Early involvement of 6q in surface epithelial ovarian tumors.

Complex karyotypes are often seen in primary surface epithelial ovarian tumors (SEOTs). Conventional cytogenetic as well as fluorescence in situ hybridization analyses coupled with loss of heterozygosity studies identified abnormalities of chromosome 6 as one of the most frequent lesions in these types of tumors. We performed cytogenetic analysis of direct preparations from 40 SEOTs, including borderline tumors and low-, intermediate-, and high-grade carcinomas to verify the frequency of chromosome 6 alterations. We also carried out fluorescence in situ hybridization analysis with a chromosome 6 library and yeast artificial chromosome clones from a region of the same chromosome (6q27). Chromosome 6 abnormalities were identified in 30 of 32 analyzable SEOTs. Twenty-five of 32 cases showed a deletion of 6q irrespective of their histological grade. We wish to underline that this is the first report proving that del(6q) was the most frequent chromosome anomaly in near-diploid SEOTs and that it was the sole anomaly observed in four SEOTs with diploid complement. Our findings suggest that abnormalities of the telomeric region of chromosome 6 (6q27) may be considered one of the earliest lesions in the pathogenesis of ovarian carcinomas.

A new constitutively activating mutation of the Gs protein alpha subunit-gsp oncogene is found in human pituitary tumours.

A new 227 Gln----Lys oncogenic mutation of the Gs alpha subunit (the GTP-binding protein that stimulates adenylyl cyclase) has been found in three out of eight human growth hormone-secreting pituitary tumours of the group 2, characterized by high cAMP and constitutively activated adenylyl cyclase. The additional five group 2 tumours expressed another, previously described mutation, 201 Arg----Cys, while the tumours of group 1, characterized by normal cAMP and adenylyl cyclase activity, expressed neither these nor the two other mutations of the same sites previously described in group 2. The Gln 227 site of alpha s corresponds to the Gln 61 site in the low Mw G protein, p21 ras, where the Leu substitution had already been shown to be oncogenic. The oncogenic potential (gsp oncogene) of the mutations so far observed depends on the reduced GTPase activity intrinsic to alpha s, with constitutive activation of the protein and marked elevation of cAMP. The latter is the intracellular messenger that stimulates growth of pituitary growth hormone-secreting cells and other cell types.

Refinement of the LOH region 1 at 11q23.1 deleted in human breast carcinomas and sublocalization of 11 expressed sequence tags within the refined region.

Loss of constitutive heterozygosity at 11q23 has been detected in various human solid tumors. Here, we described the analysis of a series of normal and tumor pairs from 110 breast carcinomas for the presence of loss of heterozygosity at 11q23 loci. The overall frequency of LOH was 48%, confirming the importance of deletions at 11q23 in breast tumorigenesis. Previously, we have identified two independent regions of LOH at 11q23, the LOH region 1 at 11q23.1 and the LOH region 2 at 11q23.3. The most telomeric region was recently refined between loci D11S1345 and D11S1316, a region of about 1 Mb. However, the LOH region 1, most centromeric, was still not finely refined: the boundaries were defined by loci D11S2000 and D11S897, separated by about 8 Mb. Here, we refined its boundaries between loci D11S1347 and D11S927, a region of about 2 Mb. We have mapped 11 expressed sequence tags (ESTs) within this region and excluded another 20. This study represents a further step toward the identification of the putative tumor suppressor gene found within the LOH region 1 at 11q23.1.

Physical map of the D6S149-D6S193 region on chromosome 6Q27 and its involvement in benign surface epithelial ovarian tumours.

