Allen E. Coleman

Monoclonal origin of multicentric Kaposi's sarcoma lesions

BACKGROUND Kaposis sarcoma has features of both hyperplastic proliferation and neoplastic growth. Multiple lesions, in which spindle cells are prominent, often arise synchronously over widely dispersed areas. We tested the hypothesis that the spindle cells in these multicentric lesions originate from a single clone of precursor cells. METHODS To determine whether Kaposis sarcoma is a monoclonal disorder, we assessed the methylation patterns of the androgen-receptor gene (HUMARA) in multiple lesions from women with the acquired immunodeficiency syndrome. In polyclonal tissues, about half the copies of each HUMARA allele are methylated, whereas in cells derived from a single clone all the copies of only one allele are methylated. To minimize contamination by normal DNA, we used microdissection to isolate areas composed primarily of spindle cells, the putative tumor cells. RESULTS Eight patients with a total of 32 tumors were studied. Of these tumors, 28 had highly unbalanced methylation patterns (i.e., predominant methylation of one HUMARA allele). In all the tumors that had unbalanced methylation from a given patient, the same allele predominated. CONCLUSIONS These data indicate that Kaposis sarcoma is a disseminated monoclonal cancer and that the changes that permit the clonal outgrowth of spindle cells occur before the disease spreads.

A Bromodomain Protein, MCAP, Associates with Mitotic Chromosomes and Affects G2-to-M Transition

ABSTRACT We describe a novel nuclear factor called mitotic chromosome-associated protein (MCAP), which belongs to the poorly understood BET subgroup of the bromodomain superfamily. Expression of the 200-kDa MCAP was linked to cell division, as it was induced by growth stimulation and repressed by growth inhibition. The most notable feature of MCAP was its association with chromosomes during mitosis, observed at a time when the majority of nuclear regulatory factors were released into the cytoplasm, coinciding with global cessation of transcription. Indicative of its predominant interaction with euchromatin, MCAP localized on mitotic chromosomes with exquisite specificity: (i) MCAP-chromosome association became evident subsequent to the initiation of histone H3 phosphorylation and early chromosomal condensation; and (ii) MCAP was absent from centromeres, the sites of heterochromatin. Supporting a role for MCAP in G2/M transition, microinjection of anti-MCAP antibody into HeLa cell nuclei completely inhibited the entry into mitosis, without abrogating the ongoing DNA replication. These results suggest that MCAP plays a role in a process governing chromosomal dynamics during mitosis.

IL-6 transgenic mouse model for extraosseous plasmacytoma

Plasma cell neoplasms in humans comprise plasma cell myeloma, otherwise known as multiple myeloma, Ig deposition and heavy chain diseases, and plasmacytoma (PCT). A subset of PCT, designated extramedullary PCT, is distinguished from multiple myeloma and solitary PCT of bone by its distribution among various tissue sites but not the bone marrow. Extramedullary (extraosseus) PCT are rare spontaneous neoplasms of mice but are readily induced in a susceptible strain, BALB/c, by treatment with pristane. The tumors develop in peritoneal granulomas and are characterized by Myc-activating T(12;15) chromosomal translocations and, most frequently, by secretion of IgA. A uniting feature of human and mouse plasma cell neoplasms is the critical role played by IL-6, a B cell growth, differentiation, and survival factor. To directly test the contribution of IL-6 to PCT development, we generated BALB/c mice carrying a widely expressed IL-6 transgene. All mice exhibited lymphoproliferation and plasmacytosis. By 18 months of age, over half developed readily transplantable PCT in lymph nodes, Peyers patches, and sometimes spleen. These neoplasms also had T(12;15) translocations, but remarkably, none expressed IgA. Unexpectedly, ≈30% of the mice developed follicular and diffuse large cell B cell lymphomas that often coexisted with PCT. These findings provide a unique model of extramedullary PCT for studies on pathogenesis and treatment and suggest a previously unappreciated role for IL-6 in the genesis of germinal center-derived lymphomas.

A recurring pattern of chromosomal aberrations in mammary gland tumors of MMTV-cmyc transgenic mice.

