The mouse Cd83 gene: structure, domain organization, and chromosome localization.

Human CD83 (hCD83) is a 45 000 Mr cell-surface protein expressed predominantly by dendritic lineage cells. In this report, the genomic locus encoding mouse CD83 (Cd83) was isolated and the gene structure determined. The Cd83 gene spans approximately 19 kilobases (kb) and is composed of five exons, with two exons encoding a single extracellular immunoglobulin (Ig)-like domain. Mouse CD83 (mCD83) cDNAs were isolated by reverse transcriptase polymerase chain reaction of mouse RNA. Sequence determination revealed substantial conservation, with mCD83 and hCD83 sharing 63% amino acid identity. The transmembrane and cytoplasmic regions of CD83 were most highly conserved. Mouse CD83 mRNA of 2.4 kb was abundantly expressed in spleen and brain, but could also be detected in most tissues analyzed. These results suggest that in the mouse, as in humans, widely distributed dendritic cells may express mCD83. Chromosome localization revealed that the Cd83 gene is present on mouse chromosome 13 band A5, while the locus for the human gene (CD83) is located within a homologous region of human chromosome 6p23. Thus, the CD83 protein and gene appear to be well conserved during recent mammalian evolution. The isolation and characterization of the mCD83 cDNA and gene provides important information and tools that will facilitate the study of CD83 and dendritic cell function in a mouse model system.

Isolation of mouse T-cell lymphoma lines from different long-term interleukin 2-dependent cultures.

A number of different biological properties have been ascribed to the hormone-like protein interleukin 2 (IL-2). However, the most salient feature of this lymphokine is its ability to sustain the long-term proliferation of T-cells from humans and mice. Reported herein are the results of studies demonstrating the isolation of growth factor-independent cell lines from the long-term IL-2-dependent murine T-cell line CTLL-2 that is used frequently as the source of target cells in IL-2 bioassays. Sustained log-phase growth of these T-cells in vitro has been achieved using Petri dishes of polymethylpentene; growth could not be sustained in similar dishes of glass, untreated polystyrene, polystyrene that had been treated for cell culture, or polycarbonate. The IL-2-independent line grew as a T-cell lymphoma when injected i.p. into pristane-treated, but not untreated, syngeneic C57BL/6 mice. In contrast, cells from the IL-2 parental line CTLL-2 did not grow in vivo. Characterization of the IL-2-independent lines propagated in vitro (denoted as line CEC) or in vivo (denoted as line CEP) demonstrated that they retained their dependency for 2-mercaptoethanol and expressed phenotypic profiles of their parental line CTLL-2 (Thy 1.2+, Lyt-1-; Lyt-2-). Isolation of an IL-2-independent T-cell lymphoma from a CTLL-2 line obtained from another investigator using a protocol that has proven reproducible under carefully controlled laboratory conditions and defined phenotypic traits of the syngeneic T-cell isolates provided evidence that the tumors were not a cross-culture contaminant arising as a result of a laboratory accident. Moreover, karyotypic analysis using a quinacrine:Hoechst banding technique revealed similar marker chromosomes in the IL-2-dependent and -independent lines. IL-2-independent lines have also been established from the IL-2-dependent murine T-cell line CT-6. Accordingly, the results of these studies suggest that, during prolonged cultivation that has included exposure to crude IL-2 preparations known to contain phorbol ester, possibly viruses, and other contaminants, the IL-2-dependent lines have developed subpopulations that are thought to have undergone malignant transformation of unknown etiology to generate IL-2-independent murine T-cell lymphomas that can be passaged repetitively either in vitro or in vivo.

Studies of cultured human T lymphocytes. II. Initiation of paired T- and B-cell lines from healthy donors.

We report the sustained cultivation of both B- and T-lymphoblastoid cell lines from randomly selected healthy donors, and the results of studies defining the frequency with which these cell lines can be established. B-cell lines were initiated using the Epstein-Barr virus. Of 52 attempts, 40 B-cell lines (77% success) were obtained from 24 different donors. T-cell lines were started and propagated in long-term (greater than 100 days) cultures using the T-cell growth factor interleukin-2 (IL-2). Of 55 attempts, 54 (98%) were successful in initiating IL-2-dependent T-cell lines, and these were derived from 28 healthy adults. Likewise, of 45 attempts, 32 (71%) were successful in producing paired lines in which both the B-cell line and T-cell line were cultivated from a single blood collection (N = 22 donors). Phenotypic profiles of these lines were defined using multiple marker assays, including rosette formation, surface immunoglobulins, cytochemistry, karyotype, as well as xenoantisera and monoclonal antibodies defining different membrane antigens. This work demonstrates the feasibility of propagating paired human B and T lymphoblastoid lines suitable for many comparative immunobiological studies.