A detailed long range restriction map of the region defined by markers D6S149 and D6S193 on chromosome 6q27 has been constructed. This was achieved by YAC cloning and contig assembling of the same region. Seven YAC clones were found to span the almost 1000 Kb region flanked by the two markers which on the genetic map resulted to be 1.9 cM apart. With some of the characterized YAC clones we undertook a molecular cytogenetic analysis of 20 benign ovarian tumors. The rationale for this was the recent mapping to a region of chromosome 6q27, flanked by markers D6281 and D6S133, of a locus for the SV40-mediated immortalization of human cells (SEN6 gene). Noteworthy we found that the the D6S149-D6S193 region (comprised in the larger D6S281-D6S133 physical interval) was altered in all samples analysed adding support to the occurrence of a immortalization step in this type of tumors.

Cloning and characterization of a senescence inducing and class II tumor suppressor gene in ovarian carcinoma at chromosome region 6q27.

Cytogenetic, molecular and functional analysis has shown that chromosome region 6q27 harbors a senescence inducing gene and a tumor suppressor gene involved in several solid and hematologic malignancies. We have cloned at 6q27 and characterized the RNASE6PL gene which belongs to a family of cytoplasmic RNases highly conserved from plants, to man. Analysis of 55 primary ovarian tumors and several ovarian tumor cell lines indicated that the RNASE6PL gene is not mutated in tumor tissues, but its expression is significantly reduced in 30% of primary ovarian tumors and in 75% of ovarian tumor cell lines. The promoter region of the gene was unaffected in tumors cell lines. Transfection of RNASE6PL cDNA into HEY4 and SG10G ovarian tumor cell lines suppressed tumorigenicity in nude mice. When tumors were induced by RNASE6PL-transfected cells, they completely lacked expression of RNASE6PL cDNA. Tumorigenicity was suppressed also in RNASE6PL-transfected pRPcT1/H6cl2T cells, derived from a human/mouse monochromosomic hybrid carrying a human chromosome 6 deleted at 6q27. Moreover, 63.6% of HEY4 clones and 42.8% of the clones of XP12ROSV, a Xeroderma pigmentosum SV40-immortalized cell line, transfected with RNASE6PL cDNA, developed a marked senescence process during in vitro growth. We therefore propose that RNASE6PL may be a candidate for the 6q27 senescence inducing and class II tumor suppressor gene in ovarian cancer.

Chromosome 6 abnormalities in ovarian surface epithelial tumors of borderline malignancy suggest a genetic continuum in the progression model of ovarian neoplasms.

PURPOSE: We used conventional cytogenetics, molecular cytogenetics, and molecular genetic analyses to study the pattern of allelic loss on chromosome 6q in a cohort of borderline epithelial ovarian tumors. EXPERIMENTAL DESIGN: Fifteen tumor samples were collected from patients undergoing surgery for ovarian tumors. The tumors of borderline malignancy, classified according to the standard criteria, included 4 mucinous and 11 serous tumors. Cytogenetic and molecular cytogenetic (with yeast artificial chromosome clones from 6q26-27) studies were performed on tumor areas contiguous to those used for histological examination ensuring the appropriate sampling. Moreover loss of heterozygosity analysis was performed using PCR amplification of eight microsatellite markers mapping on 6q27 (D6S193, D6S297), 6q26 (D6S305, D6S415, D6S441), 6q21 (D6S287), 6q16 (D6S311), and 6q14 (D6S300). RESULTS: Deletions of this chromosome arm, in particular of 6q24-27, were the most frequent lesions found in this set of tumors. In a tumor with a normal karyotype the only detectable alteration was a deletion of approximately 300 kb within the D6S149-D6S193 interval at band 6q27. This is, to date, the smallest deletion described for borderline tumors. CONCLUSION: Alterations in the above-mentioned interval are a common finding in advanced ovarian carcinomas but also in benign ovarian cysts, implying that some tumors of borderline malignancy may arise from benign tumors and that malignant ones may evolve from tumors of borderline malignancy. Genes located in 6q27 seem to be crucial for this mechanism of early events in ovarian tumorigenesis.

A large 6q deletion is a common cytogenetic alteration in fibroadenomas, pre-malignant lesions, and carcinomas of the breast.

