Homozygous premature truncation of the HERG protein : the human HERG knockout.

Background-In long-QT syndrome (LQTS), heterozygosity for a mutation in 1 of the K(+) channel genes leads to prolongation of the cardiac action potential, because the aberrant protein exhibits "loss of function." HERG, which is involved in LQT2, is the gene encoding the rapid component of the delayed rectifier, I(Kr). Methods and Results-In a consanguineous family, a stillbirth was followed by the premature birth of a child in distress due to ventricular arrhythmia in the presence of QT prolongation. LQTS was diagnosed, beta-blocker therapy was begun, and a pacemaker was implanted. She developed well and remained symptom-free for 1.5 years. In the index patient, we identified a duplication of bp 558 to 600 in exon 4 of HERG on both alleles. This will result in a frameshift and a premature stop codon before the S1 domain of the HERG protein. Because it is present on both alleles, no functional I(Kr) is anticipated. The same mutation was found heterozygously in both parents and homozygously in the stillborn brother. Conclusions-It is concluded that absence of I(Kr) gives rise to a severe cardiac phenotype, with no indication of malfunction of any other organ.

Phenotypic discordance upon paternal or maternal transmission of duplications of the 11p15 imprinted regions.

We report on two families in which the parental origin of duplications of the BWS imprinted regions on chromosome 11p15 influences the phenotype. In family A the transmission of a t(4; 11)(q35; p15.5) translocation results in duplication of BWSIC1 and BWSIC2. If this duplication is transmitted from the father, the extra chromosomal material has the paternal imprint. This results in overexpression of IGF2 and consequently an overgrowth phenotype. If the duplication is transmitted from the mother, the extra chromosomal material has the maternal imprint, resulting in overexpression of CDKN1C and a growth retardation phenotype. In family B an interstitial duplication of BWSIC1 results in an overgrowth phenotype when inherited from the father, similar to family A. However, no change in phenotype is observed if the duplication is transmitted through the mother suggesting that increased dosage of maternally expressed genes in the duplicated region has limited effect on the phenotype.