Tiu R, Gondek L, O'Keefe C, Maciejewski J P
Experimental Hematology and Hematopoiesis Section, Taussig Cancer Center, Cleveland Clinic Foundation, Cleveland, OH, USA.
Leukemia. 2007 Aug;21(8):1648-57. doi: 10.1038/sj.leu.2404757. Epub 2007 Jun 7.
Clonal hematopoiesis, observed in certain forms of marrow failure including aplastic anemia (AA), may be due to stem cell depletion. Alternatively, oligoclonality may be a result of recruitment of a preexisting defective clone, such as in paroxysmal nocturnal hemoglobinuria (PNH) or myelodysplastic syndromes (MDS). In PNH, exogenous permissive factors may be required for dominance of the abnormal clone, while in MDS, stem cells undergo transformation steps leading to a growth advantage. Stem or multipotent progenitor cell involvement in PNH is evidenced by long-term persistence of a clonal defect and its presence in all blood cells. In MDS, some clonal aberrations may have a 'founder-effect' and additional defects are secondary. Metaphase cytogenetics measures the proportion of clonal cells within dividing progenitor but not mature cells. Owing to low resolution, lesions can be found in only approximately 50% of MDS patients. This shortcoming may be overcome by application of newer technologies such as comparative genomic hybridization and SNP array-based karyotyping (SNP-A). SNP-A facilitates identification of cryptic lesions in bone marrow failure patients with normal or abnormal cytogenetics and allows for detection of loss of heterozygosity as a result of uniparental disomy, a lesion frequently found in MDS.
在包括再生障碍性贫血(AA)在内的某些形式的骨髓衰竭中观察到的克隆性造血,可能是由于干细胞耗竭所致。或者,寡克隆性可能是先前存在的缺陷克隆被招募的结果,例如在阵发性夜间血红蛋白尿(PNH)或骨髓增生异常综合征(MDS)中。在PNH中,异常克隆的优势可能需要外源性许可因子,而在MDS中,干细胞会经历导致生长优势的转化步骤。PNH中干细胞或多能祖细胞的参与可通过克隆缺陷的长期持续存在及其在所有血细胞中的存在来证明。在MDS中,一些克隆畸变可能具有“奠基者效应”,其他缺陷是继发性的。中期细胞遗传学测量分裂祖细胞而非成熟细胞内克隆细胞的比例。由于分辨率低,仅约50%的MDS患者能发现病变。应用比较基因组杂交和基于单核苷酸多态性阵列的核型分析(SNP-A)等新技术可能克服这一缺点。SNP-A有助于识别细胞遗传学正常或异常的骨髓衰竭患者中的隐匿性病变,并能检测由于单亲二体导致的杂合性缺失,这是MDS中经常发现的一种病变。