To assess whether early breast lesions are the precursors of invasive carcinomas, three classes of breast lesions, namely benign tumors (including fibroadenomas), putative premalignant lesions (including cases of atypical hyperplasia), and invasive carcinomas, were compared at the cytogenetic and molecular cytogenetic levels. Genetic relatedness was clearly demonstrated by the sharing of several anomalies, among which 6q deletions outnumbered all of the other alterations detected. Indeed, deletions of the long arm of chromosome 6, most likely occurring in epithelial cells, were present in 83.9% of benign breast tumors, 64% of putative premalignant lesions, and 77.4% of analyzable carcinomas. Furthermore, the interval between 6q24 and qter appeared to be the common region of deletion in all three classes of breast lesions, whereas the minimal common region of deletion was 6q27-qter. Interestingly, the latter region was reported previously to be deleted in benign ovarian tumors and recently found to harbor a gene (SEN6) that is important for SV40-mediated immortalization of human cells.

Identification of the 5' end of the gene encoding a human insulin-responsive glucose transporter.

The 5' end of a gene (GLT4) encoding a human insulin-responsive glucose transporter was isolated from a human lambda Fix genomic library and sequenced. The human sequence, as compared to the mouse GLT4 promoter [Kaestner et al., Proc. Natl. Acad. Sci. USA 87 (1990) 251-255], revealed an overall homology of 81%. Putative transcription controlling sequences were identified.

Human allantoicase gene: cDNA cloning, genomic organization and chromosome localization.

Uric-acid-degrading enzymes (uricase, allantoinase, allantoicase, ureidoglycolate lyase and urease) were lost during vertebrate evolution and the causes for this loss are still unclear. We have recently cloned the first vertebrate allantoicase cDNA from the amphibian Xenopus laevis. Surprisingly, we have found some mammalian expressed sequence tags (ESTs) that show high similarity with Xenopus allantoicase cDNA. From a human fetal spleen cDNA library and adult kidney EST clone, we have obtained a 1790 nucleotide long cDNA. The 3' end of this sequence reveals a substantial high identity with the corresponding portion of Xenopus allantoicase cDNA. In contrast, at the 5' end the human sequence diverges from that of Xenopus; since no continuous open reading frame can be found in this region, the hypothetical human protein appears truncated at its N-terminus. We proposed that such a transcript could be due to an incorrect splicing mechanism that introduces an intron portion at the 5' end of human cDNA. Allantoicase cDNA is expressed in adult testis, prostate, kidney and fetal spleen. By comparison with available genomic sequences deposited in database, we have determined that the human allantoicase gene consists of five exons and spans 8kb. We have also mapped the gene in chromosome 2.

Genomic structure and organization of kringles type 3 to 10 of the apolipoprotein(a) gene in 6q26-27.

Apolipoprotein(a) [apo(a)] is a highly polymorphic glycoprotein covalently linked to the apolipoprotein B-100 of LDL in a particle called lipoprotein(a) [Lp(a)]. High plasma levels of Lp(a) are associated with coronary as well as peripheral atherosclerosis. Plasma levels of Lp(a) show a remarkable variation ranging from 0.1 mg/dl to over 100 mg/dl. The apo(a) gene shows a size polymorphism which resides in the variable number of kringle domains which resemble plasminogen kringle IV. Ten different types of kringle IV repeats have been described, nine of which (kringle IV type 1 and type 3-10) are each supposed to be present in a single copy. The other kringles, namely kringle IV type 2 repeats, vary in number from 3 to 42 between apo(a) alleles and form the basis for the apo(a) size polymorphism. Although an inverse relationship has been observed between the number of kringle type 2 repeats and plasma levels of Lp(a), there are exceptions to this general finding. Indeed, several individuals have been described with similar apo(a) size alleles but very different plasma levels of Lp(a). Genetic studies have linked these differences to the apo(a) locus on 6q26-27, outlining the importance, besides the kringle type 2 repeats, of other regions of the apo(a) gene in contributing to the interindividual differences in the plasma concentration of Lp(a). One of the candidate regions is represented by the non-repeated type-3 to type-10 kringles which are invariably present in each apo(a) allele and whose structural integrity is playing a critical role in the correct assembly of the Lp(a) particle. Biochemical studies with recombinant wild type and mutagenized apo(a) cDNAs with several alterations of the non-repeated kringles have well documented this latter point. As a starting point to search for genetic variations in these kringles associated with different levels of Lp(a), we are presenting the genome organization of type-3 to 10 kringle along with specific PCR primers for easy analysis from genomic DNA. Restriction as well as partial sequencing analyses of the type-3 to 10 kringles region has also provided interesting clues as to the different evolutionary origin of these types of kringle with respect to the polymorphic type-2 kringles.

