Two novel mutations causing familial benign hypocalciuric hypercalcaemia in three Scottish families.

BACKGROUND AND AIMS: Familial benign hypocalciuric hypercalcaemia (FBHH) is a benign autosomal dominantly inherited condition which results in elevated serum calcium and low urinary calcium. This condition is of clinical interest because it can be mistakenly diagnosed as primary hyperparathyroidism (PHP). In most cases FBHH can be shown to be due to a mutation in the calcium sensing receptor (CASR) gene and we aimed to find the causative mutation in three Scottish kindreds with FBHH. METHODS: We used a combination of denaturing gradient gel electrophoresis and direct DNA sequencing to detect mutations in the CASR gene. RESULTS: We detected a mutation in the CASR gene in each of the three kindreds. Two different mutations were detected (the same one was present in two kindreds). Neither mutation has been reported previously. All hypercalcaemic individuals from each kindred had the appropriate mutation while all normocalcaemic individuals did not. CONCLUSION: In the vast majority of kindreds with FBHH which have been reported previously, the CASR mutation responsible is private to that kindred. In three Scottish kindreds we have identified two new mutations.

Isolation of novel, transcriptionally active AP-1 binding sites: implications for cellular transformation.

Increased AP-1 DNA-binding activity, in the context of TRE-binding, is not a consequence of Fos transformation. In this report we investigate the possibility of a change in binding site preference by vFosAP-1 compared with AP-1 from an untransformed cell. Fos binding sites were immunoselected from random sequence oligonucleotides using a pan Fos anti-serum with nuclear protein from quiescent FBRp75v-fos-transformed (FBR) and normal (208F) rat fibroblasts. The selected oligonucleotides were aligned by computer and a consensus described for the sequences bound by AP-1 from the two cell lines. The vFos binding site is shown to be a consensus TRE, whereas the sequence ACCACATC is described as the cellular Fos protein family consensus. We demonstrate that sequences differing from the TRE consensus can bind AP-1 and direct transcription. AP-1 DNA-binding activity differs between normal and transformed cells with several of the selected oligonucleotides. These sequences also demonstrate differential transcriptional activation between normal and transformed cells. In particular, the 208F consensus has no transcriptional activity in FBR cells. Further, EGF differentially influences the transcriptional activity of the oligonucleotides in 208F and FBR cells. Our results suggest that AP-1 may change its preferred binding site depending on the proteins available at any given time, the sequences flanking a non-consensus TRE or even the environment in which the cell exists. These differences in binding site preference and transcriptional activation may result in the increased transforming ability of the v-fos oncogene compared with the c-fos proto-oncogene and may extend the potential target genes beyond those with an AP-1 consensus binding site.

Regulation of a multigenic invasion programme by the transcription factor, AP-1: re-expression of a down-regulated gene, TSC-36, inhibits invasion.

The transcription factor AP-1 (activator protein-1) is required for transformation by many oncogenes, which function upstream of it in the growth factor-ras signal transduction pathway. Previously, we proposed that one role of AP-1 in transformation is to regulate the expression of a multigenic invasion programme. As a test of this proposal we sought to identify AP-1 regulated genes based upon their differential expression in 208F rat fibroblasts transformed by FBR-v-fos (FBR), and to determine if they functioned in the invasion programme. Subtracted cDNA libraries specific for up- or down-regulated genes in FBRs compared to 208Fs were constructed and analysed. Northern analysis revealed that the cDNAs in both libraries represented differentially expressed genes. Nucleic acid sequence analysis of randomly selected cDNA clones from each library coupled with searches of nucleic acid and amino acid sequence databases determined that many of the cDNAs represented proteins that function in various aspects of the invasion process. Functional analysis of one the down-regulated genes, TSC-36/follistatin-related protein (TSC-36/Frp), which has not previously been associated with invasion, demonstrated that its expression in FBRs inhibited in vitro invasion. These results support the proposal that AP-1 in transformed cells regulates a multigenic invasion programme.

