Study of the clonal origin and development of MDS by FISH analysis of dysplasia cells in bone marrow of patients with MDS.
10.7534/j.issn.1009-2137.2013.03.023
- Author:
Chun-Mei FU
1
;
Zi-Xing CHEN
;
Dan-Dan LIU
;
Jun ZHANG
;
Jin-Lan PAN
Author Information
1. Jiangsu Institute of Hematology, Suzhou, Jiagnsu Province, China.
- Publication Type:Journal Article
- MeSH:
Adult;
Aged;
Bone Marrow Cells;
cytology;
pathology;
Bone Marrow Examination;
Clone Cells;
Female;
Humans;
In Situ Hybridization, Fluorescence;
Karyotyping;
Male;
Middle Aged;
Myelodysplastic Syndromes;
blood;
genetics;
Young Adult
- From:
Journal of Experimental Hematology
2013;21(3):650-656
- CountryChina
- Language:Chinese
-
Abstract:
This study was purpose to explore whether the dysplasia of myelodysplastic syndromes (MDS) is unspecific feature or results of the abnormal clone, and to provide the evaluation of abnormal clone changes in bone marrow cells of MDS patients. The dysplasia cells in bone marrow smears was analyzed by morphologic observation, the clonal origin and development in 16 cases of MDS with abnormality of chromosome karyotypes were investigated by FISH combined with morphologic observation. The results found that both the dysplastic and nondysplastic bone cells displayed abnormal clones in the erythroid and granulocytic cells. The dysplastic bone marrow cells displayed more abnormal clones than the nondysplastic bone marrow cells in most of the patients, and the abnormal clones displayed more dysplastic cells than the normal clones. Most of the dysplastic and nondysplastic megakaryocytes were derived from abnormal clones. The abnormal clone showed a decreasing trend from the primitive stage to the terminal stage of cell differentiation. It is concluded that there is a correlation between the dysplastic cells and the abnormal clones in MDS, but the dysplasia of bone marrow cells is not a specific feature. The abnormal clones can differentiate into mature granulocytes and erythrocytes, and can be in coexistence with cells originated from the normal clones.