The gene encoding DRAP (BACE2), a glycosylated transmembrane protein of the aspartic protease family, maps to the down critical region.

We applied cDNA selection methods to a genomic clone (YAC 761B5) from chromosome 21 located in the so-called 'Down critical region' in 21q22.3. Starting from human fetal heart and brain mRNAs we obtained and sequenced several cDNA clones. One of these clones (Down region aspartic protease (DRAP), named also BACE2 according to the gene nomenclature) revealed a striking nucleotide and amino acid sequence identity with several motifs present in members of the aspartic protease family. In particular the amino acid sequences comprising the two catalytic sites found in all mammalian aspartic proteases are perfectly conserved. Interestingly, the predicted protein shows a typical membrane spanning region; this is at variance with most other known aspartic proteases, which are soluble molecules. We present preliminary evidence, on the basis of in vitro translation studies and cell transfection, that this gene encodes a glycosylated protein which localizes mainly intracellularly but to some extent also to the plasma membrane. Furthermore DRAP/BACE2 shares a high homology with a newly described beta-secretase enzyme (BACE-1) which is a transmembrane aspartic protease. The implications of this finding for Down syndrome are discussed.

The human genome project and the discovery of genetic determinants of cancer susceptibility.

The Human Genome Project has recently provided a great deal of information on the sequence that comprises the human genome. We are now in the process of structuring and deciphering the 3 x 10(9) base sequence in order to gain insights into its functional role. Several efforts are focusing on the search for DNA sequence variations underlying common/complex diseases that constitute a real burden in terms of public health measures. As expected, the genetic architecture of these complex traits, shows tremendous complexity, and the discovery and characterisation of susceptibility alleles constitute a real challenge for the geneticist. Conceptual and experimental genetic approaches aimed at dissecting the molecular features of susceptibility genes, in particular those predisposing to cancer, are outlined and discussed in this review.

Evidence that apolipoprotein(a) phenotype is a risk factor for coronary artery disease in men < 55 years of age.

Whereas the importance of plasma lipoprotein(a) [Lp(a)] levels as a risk factor for premature coronary artery disease (CAD) is certain, it is not clear if the apolipoprotein(a) [apo(a)] phenotype plays an additional and independent role. To investigate the possible effect of apo(a) phenotype on premature CAD (in patients < 55 years of age), plasma Lp(a) concentrations, the apo(a) phenotypes, and their relation with many recognized CAD risk factors were examined in 96 non-diabetic male patients with angiographically defined CAD and in 83 age-matched male control subjects with no angiographic evidence of CAD. Results demonstrate that patients with premature CAD are characterized by higher Lp(a) levels (24 +/- 21 vs 17 +/- 15 mg/dl, p < 0.01) and a higher frequency of S2 phenotype (32% vs 15%, p < 0.01). Patients with an S2 phenotype exhibited significantly higher plasma Lp(a) concentrations than control subjects with the same isoform (37 +/- 22 vs 22 +/- 17 mg/dl, p < 0.05). A significant correlation was found between apo B and Lp(a) levels in patients with an S2 phenotype. In addition, patients had a low frequency of S1 and S4, and a high frequency of double-band phenotypes of apo(a). Multivariate analysis did not demonstrate an independent role for apo(a) phenotype as a risk factor for premature CAD. In conclusion, CAD patients < 55 years of age have a very different pattern of apo(a) phenotypes than subjects with no angiographic evidence of CAD; this study confirms the hypothesis that apo(a) phenotype may play an additional role in the etiology of premature CAD.