Effect of iron and retinoic acid on the control of transferrin receptor and ferritin in the human promonocytic cell line U937.

The effect of changes in iron availability and induction of differentiation on transferrin receptor expression and ferritin levels has been examined in the promonocytic cell line U937. Addition of iron (as 200 micrograms/ml saturated transferrin) or retinoic acid (1 microM) both caused approx. 70% reduction in the average number of surface transferrin receptors, while the iron chelator desferrioxamine caused an 84% increase. Comparable changes also occurred in the levels of transferrin receptor mRNA. Neither iron nor retinoic acid significantly altered the half-life of transferrin receptor mRNA in the presence of actinomycin D (approx. 75 min) but a 10-fold increase in stability occurred in the presence of desferrioxamine. Iron and retinoic acid both caused an increase in intracellular ferritin levels (approx. 4-and 3-fold, respectively), while desferrioxamine reduced ferritin levels by approx. two-thirds. The effect of iron and retinoic acid added together did not differ greatly from that of each agent alone. None of the treatments greatly affected levels of L-ferritin mRNA. Virtually no H-ferritin mRNA was detected in U937 cells. These results show that changes in ferritin and transferrin receptor caused by treatment with retinoic acid are similar to those induced by excess iron, and suggest that changes in these proteins during cell differentiation are due to redistribution of intracellular iron into the regulatory pool(s), rather than to iron-independent mechanisms.

A B1 repetitive sequence near the mouse beta-major globin gene.

A sequence which lies 2.8 kb to the 3' side of the BALB/c mouse beta-major globin gene has been identified by its ability to hybridise to a member of the human Alu repetitive sequence family. Nucleotide sequencing revealed a 133-bp region that shows 89% homology to the consensus sequence of the B1 family, the murine equivalent of the Alu family. To the 3' side of this sequence is a 31-bp region, C(A)3(C)2T(C)3G(C)11(A)9, which contains oligo(C) and oligo(A) tracts. The whole 164-bp sequence is flanked by a 16-bp imperfect direct repeat, G(A)4GGAGTCTCATAG. The orientation of the B1 sequence is such that transcription by RNA polymerase III would be expected to occur in the same direction as transcription of the neighbouring beta-major globin gene by RNA polymerase II.

Studies on the conformation of the 3' terminus of 18-S rRNA.

We have studied the conformation of the 3' end of 18-S RNA from human, hamster and Xenopus laevis cells. The 3'-terminal oligonucleotide in a T1 ribonuclease digest of 18-S RNA from HeLa cells was identified, using a standard fingerprinting method. The sequence (G)-A-U-C-A-U-U-A, established by Eladari and Galibert for HeLa 18-S rRNA, was confirmed. An identical 3' terminus is present in hamster fibroblasts and Xenopus laevis cells. The ease of identification of this oligonucleotide has enabled us to quantify its molar yield relative to several other oligonucleotides, and hence to analyse the 3' terminus by several conformation probes. Its sensitivity to S1 nuclease, limited T1 ribonuclease digestion, bisulphite modification and carbodiimide modification was consistent with the terminal oligonucleotide being in a highly exposed conformation. The m6/2A-m6/2A-C-containing sequence of 18-S rRNA also appears to be in an exposed location on the basis of three of these probes.

'ZSTATS'--a statistical analysis for potential Z-DNA sequences.

We have developed a FORTRAN programme for scanning DNA sequences for potential Z-DNA forming regions using the One-Sample Runs Test. The programme also detects other non-random arrangements of purines and pyrimidines on the same strand and will detect purine- or pyrimidine-rich strands and G:C- or A:T-rich regions. A series of test statistics are produced as a graphical output and these have been used to search a number of beta- type globin DNA sequences for potential Z-DNA regions whose biological significance is briefly discussed.

Cell type-specific methylation of an intronic CpG island controls expression of the MCJ gene.

