn with multiple malformations

SummaryA case of complete trisomy 22 in live-born female child with multiple malformations is reported. The karyotype of the index patient had 46 chromosomes, with one chromosome 22 missing and one supranumerary metacentric chromosome. Different banding methods and in situ hybridization revealed that the extra chromosome consists of the long arms and a part of the short arms of two chromosomes 22. Our report supplies further proof that a fetus with complete trisomy 22 can occasionally survive to term, but the condition is not compatible with life over a long period.

Isochromosome Xq in Klinefelter syndrome: Report of 7 new cases

In this collaborative study we report on 2 prenatally and 5 postnatally diagnosed cases with a 47,X,i(Xq),Y chromosomal constitution. Excepting tall stature, the 5 adult patients showed all typical manifestations of Klinefelter syndrome. Taken together with previously reported cases, these data suggest that Klinefelter syndrome with isochromosome Xq has a favorable prognosis with normal mental development, and with normal-to-short stature. The prevalence of this Klinefelter variant is calculated to be between 0.3-0.9% in males with X chromosome polysomies.

Trisomy 10p due to t(5;10)(p15;p11) segregating in a large sibship.

SummaryA family is reported with a segregating t(5;10)(q15;q11) translocation resulting in a child carrying trisomy 10p. The clinical findings of the patient are compared with trisomy 10p and the Cri-du-Chat syndrome.

Genetic counseling in families with inherited balanced translocations: experience with 36 families

We report on genetic counseling and investigations in 36 families with inherited balanced translocations ascertained in different ways, with special regard to the completeness and reasons for incompleteness of family investigation. Quantitative evaluation of the results of cytogenetic investigations shows that non‐directive genetic counseling was very effective in many families. Yet, in most of the families (34) genetic counseling and investigation remained incomplete in the sense that not all living potential translocation carriers could be counseled or investigated or that the origin of a fresh mutation could not be established by a normal karyotype in the parents of a carrier. Only in seven families could nearly all living potential carriers be counseled and investigated. The most frequent reason for incompleteness was the impossibility of transmitting or refusal to transmit information about the genetic risks to relatives (21 families), whereas direct rejection of investigation by a counseled individual was a rather rare event (18 adults). Families ascertained because of an unbalanced child seem to be more willing to transmit genetic information to relatives than families ascertained in other ways. Non‐directive genetic counseling gave us an insight into the emotional problems arising during counseling of translocation families.

De novo isochromosome 18p in two patients: cytogenetic diagnosis and confirmation by chromosome painting

This report concerns two patients with clinical features typical for tetrasomy 18p syndrome. Chromosomal analysis revealed a male karotype in both cases, with an additional small metacentric marker chromosome, putatively an i(18p). Fluorescent in situ hybridization with a chromosome 18‐specific paint confirmed that the marker chromosome consisted of chromosome 18 material in both cases.

Clinical, cytogenetic and molecular investigations in three patients with Wolf‐Hirschhorn syndrome

Clinical, cytogenetic and molecular studies were performed in three patients with Wolf‐Hirschhorn syndrome (WHS). In all cases the altered chromosome 4 appeared to be the result of a de novo deletion. Cytogenetic investigations located the breakpoint at 4p15.3 and 4p13. With cytogenetic methods it was not possible to decide whether these deletions were terminal or interstitial. DNA methods also failed to define a distal breakpoint within the 4p16.3 region which might have indicated an interstitial deletion. According to the literature, the paternal chromosome 4 is preferentially deleted in most patients with WHS. DNA analysis with polymorphic markers out of the 4p16.3 region revealed that in two of the cases reported here the deleted segment was of paternal and in one case of maternal origin.