The human homologue of the putative proto-oncogene Spi-1: characterization and expression in tumors.

Spi-1 is a putative proto-oncogene involved in murine virus-induced acute erythroleukemias. We report here the identification of the human homologue of Spi-1 and its expression in normal and tumorigenic human tissues. Characterization of cDNA clones revealed that the human Spi-1 gene encodes a 216 amino acids protein showing 85% identity with the murine counterpart. By sequencing genomic clones, five exons were identified. To investigate the possible role of Spi-1 gene in human cancers, we studied its expression in a panel of human tumors by Northern blot analysis. Spi-1 expression was detected in all the tumors examined. There was no noticeable evidence of messenger RNA alteration as compared to normal tissues.

Wilms' tumor: a search for the critical lesion.

A Wilms' tumor from a 12-month-old boy showed epithelial and mainly rhabdomyoblastic differentiation. In addition, the kidney contained foci of nephroblastomatosis, a lesion predisposing to the development of nephric tumors. Flow cytometry indicated that the tumor DNA content was in the diploid range with an increased S-phase. Chromosome studies of the cultured tumor cells showed a dominant pattern of 49,XY, +8,9qh+, +12, +12,18q+, without obvious deletion of 11p. A few cells showed additional losses, deletions, or structural rearrangements superimposed on the basic pattern, but no normal metaphases were observed. The DNA from the tumor was probed for several loci on 11p because variations of 11p (deletion or translocation) have been reported in roughly one third of Wilms' tumors, and the critical gene in Wilms' has been localized to 11p13. In this case, 11p genes maintained heterozygosity or showed no detectable alteration in gene dosage when compared with peripheral-blood DNA. Therefore, despite histologic indication of an underlying constitutional defect, no genomic lesion of 11p was identified.

Human N-CAM gene: mapping to chromosome 11 by analysis of somatic cell hybrids with mouse and human cDNA probes.

We have used mouse and human cDNA probes to map the chromosomal position of the N-CAM gene in the human genome. Southern analysis of DNA isolated from a panel of mouse-human somatic cell hybrids has assigned the N-CAM gene to chromosome 11. This assignment was found with both mouse and human N-CAM cDNAs.

[Localization of the gene defect in tuberous sclerosis]. / Lokalisatie van het gendefect bij tubereuze sclerosis.

Elucidation of the genetic defect in tuberous sclerosis (TS) awaits a precise chromosomal localization. At present two chromosomal regions, 9q34 and 11q23, are candidates for the site of a TS locus. Family studies using polymorphic DNA markers are carried out in other laboratories and in ours and are expected to disclose the existence of one TS gene that is localized on either chromosome 9 or 11, or the involvement of two genes, one on #9 and one on #11. Early postnatal and potentially prenatal diagnosis by means of DNA analysis may be offered to a family with TS after identification of the gene defect, but also after the identification of very closely linked DNA markers.

Linkage data for Marfan syndrome and markers on chromosomes 1 and 11.

Six large families with classical Marfan syndrome were studied using markers on chromosomes 1 and 11. Two of three families tested showed negative scores using D1S7 but a third family gave a positive score (0.92) at theta = 0.1. The other chromosome 1 markers typed (MUCI, NGFB, D1S8) excluded close linkage. Negative lod scores with two chromosome 11q22 markers (D11S84, D11S148) excluded at least 20 cM in this area (Z = less than -2), which was chosen for study as two enzymes responsible for collagen degradation (collagenase and stromelysin) are localised to this region.

[Mapping of apolipoprotein A-1 and ceruloplasmin genes on human, rat and mouse chromosomes by hybridization in situ with specific human DNA probes]. / Kartirovanie genov apolipoproteina A-1 i tseruloplazmina na khromosomakh cheloveka, krys i myshei metodom gibridizatsii in situ so spetsificheskimi DNK-zondami cheloveka.

In situ hybridization was carried out on metaphase-prometaphase chromosomes of PGA-stimulated lymphocytes and bone marrow cells obtained from laboratory rats and mice. Plasmid cloned sequences of human apolipoprotein A-1 (Apo A-1) and ceruloplasmin (CP) cDNA fragments have been used as specific probes labelled in nick-translation reaction with 3HdTTP and 3Hd ATP. The data of our study suggest that Apo A-1 is localized in 11q14-22, 9 A2-4 and 5q36 areas in men, mice and rats, respectively. The DNA sequences of human CP cDNA most probably occupy 3q23-25, 13q24-26 and 15q13-20 areas. Heterologous in situ hybridization of other species with DNA probes does not always give reliable results in gene mapping. Thus, the data of heterologous hybridization should be considered with caution.

Long-range structure of H-ras 1-selected transgenomes.

We have used chromosome-mediated gene transfer (CMGT) and whole cell fusion to derive human-mouse hybrid cells carrying reduced human chromosomes 11, by selecting for expression of the transforming H-ras 1 oncogene. To realize the full potential of these somatic cell genetic techniques as resources for enriched DNA probe isolation and the fine structure mapping of chromosomes, the nature of any molecular rearrangements that may accompany the process of DNA transfer must be understood. We have analyzed the long-range structure of our transgenomes by pulsed field gel electrophoresis (PFGE) and show here that, whereas during cell fusion several megabase pairs (Mb) of DNA can be transferred intact, multiple rearrangements of DNA accompany CMGT even in transgenomes where other methods of analysis gave no indication of such molecular scrambling.