HJV gene mutations in European patients with juvenile hemochromatosis.

A large variety of mutations within the genes encoding hepcidin (HAMP) and hemojuvelin (HJV) have been identified in patients with the severe iron overload disorder juvenile hemochromatosis (JH). The aim of the present study was to evaluate the molecular background of JH in patients from central parts of Europe. Sequence analyses of HAMP and HJV were performed in seven JH patients from six families from Germany, Slovakia, and Croatia. For detection of the G320V mutation in HJV, a rapid polymerase chain reaction-based assay was developed. No mutations were found within the HAMP gene. Six of seven (86%) JH patients carried at least one copy of the G320V mutation within the HJV gene. Four of these patients were homozygous for the G320V mutation. In addition, two novel HJV mutations were identified (C119F and S328fsX337). Taken together, the present study demonstrates that molecular analysis of the HJV gene is a powerful tool for an early and reliable diagnosis of JH. As in affected patients from Greece, the G320V mutation seems to be widely distributed among JH patients from central parts of Europe. Therefore, detection of the G320V mutation could identify the majority of JH cases from these regions non-invasively.

Variants of the long control region and the E6 oncogene in European human papillomavirus type 16 isolates: implications for cervical disease.

High-risk human papillomavirus types, especially type 16, are risk factors for cervical cancer. Preliminary studies suggest that HPV16 polymorphisms in the long control region or in the E6 gene may alter the oncogenic potential of the virus. This could partially explain why some lesions progress to cancer while others do not. A systematic study combining the long control region and E6 has not been undertaken. This prompted us to investigate the long control region and the E6 in northern European women infected with human papillomavirus 16. We identified the sequence variations of both regions and investigated the long control region promoter activity among various isolates. In addition, we correlated the distribution of long control region and E6 polymorphisms with disease status. We analyzed 45 samples from Swedish and Finnish women. The long control region and the E6 gene were sequenced after polymerase chain reaction long control region fragments of six European isolates covering the majority of polymorphisms in this region were ligated into the pALuc vector and used for luciferase assays. In European HPV16 isolates, polymorphisms in the long control region are more frequent than in the E6 gene. Nevertheless, the promoter function was slightly increased in only one of the tested European long control region variants. In addition, we found a specific European E6 variant, L83V, to be enriched in high-grade lesions and cancer rather than a specific European long control region variant. The difference in oncogenicity between European HPV16 genotypes is more probably due to an altered property of the corresponding E6 proteins rather than to an altered activity of the P97 promoter.

An antibody directed against residues 100-119 within the alpha-helical domain of Galpha(s) defines a novel contact site for beta-adrenergic receptors.

A polyclonal antiserum that recognizes residues 100-119 within the alpha-helical domain of Galpha(s) (K-20) caused a dissociation of G(s) into its component subunits and activated a cholera toxin-sensitive high affinity GTPase. Consistently, the antibody mimicked the stimulatory effects of the beta-adrenergic agonist, isoproterenol, on adenylyl cyclase, which is mediated by Galpha(s), and its inhibitory action on NADPH-dependent H(2)O(2) generation, a Gbetagamma-mediated response. A peptide corresponding to the target sequence of K-20 not only neutralized the receptor-mimetic effects of the antibody but inhibited the whole spectrum of isoproterenol action as well, including its antagonistic effects on adenylyl cyclase and NADPH-dependent H(2)O(2) generation. By contrast, COOH-terminal anti-Galpha(s) selectively inhibited the stimulatory effect of isoproterenol on cAMP formation without affecting its inhibitory effect on NADPH-dependent H(2)O(2) generation. The data are consistent with the concept that beta-adrenergic receptors interact with multiple sites on Galpha(s) each playing a distinct role, and strongly suggest that antibody K-20 defines a novel contact site for beta-adrenergic receptors that localizes to the alpha-helical domain and is essential for eliciting the complete spectrum of beta-adrenergic responses.

The nucleotide sequence of Saccharomyces cerevisiae chromosome XII.

The yeast Saccharomyces cerevisiae is the pre-eminent organism for the study of basic functions of eukaryotic cells. All of the genes of this simple eukaryotic cell have recently been revealed by an international collaborative effort to determine the complete DNA sequence of its nuclear genome. Here we describe some of the features of chromosome XII.