Günther Richter

Bcr/abl+ autologous dendritic cells for vaccination in chronic myeloid leukemia.

In chronic myeloid leukemia (CML) ex vivo generated DC are characterized by constitutive expression of bcr/abl and possibly other yet undefined leukemia-associated antigens, since these DC share a common progeny with leukemic cells. Induction of anti-leukemic T cell responses has been described in vitro. For a phase I vaccination study, autologous bcr/abl+ DC are generated under GMP conditions mainly from monocyte precursors in chronic phase CML patients. Lin−, CD80+, CD86+, CD83+, DR+ DC could be generated in sufficient numbers for s.c. vaccination with 1 × 106–5 × 107 DC. Using monocyte precursors, the yield of DC per seeded PBMC was in the range of 1–6%. Furthermore, we could demonstrate in vitrothat the T cell stimulatory ability of CD34+-derived DC can be augmented by a factor 2–3 by retroviral transduction with a gene coding for interleukin-7. DC-based vaccination strategies are a promising clinical approach, particularly as post-remission immunotherapy in the setting of autologous stem cell transplantation. Bone Marrow Transplantation (2000) 25 , Suppl. 2, S46–S49.

The interleukin-6 gene locus seems to be a preferred target site for retrotransposon integration.

Recently, we have observed the insertion of a retrotransposon into the interleukin-6 (II-6) locus of a mouse somatic cell line. Here we report the characterization of Il-6 genomic regions from both mouse and rat. Restriction site analysis, DNA sequence analysis, and computer-assisted search revealed eight retrotransposon-like elements distributed over a 25 kilobase (kB) mouse Il-6 region. In the rat, five different retrotransposons have been identified within a 17 kb Il-6 region. The retrotransposons belong to the LINE-, Alu I or Alu II families, or to a rat specific class of retrotransposons. Some of the retrotransposons class of retrotransposons. Some of the retrotransposons exhibit characteristic features such as target site duplication and a poly A-tract. Remarkably, several retrotransposons map to different chromosomal locations in the mouse and rat. A genealogical tree of mouse, rat, and human Il-6 loci demonstrates a series of retrotranspositions that recently occurred in evolution. These results suggest that the Il-6 locus serves as a preferred target site for retrotransposon integration during evolution.

Structure and evolution of mouse interleukin 6 gene.

Restriction fragment length polymorphism in the interleukin 6 gene of murine rodents extending phylogenetically from Mus musculus domesticus to the rat has been analyzed. Most species exhibit distinct restriction site patterns. In contrast, limited polymorphism was found in the tumor necrosis factor alpha gene indicating different selective pressure acting on both genes. The gene encoding interleukin 6 was isolated from a genomic library and the exon/intron organization was determined by restriction analysis and limited DNA sequence analysis. It consists of five exons which distribute over about seven kilobases, thus resembling in structure and organization the human counterpart. Furthermore, no restriction fragment length polymorphisms in the interleukin 6 gene of autoimmune strains NZB, NZW, MRL-lpr/lpr and BxSB could be detected for either EcoRI, BamHI or HindIII.