Over 50% of human genes are associated with CpG islands and DNA methylation within such CpG islands has been clearly correlated with inhibition of expression. Whereas changes in DNA methylation play a key role in a number of human diseases, in particular cancer, in normal DNA CpG islands are nearly always methylation free, regardless of the expression status of the associated gene. Only limited evidence supports a role for DNA methylation in controlling tissue-specific expression in adult somatic tissue. Loss of expression of the MCJ gene has previously been linked to increased chemotherapeutic drug resistance in ovarian cancer. We report that loss of expression of MCJ in drug-resistant ovarian cancer cell lines depends on methylation of a CpG island within its first exon, but is independent of methylation within the promoter region. Furthermore, cell type-specific expression of the MCJ gene in normal cells also depends on the methylation status of the CpG island within its first exon. The MCJ CpG island is methylated and the gene is not expressed in cells of epithelial origin, but unmethylated and expressed in cells of lymphocyte or fibroblast origin. Chromatin immunoprecipitation assays determined that MCJ CpG island methylation was associated with loss of histone acetylation in ovarian epithelial cells compared with unmethylated fibroblast cells. Reduced acetylation was observed not only within the CpG island, but also within the promoter region, suggesting that CpG island methylation may direct alterations in chromatin structure within the promoter region, leading to gene inactivation.

Cloning and characterisation of the abundant cytoplasmic 7S RNA from mouse cells.

A cDNA library has been prepared from mouse embryo small RNAs and screened for the presence of clones complementary to the highly abundant cytoplasmic 7S RNA. One clone (pA6) was selected which hybridized exclusively with 7S RNA on a Northern blot prepared from cytoplasmic RNA run on high resolution polyacrylamide/urea gels. Sequence analysis of this clone has shown that at least 65 nucleotides at the 5' end of 7S RNA are extensively homologous with the highly repeated mouse B1 family. Heterologous hybridisations between the cloned mouse 7S sequence and RNAs prepared from rat, human and chick cells have shown that the non-B1 part of the 7S RNA molecule has been highly conserved during recent eucaryotic evolution. There are multiple copies of 7S RNA genes in the genomes of mouse, human, rat and chick cells, but substantial differences exist in copy number and genomic organisation in these organisms.

Regulation of the relative abundances of c-myc mRNAs in human promyelocytic HL60 cells.

Transcription of the c-myc gene is initiated mainly from two promoters, P1 and P2. By S1 nuclease analysis we found that there is 8 times more P2- than P1-initiated RNA in total RNA from HL60 cells. The half-lives of P1- and P2-initiated transcripts are 26 and 18 min, respectively, so the difference in the relative abundance of the mRNAs is not due to differences in their stabilities. The relative rates of transcription from the P1 and P2 promoters, estimated by in vitro nuclear run-on analysis, were found to differ by about 10-fold, sufficient to account for the difference in the steady-state levels of the two mRNAs. The abundance of c-myc mRNA changes dramatically during differentiation of HL60 cells. Dimethyl sulphoxide causes a very rapid reduction in total c-myc mRNA, while with phorbol ester a transient increase occurs followed by a more gradual decline. At no time during these dramatic alterations were significant changes detected in the relative abundance of P1- and P2-initiated mRNAs, or in their stabilities.

Effect of aluminium on iron uptake and transferrin-receptor expression by human erythroleukaemia K562 cells.

Incubation of human erythroleukaemia K562 cells with Al-transferrin inhibited iron uptake from 59Fe-transferrin by about 80%. The inhibition was greater than that produced by a similar quantity of Fe-transferrin. Preincubation of cells for 6 h with either Al-transferrin or Fe-transferrin diminished the number of surface transferrin receptors by about 40% compared with cells preincubated with apo-transferrin. Al-transferrin did not compete significantly with Fe-transferrin for transferrin receptors and, when cells were preincubated for 15 min instead of 6 h, the inhibitory effect of Al-transferrin on receptor expression was lost. Both forms of transferrin also decreased the level of transferrin receptor mRNA by about 50%, suggesting a common regulatory mechanism. Aluminium citrate had no effect on iron uptake or transferrin-receptor expression. AlCl3 also had no effect on transferrin-receptor expression, but at high concentration it caused an increase in iron uptake by an unknown, possibly non-specific, mechanism. Neither Al-transferrin nor AlCl3 caused a significant change in cell proliferation. It is proposed that aluminium, when bound to transferrin, inhibits iron uptake partly by down-regulating transferrin-receptor expression and partly by interfering with intracellular release of iron from transferrin.

