Association of breast tumor susceptibility gene products BRCA1 and BRCA2 with the RAD51 recombination protein suggested that cancer could arise through defects in recombination. The identi®cation of NBS1, responsible for Nijmegen breakage syndrome, from the MRE11/RAD50 recombination protein complex also supports this hypothesis. However, our mutation analysis revealed that known members of the RAD52 epistasis group are rarely mutated in human primary cancer. Here we describe the isolation of a novel member of the SNF2 superfamily, characterized with sequence motifs similar to those in DNA and RNA helicases. The gene, designated RAD54B, is signi®cantly homologous to the RAD54 recombination gene. The expression of RAD54B was high in testis and spleen, which are active in meiotic and mitotic recombination. These ®ndings suggest that RAD54B may play an active role in recombination processes in concert with other members of the RAD52 epistasis group. RAD54B maps to human chromosome 8q21.3-q22 in a region associated with cancer-related chromosomal abnormalities. Homozygous mutations at highly conserved positions of RAD54B were observed in human primary lymphoma and colon cancer. These ®ndings suggest that some cancers arise through alterations of the RAD54B function.
The features revealed on MDCT can help to distinguish benign lesions from carcinomas. MDCT can add to the data obtained with mammography or sonography in patients with suspected breast tumors.
Neurogenic tumors were selectively induced in high incidence in F344 rats by a single transplacental exposure to the direct-acting alkylating agent N-ethyl-N-nitrosourea (EtNU). We prepared DNA for transfection of NIH 3T3 cells from primary glial tumors of the brain and from schwannomas of the cranial and spinal nerves that developed in the transplacentally exposed offspring between 20 and 40 weeks after birth. DNA preparations from 6 of 13 schwannomas, but not from normal liver, kidney, or intestine of tumor-bearing rats, transformed NIH 3T3 cells. NIH 3T3 clones transformed by schwannoma DNA contained rat repetitive DNA sequences, and all isolates contained rat neu oncogene sequences. One schwannoma yielded a transformant with rat-specific sequences for both neu and N-ras. A point mutation in the transmembrane region of the putative protein product of neu was identified in all six transformants and in the primary tumors from which they were derived as well as in 5 of 6 schwannomas tested that did not transform NIH 3T3 cells. Of 59 gliomas, only one yielded transforming DNA, and an activated N-ras oncogene was identified. The normal cellular neu sequence for the transmembrane region, but not the mutated sequence, was identified in DNA from all 11 gliomas surveyed by oligonucleotide hybridization. Activation of the neu oncogene, originally identified [Schechter, A.L., Stern, D.F., Vaidyanathan, L., Decker, S.J., Drebin, J.A., Greene, M.I. & Weinberg, R.A. (1984) Nature (London) 312, 513-516] in cultured cell lines derived from EtNU-induced neurogenic tumors that by biochemical but not histologic criteria were thought to originate in the central nervous system in BD-IX rats, appears specifically associated with tumors of the peripheral nervous system in the F344 inbred strain.
Peutz-Jeghers Syndrome (PJS) is an autosomal dominant hereditary disease characterized by hamartomatous polyposis involving the entire bowel. Recently STK11, a gene bearing a mutation responsible for PJS, was isolated. We investigated the entire coding region of STK11 in 15 unrelated PJS families by the PCR-SSCP (polymerase chain reaction-single strand conformation polymorphism) method and PCR-direct sequence analysis, and found nine different, novel mutations among ten of those families. One nonsense mutation and five different frameshift mutations (two families carried the same mutation), all of which would cause truncation of the gene product, were found in seven families; mutations found in five families were clustered within exon 6. Among these five mutations, three occurred at the mononucleotide-repeat region (CCCCCC) of codons 279-281, suggesting that this region is likely to be a mutational hotspot of this gene. One of the remaining three families carried a 3-bp in-frame deletion that would eliminate an asparagine residue within a kinase domain of the product; the other two carried intronic mutations at or adjacent to the consensus dinucleotide sequences of splice-acceptor or -donor sites, which were likely to lead to aberrant splicing.
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