Mammalian Rh/T2/S-glycoprotein ribonuclease family genes: cloning of a human member located in a region of chromosome 6 (6q27) frequently deleted in human malignancies.

We describe the cloning of a novel human gene belonging to the Rh/T2/S-glycoprotein class of extracellular ribonucleases. This gene is present in a single copy in the human genome and has been mapped to 6q27, a region of the human genome prone to rearrangements associated with several human malignancies. The predicted open reading frame of the human cDNA encodes a protein of 191 amino acids, and the pattern of expression is ubiquitous. Some of the sequence features of this gene, in particular those corresponding to the bipartite RNase motif of the active site, are perfectly conserved between distant species such as human and the plant Lycopersicon esculentum. No mammalian homologues have been described so far, and this report presents for the first time both the human and the mouse sequences of the corresponding members of this class of highly conserved extracellular ribonucleases.

Several liver specific DNAse hypersensitive sites are present in the intergenic region separating human plasminogen and apoprotein(A) genes.

The genes coding for plasminogen and apoprotein(a) are clustered, together with two related genes, on the telomeric region of chromosome 6 at band 6q26-27. Moreover, the two genes are 40 Kb apart and transcriptionally pointing to opposite directions. Plasminogen and apoprotein(a) share a high degree of homology in the promoter and 5' flanking regions and their expression is mainly confined to liver. To assess whether common controlling elements mediate the tissue specific expression of these two genes, the region between them was investigated for DNase hypersensitive sites in hepatic cell nuclei.

Reporter gene analysis of four DNaseI hypersensitive sites in the plasminogen/apolipoprotein(a) intergenic region.

We have previously described four DNaseI hypersensitive sites (DH 1 to DH4) in the 40-kb intergenic region between the plasminogen gene and the apo(a) gene. Here, we wanted to analyse whether any of these sites, located 4, 21, 28 and 34 kb upstream of the apo(a) transcriptional start site, would act as an enhancer on a minimal apo(a) promoter. Starting from a cloned, highly expressed apo(a) allele, we obtained four fragments comprising the DHI to DH4 sites, respectively. These fragments were cloned in both orientations into a luciferase reporter gene plasmid comprising a minimal apo(a) promoter (-100 to +141 with respect to the transcriptional start site). Our results from transfection studies with the resulting series of reporter gene plasmids into liver (HepG2) and non-liver (HeLa) cells suggest that the four DH sites from the selected apo(a) allele do not provide a strong, liver-specific enhancer activity.

Motifs resembling hepatocyte nuclear factor 1 and activator protein 3 mediate the tissue specificity of the human plasminogen gene.

Plasminogen is one of the key elements in the fibrinolytic process. Like most of the gene products that participate in such reactions and which interact with plasminogen, the site of its synthesis is mainly confined to the hepatocyte. Plasminogen RNA has additionally been detected in kidney and very low amounts also in testes. Deletional analysis has indicated that two 5' sequences located within 2.5 kb of the first ATG are responsible for the transcriptional activation and the tissue specificity of the expression of the gene. By DNase protection and gel mobility shift assays with HepG2 nuclear extracts, the two sequences were localized and found to be the recognition sites for the widely known hepatocyte nuclear factor 1 (HNF-1) a trans-acting factor, and a nuclear factor like activator protein 3 (AP-3). The first one lies in a rather unusual position, i.e. within the 5'-untranslated region. The latter is located further upstream in a region between --2200 and --2100 from the plasminogen mRNA cap site. Moreover, site-directed mutagenesis coupled by functional experiments in HepG2 cells has demonstrated a synergism between these two positively acting elements in controlling the transcription of the human plasminogen gene.