增殖是多发性骨髓瘤中独立的核心预后因素和个性化及风险适应性治疗的靶点。
Proliferation is a central independent prognostic factor and target for personalized and risk-adapted treatment in multiple myeloma.
机构信息
Medizinische Klinik V, Universitätsklinikum Heidelberg, Im Neuenheimer Feld, Heidelberg, Germany.
出版信息
Haematologica. 2011 Jan;96(1):87-95. doi: 10.3324/haematol.2010.030296. Epub 2010 Sep 30.
BACKGROUND
Proliferation of malignant plasma cells is a strong adverse prognostic factor in multiple myeloma and simultaneously targetable by available (e.g. tubulin polymerase inhibitors) and upcoming (e.g. aurora kinase inhibitors) compounds.
DESIGN AND METHODS
We assessed proliferation using gene expression-based indices in 757 samples including independent cohorts of 298 and 345 samples of CD138-purified myeloma cells from previously untreated patients undergoing high-dose chemotherapy, together with clinical prognostic factors, chromosomal aberrations, and gene expression-based high-risk scores.
RESULTS
In the two cohorts, 43.3% and 39.4% of the myeloma cell samples showed a proliferation index above the median plus three standard deviations of normal bone marrow plasma cells. Malignant plasma cells of patients in advanced stages or those harboring disease progression-associated gain of 1q21 or deletion of 13q14.3 showed significantly higher proliferation indices; patients with gain of chromosome 9, 15 or 19 (hyperdiploid samples) had significantly lower proliferation indices. Proliferation correlated with the presence of chromosomal aberrations in metaphase cytogenetics. It was significantly predictive for event-free and overall survival in both cohorts, allowed highly predictive risk stratification (e.g. event-free survival 12.7 versus 26.2 versus 40.6 months, P < 0.001) of patients, and was largely independent of clinical prognostic factors, e.g. serum β₂-microglobulin, International Staging System stage, associated high-risk chromosomal aberrations, e.g. translocation t(4;14), and gene expression-based high-risk scores.
CONCLUSIONS
Proliferation assessed by gene expression profiling, being independent of serum-β₂-microglobulin, International Staging System stage, t(4;14), and gene expression-based risk scores, is a central prognostic factor in multiple myeloma. Surrogating a biological targetable variable, gene expression-based assessment of proliferation allows selection of patients for risk-adapted anti-proliferative treatment on the background of conventional and gene expression-based risk factors.
背景
恶性浆细胞增殖是多发性骨髓瘤的一个强烈不良预后因素,目前已有可用的(如微管聚合酶抑制剂)和即将推出的(如 Aurora 激酶抑制剂)化合物可作为治疗靶点。
设计与方法
我们使用基因表达谱分析了 757 个样本中的增殖情况,其中包括 298 个和 345 个来自未经治疗的接受高剂量化疗的患者的 CD138 纯化骨髓瘤细胞的独立队列,以及临床预后因素、染色体异常和基于基因表达的高危评分。
结果
在这两个队列中,43.3%和 39.4%的骨髓瘤细胞样本的增殖指数高于正常骨髓浆细胞的中位数加三个标准差。处于晚期阶段或存在疾病进展相关 1q21 增益或 13q14.3 缺失的患者的恶性浆细胞显示出明显更高的增殖指数;存在染色体 9、15 或 19 增益(超二倍体样本)的患者的增殖指数明显较低。增殖与中期细胞遗传学中的染色体异常相关。它在两个队列中均对无事件生存和总生存具有显著的预测作用,允许对患者进行高度预测性的风险分层(例如,无事件生存 12.7 个月、26.2 个月、40.6 个月,P<0.001),并且在很大程度上独立于临床预后因素,例如血清β₂-微球蛋白、国际分期系统分期、相关的高危染色体异常,例如 t(4;14)和基于基因表达的高危评分。
结论
通过基因表达谱分析评估的增殖,独立于血清-β₂-微球蛋白、国际分期系统分期、t(4;14)和基于基因表达的风险评分,是多发性骨髓瘤的一个重要预后因素。作为一个可靶向的生物学变量的替代物,基于基因表达的增殖评估允许在常规和基于基因表达的风险因素的背景下,选择适合风险适应性抗增殖治疗的患者。
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