Cytogenetic analysis of unstimulated short‐term bone marrow cell cultures was performed on 280 patients with multiple myeloma and related disorders. In 65% of the cases, an additional short term B‐cell stimulated culture was also examined. Chromosomally abnormal clones were found in 31% of the patients, 15% in Waldenström macroglobulinemia, 25% in monoclonal gammopathies, 33% in multiple myeloma, and 50% in plasma cell leukemia. Three primary chromosomal breakpoints were recurrently involved: 14q32, 16q22, and 22q11. Structural rearrangements of chromosome I were the most frequent (26% of the abnormal cases), but always as a secondary change. Rearrangements of band 14q32 were found in 22% of the abnormal cases. Among the multiple myeloma patients who showed an abnormal karyotype, 33 (46%) were hyperdiploid, most frequently with 52–56 chromosomes, 29 patients (40%) were pseudodiploid, and the remaining 12 cases (14%) were hypodiploid. A highly significant relation was observed between the presence of an abnormal karyotype and the following clinical parameters: stage III (P = 0.0001), bone marrow plasma cell infiltration greater than 30% (P = 0.0001), presence of bone lesions (P = 0.0009), and β2‐microglobulin levels greater than 4 mg/L (P = 0.0001). Genes Chromosom. Cancer 18:84–93, 1997. © 1997 Wiley‐Liss, Inc.
Eight insular and continental populations from the south-western range of Drosophila subobscura have been studied with regard to molecular and inversion polymorphisms. Heterogeneity between populations with respect to allele frequencies of 4 gene loci (Amy, Est-8, Est-9 and Pep-I) is the highest known for natural populations of the species. Moreover, the most common allele for these loci is not the same in all populations. Cladograms based on UPGMA clustering of the genetic distances based on allele frequency do not coincide with those constructed with inversion data. The allele-frequency differences between the populations may be due to non-random associations between enzyme alleles and gene arrangements and to founder effects appearing in the insular populations.
Cytogenetic analysis of unstimulated short-term bone marrow cell cultures was performed on 280 patients with multiple myeloma and related disorders. In 65% of the cases, an additional short term B-cell stimulated culture was also examined. Chromosomally abnormal clones were found in 31% of the patients, 15% in Waldenströ m macroglobulinemia, 25% in monoclonal gammopathies, 33% in multiple myeloma, and 50% in plasma cell leukemia. Three primary chromosomal breakpoints were recurrently involved: 14q32, 16q22, and 22q11. Structural rearrangements of chromosome 1 were the most frequent (26% of the abnormal cases), but always as a secondary change. Rearrangements of band 14q32 were found in 22% of the abnormal cases. Among the multiple myeloma patients who showed an abnormal karyotype, 33 (46%) were hyperdiploid, most frequently with 52-56 chromosomes, 29 patients (40%) were pseudodiploid, and the remaining 12 cases (14%) were hypodiploid. A highly significant relation was observed between the presence of an abnormal karyotype and the following clinical parameters: stage III (P 5 0.0001), bone marrow plasma cell infiltration greater than 30% (P 5 0.0001), presence of bone lesions (P 5 0.0009), and b2-microglobulin levels greater than 4 mg/L (P 5 0.0001).
Peptide constructs have been engineered consisting of amino acid sequence determinant recognized by T cells (TD) co-linearly linked to haptenic peptides. It was found that high anti-hapten antibody titers were induced after immunization with those constructs which had the TD sequence in the N-terminal position with respect to the hapten. Low or zero titers were elicited when the TD was in C-terminal position. Also, a high anti-hapten antibody titer corresponded to a low or zero anti-TD antibody titer and vice versa. These results suggest that immunogens are polar and stress the relevance of searching the more adequate position of the TD within a peptide construct when designing immunogens or synthetic peptide vaccines.
Summary.Our aim was to evaluate the clinical use of cytogenetic analysis as a prognostic factor in the outcome of newly diagnosed multiple myeloma (MM) patients. The present series includes 111 newly diagnosed MM patients treated with one of three standard-dose regimens or autologous transplantation over an 8-year time interval. As expected, the presence of an abnormal karyotype (39% of patients) correlated with poor prognosis (progression rate 63% v 47%, P ¼ 0 . 042), shorter event-free (EFS, P ¼ 0 . 014) and overall (OS, P ¼ 0 . 005) survival. Two distinct cytogenetic abnormalities were the most significant variables that influenced EFS and OS in the univariate analysis. The presence of hypodiploid karyotypes or rearrangements of band 22q11 were associated with higher progression rate (P ¼ 0 . 001) and shorter EFS (P < 0 . 024) and OS (P < 0 . 004). The median EFS and OS for patients with hypodiploidy was 4 and 7 months respectively. Multivariate analysis showed that absence of hypodiploidy was the most favourable prognostic variable for OS (P ¼ 0 . 022) followed by stage рIIA, serum calcium р2875 mmol/l, and absence of abnormalities 22q. The data suggest that the presence of hypodiploid karyotypes and rearrangements on 22q11 band show a higher progression rate and shorter survival in MM patients.
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