A negative regulatory sequence near the mouse beta-maj globin gene associated with a region of potential Z-DNA.

The possible regulatory role of DNA sequences situated 5' to the beta-maj globin gene was investigated by two types of assay. First, a long term transformation assay was used to measure the efficiency of transformation of TK- mouse (LATK-) and hamster (BHKTK-) fibroblast cells with DNA molecules made by covalently linking mouse and human DNA fragments to the herpes simplex virus (HSV-1) thymidine kinase (tk) gene in the plasmid pTK1. When the promoter regions from the mouse beta-maj globin or the human epsilon-globin genes are substituted for the viral promoter in the tk gene transformation occurs with 10-20% of the efficiency of the original plasmid. A fragment (H1), containing sequences between 344 and 1413 bp upstream from the mouse beta-maj globin cap site, almost completely abolishes transformation when inserted next to hybrid tk genes containing the mouse beta-globin or human epsilon-globin promoter but has no effect on the intact tk gene. The effect can be demonstrated with the H1 fragment in either orientation relative to the tk gene. Secondly, in transient expression assays the H1 fragment strongly inhibits transcription when covalently linked to the tk gene under control of either globin promoter, but not when linked to the tk gene with its own promoter. The H1 fragment contains 53 bp of purine-pyrimidine alternation (ACAT)n as part of a larger region potentially capable of adopting a Z-DNA conformation.

Structure of human ferritin light subunit messenger RNA: comparison with heavy subunit message and functional implications.

Ferritin has a protein shell of 5 X 10(6) Da consisting of 24 subunits of two types, a heavier (H) chain of 21,000 Da and a lighter (L) chain of 19,000 Da. A cDNA clone of the messenger for the L subunit has been isolated from a human monocyte-like leukemia cell line. The clone contains an open reading frame of 522 nucleotides coding for an amino acid sequence matching 97% of the published sequence of human liver ferritin L subunit determined by sequenator, but it corresponds to only 55% of the reported amino acid sequence of a human liver H-subunit clone. Nevertheless, computer analysis of the subunit conformations predicted from the open reading frames of the L and H clones shows that most of the amino acid differences are conservative and would allow both subunits to form the five alpha-helices and beta-turns established by x-ray crystallography for horse spleen ferritin subunits. This suggests that L and H subunits are structurally interchangeable in forming an apoferritin shell. The 5' untranslated region of our human ferritin L clone has considerable homology with that of the rat liver ferritin L clone in the region immediately upstream from the initiator codon, notably showing an identical sequence of 10 nucleotides at the same position in both subunit clones that may participate in regulating the known activation of ferritin mRNA after iron administration. Extensive homology, including several blocks of nucleotides, was identified between the 3' untranslated regions of the human and rat L clones. The common structural features of the H and L subunits lead us to conclude that they have diverged from a single ancestral gene.

Repetitive DNA sequences near three human beta-type globin genes.

Five repetitive DNA sequences, of average length 259 bp, have been identified in the intergenic regions which flank three human beta-tupe globin genes. A pair of inverted repeat sequences, separated by 919 bp, was found 1.0 kb to the 5' side of the epsiln-globin gene. Each contains a homologous Alu I site. Another repetitive sequence, with the same orientation as the inverted repeat sequence closest to the epsilon-globin gene, lies about 2.2 kb to the 5' side of the delta-globin gene. A pair of inverted repeat sequences, with the same relative orientations as the other pair and separated by about 800 bp, was found about 1.5 kb to the 3' side of the beta-globin gene.