Mice carrying the MMTV‐cmyc transgene develop mammary tumors at 9 to 12 months of age. Little is known about karyotypic changes in this model of human breast cancer. We have developed and applied molecular cytogenetic techniques to study chromosomal aberrations that occur in these tumors, namely, comparative genomic hybridization and spectral karyotyping. Cell lines from eight tumors were established and analyzed, four of which carried a heterozygous p53 mutation. All of the tumor cell lines revealed increases in ploidy and/or multiple numerical and structural chromosomal aberrations. No consistent differences were observed between cmyc/p53+/+ and cmyc/p53+/− tumors, suggesting that cmyc induces karyotype instability independent of p53 status. Loss of whole chromosome (Chr) 4 was detected in five of the eight tumors. Parts of Chr 4 are syntenic to human 1p31–p36, a region that is also deleted in human breast carcinomas. Four tumors carried translocations involving the distal portion of Chr 11 (syntenic to human chromosome arm 17q), including two translocations T(X;11), with cytogenetically identical breakpoints. We compare the pattern of chromosomal aberrations with human breast cancers, find similarities in several syntenic regions, and discuss the potential of an interspecies cytogenetic map of chromosomal gains and losses. Genes Chromosomes Cancer 25:251–260, 1999. Published 1999 Wiley‐Liss, Inc.

Genomic instability in mouse Burkitt lymphoma is dominated by illegitimate genetic recombinations, not point mutations.

λ-MYC-induced mouse Burkitt lymphoma (BL) harboring the shuttle vector pUR288, which includes a lacZ reporter gene to study mutagenesis, was employed to assess genomic instability associated with MYC deregulation. The frequency of lacZ mutations in lymphomas was elevated only 1.75-fold above that in normal tissue, indicating that mouse BL does not exhibit a phenotype of hypermutability. However, the nature of lacZ mutations was strikingly different in normal tissues and lymphomas. While point mutations comprised approximately 75% of the mutations found in normal tissues, apparent translocations, deletions and inversions constituted the majority of mutations (∼65%) in lymphomas. Genomic instability in mouse BL thus seems characterized by a preponderance of illegitimate genetic rearrangements in the context of near-background mutant frequencies. SKY analyses of cell lines from primary BL tumors revealed substantial changes in chromosomal structure, confirming the lacZ studies. Bi-allelic deletions of the tumor suppressor p16Ink4a were detected in six out of 16 cell lines, illustrating cellular selection of advantageous mutations. Together, these approaches indicate that MYC may contribute to lymphomagenesis through the dominant mutator effect of inducing chromosomal instability. The results further suggest that a phenotype of hypermutability (elevated mutant frequency) may not always be required for oncogenesis to occur.

Genomic organisation and expression of BCL6 in murine B-cell lymphomas

BCL6 encodes a transcription factor deregulated by chromosomal translocations in human diffuse large cell B lymphomas (DLCL). This study was designed to determine whether Bcl6 might also be involved in lymphomas of mice. BCL6 protein was expressed at high levels in 90% or more of DLCL but not in low grade B lymphomas. Southern hybridisation studies demonstrated altered organisation of Bcl6 in three primary DLCL and the WEHI 231 B-cell lymphoma cell line but not in low grade tumours. Chromosomal painting and fluorescence in situ hybridisation (FISH) analyses of the WEHI 231 metaphase spreads revealed a T(5;16) translocation with Bcl6 on Chromosome 16 at the translocation breakpoint. Deregulated expression of BCL6 is thus likely to contribute to the genesis of DLCL of mice as well as of humans.

Nucleoli in a pronuclei-stage mouse embryo are represented by major satellite DNA of interconnecting chromosomes

OBJECTIVE To investigate the arrangement of chromosomes within pronuclei-stage mouse zygotes. DESIGN In vitro study. SETTING Academic medical center. PATIENT(S) None. INTERVENTION(S) None. MAIN OUTCOME MEASURE(S) Location of major alpha-satellite DNA, centromeres, and telomeres, and relative location of chromosomes. RESULT(S) Chromosomes appeared to be oriented inward by centromeres and to be interconnected by major alpha-satellite DNA, which appeared to be the sole DNA component of the nucleoli. This chromosomal arrangement persisted throughout interphase. Chromosomal painting failed to identify chromosomal ordering within pronuclei. CONCLUSION(S) Pronuclear nucleoli are represented by alpha-satellite sequences of interconnecting chromosomes that hold all chromosomes together during interphase. Chromosomes within the pronucleus are randomly positioned relative to each other.

