Since deletion of chromosome 13q is a clinically relevant feature in multiple myeloma (MM), we analyzed bone marrow plasma cells from 29 patients with monoclonal gammopathy of undetermined significance (MGUS) to investigate the chromosome 13 status in MGUS. Studies were performed by interphase fluorescence in situ hybridization (FISH) with a panel of 13q14-specific probes (RB1, D13S319, D13S25, D13S31). Plasma cells with a deletion of at least one of the 13q14 loci were detected in 13 patients (44.8%) with MGUS. In five patients (17.2%), deletions of all four 13q14-specific probes were observed, and the additional deletion of a 13q telomeric region (D13S327) suggested loss of the entire 13q arm or monosomy 13. Loss of 13q14 was observed to be monoallelic and to occur in 11.0 to 35.0% of plasma cells (cut-off levels for a deletion Ͻ10% with all probes). Nine of 17 patients (52.9%) with MM progressing from a pre-existing MGUS had evidence for a deletion of 13q14 as determined by FISH with the RB1 probe. These results suggest that deletion of 13q14 is an early event in the development of monoclonal gammopathies, but its role for the eventual progression to MM remains to be determined prospectively. Leukemia (2000Leukemia ( ) 14, 1975Leukemia ( -1979
Multiple myeloma (MM) is a B-cell malignancy originating from pre-switched, follicle center B-lymphocytes which differentiate to plasma cells accumulating in the bone marrow. MM cells are characterized by a profound genetic instability resulting in a complex set of numerical and structural chromosomal abnormalities. Among these abnormalities, translocations involving 14q32, the immunoglobulin heavy-chain locus, are the most frequent aberrations, but translocation partners are remarkably heterogeneous. Chromosome 13q14 may harbor a critical tumor suppressor gene since MM patients with deletion of 13q14 experience short overall survival after conventional-dose and high-dose chemotherapy. Bone marrow stroma cells support growth and survival of MM cells, which in turn influence the bone marrow microenvironment. This is particularly evident by the markedly increased bone marrow vascularization observed in most patients with active MM.
By use of microdialysis we assessed the concentrations of telithromycin in muscle and adipose tissue to test its ability to penetrate soft tissues. The ratios of the area under the concentration-versus-time curve from 0 to 24 h to the MIC indicated that free concentrations of telithromycin in tissue and plasma might be effective against Streptococcus pyogenes but not against staphylococci and human and animal bite pathogens.
Summary. Anti-angiogenesis therapy with thalidomide has been reported to have marked activity in multiple myeloma (MM). As cytogenetics is an independent prognostic factor in MM, we analysed bone marrow (BM) angiogenesis and cytogenetic abnormalities in 34 patients with active MM. BM microvessel density (MVD), as determined by staining with anti-CD34, was significantly higher in MM (MVD: 221^94 per mm 2 ) than in controls (80^36; P , 0´0001). In patients with the presence of at least one unfavourable cytogenetic abnormality (deletion of 13q14, deletion of 17p13, aberrations of 11q), a significantly increased BM MVD was observed (254^93 vs. 160^60 in patients with absence of these abnormalities; P 0´0035). Further analyses indicated that increased BM MVD was significantly correlated with deletion of 13q14 (259^96 vs. 188^80; P 0´026), but not with other cytogenetic, clinical and laboratory MM parameters. We conclude that BM neovascularization is particularly high in MM with deletion of 13q14, which provides a rationale for use of anti-angiogenic strategies in the treatment of MM with high-risk cytogenetics.
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