Cytogenetic abnormalities in mesenchymal stem cells in chronic lymphocytic leukemia (CLL) patients and normal subjects

Abstract

e22002 Background: Mesenchymal stem cells (MSC) residing in the marrow support hematopoiesis and protect cancer cells from undergoing cell death induced by chemotherapy. Recent reports have described clonal cytogenetic abnormalities in the MSC of acute myeloid leukemia and myelodysplastic syndrome patients. To determine if cytogenetic abnormalities are present in MSC from CLL patients, we analyzed karyotypes of MSC from 13 CLL patients and 5 normal subjects. Methods: Stromal cells from marrow core biopsies of 13 CLL patients and 5 normal control subjects were isolated, cultured and confirmed as MSC based on their immunophenotype and capacity to differentiate into three lineages. After 3–4 non-stimulated cell culture passages, the karyotype was analyzed in 5–40 metaphase cells from each subject Abnormalities were considered clonal using the accepted convention of the same chromosomal gain or rearrangement in 2 or more cells or loss in at least 3 cells. For each CLL patient, interphase FISH analysis to detect the common CLL-associated abnormalities was performed on freshly isolated peripheral blood mononuclear cells (PBMC). Results: Clonal cytogenetic abnormalities of the cultured MSC were observed in 6 of 13 CLL patients (46%) and 3 of 5 control subjects (60%). The 6 CLL MSC had different clonal abnormalities than the PBMC CLL FISH studies. One CLL MSC exhibited trisomy 5, one exhibited trisomy 8, and one had monosomy X clone. One MSC had a balanced t(1;16). One MSC had a balanced t(3;12) and a del(3p), and one had a complex karyotype with 4 unbalanced rearrangements. The clonal aberrations observed in the 3 controls included a del(3p) in two cases, and in one case an inv(5) and a del(10q). There was no correlation of the chromosomal abnormalities in CLL MSC with clinical stage. Conclusions: Marrow MSC derived from CLL patients and normal subjects do show an array of cytogenetic abnormalities including clonal chromosomal abnormalities. However the genetic abnormalities found in both CLL and normal MSC could represent acquired genomic instability associated with advanced age, rather than oncogenesis associated with CLL. [Table: see text]