Cytogenetic analysis of the bipotential murine pre-B cell lymphoma, P388, and its derivative macrophage-like tumor, P388D1, using SKY and CGH

Spectral karyotyping (SKY) and comparative genomic hybridization (CGH) were used to elucidate the divergent cytogenetic make-up of the prototypical bilineage lymphoblastic pre-B lymphoma, P388, and its progenitor macrophage-like tumor, P388D1. P388 was found to be diploid and genomically stable. P388D1 was triploid, highly unstable and characterized by numerous marker chromosomes (Chrs) and composite rearrangements. The karyotype of P388D1 was so complex that its clonal relatedness to P388 would have remained questionable without confirmation by molecular analysis of the clonotypic immunoglobulin heavy-chain and light-chain gene recombinations that coexisted in both tumors. The intrinsic instability of the P388D1 genome was indicated by the observation that only four out of 42 aberrations uncovered by SKY (in a total of 27 metaphases) occurred consistently (100% incidence), whereas 27 changes occurred non-randomly (27 to 96% incidence) and 11 alterations randomly (4 to 11% incidence). Persistent cytogenetic instability was also observed in P388 ‘macrophages’ after phorbol ester- and ionomycin-induced conversion in vitro of P388 lymphoma cells. The ‘cytogenetic noise’ in these cells was manifested by a multiplicity of sporadic chromosomal aberrations; ie 25 distinct changes were identified by SKY in 40 metaphases. The results in P388D1 and P388 ‘macrophages’ were interpreted to indicate that the myeloid differention program in the bipotential pre-B cell lymphoma P388 is invariably characterized by karyotypic instability. The study presented here demonstrates the power of the combined SKY and CGH approach to resolve complicated karyotypes of important and widely used mouse tumors.

Translocation remodeling in the primary BALB/c plasmacytoma TEPC 3610†

Myc‐activating chromosomal 12;15 translocations, the hallmark mutations of inflammation‐induced BALB/c plasmacytomas, have recently been shown to undergo remodeling by isotype switch‐like genetic recombinations that remove ∼ 180 kb of immunoglobulin heavy‐chain sequence in the vicinity of the rearranged, expressed Myc gene. Here we combine cytogenetic data on the 12;15 translocation (SKY and FISH) with the molecular analysis of key junction sites (long‐range PCR followed by DNA sequencing) to demonstrate that translocation remodeling occurred as an infrequent, stepwise, and disomic tumor progression event in the tetraploid, fully transformed, and transplantable plasmacytoma TEPC 3610. This result was used, in conjunction with previously obtained molecular data on five other primary plasmacytomas, to devise a hypothesis that predicts that the selective pressure to undergo translocation remodeling may be predetermined by the location of the break site in Myc. The pressure may be low if the break occurs 5′ of the normal promoter region of Myc, but it may be considerably stronger if the break occurs 3′ of the Myc promoter.Published 2001 Wiley‐Liss, Inc.

Novel aspects of murine B cell lymphomas.

Introduction of ecotropic murine leukemia virus (MuLV) induction loci onto the low-lymphoma, ecotropic MuLV-negative strain, NFS, yielded strains of mice (NFS.V+) that develop a high incidence of hematopoietic neoplasms (1, 2) comprising primarily lymphomas of B cell origin. Histopathologic studies of 645 lymphomas yielded morphologic diagnoses compatible with synonyms provided by the Kiel (3) and REAL (4) classifications of human B lymphomas but applied to the mouse (Table 1). The “Bethesda/Kiel” terminology will be used here. The speculative “LIP/REAL” classification is based on studies suggesting uniting parallels with human neoplasms of these types (e.g., Siminovitch, this volume, for mouse MCL equivalent). MZL, diagnosed only once previously, in NZB (5), were unexpectedly most common in our series, at 36% (Hartley et al., manuscript in preparation)