Identification and study of genes differentially expressed by leukemic bone marrow stromal cells

The interactions of Acute Lymphoblastic Leukemia (ALL) blasts with bone marrow (BM) stromal cells have a positive impact on leukemia cell survival and resistance to chemotherapy. ALL stimulates BM stromal cells, which reciprocally promote leukemia cell survival. To identify molecules critically involved in leukemia-microenvironment crosstalk, we performed gene expression profiling analyses of primary BM mesenchymal stem cells (BMMSC) following stimulation by primary ALL cells. Leukemia stimulation of BMMSC up regulated the expression of several inflammatory chemokines, including CCL2 and IL-8. Secretion of these molecules was confirmed by ELISA assays of in vitro co-culture experiments and in BM plasma samples from pediatric ALL patients. Most primary ALL samples were found to express mRNA for CCL2 and IL-8 receptors. In vitro functional studies revealed that primary ALL cells co-cultured with BMMSC were not affected by addition of CCL2, IL-8 or neutralizing antibodies to these chemokines. On the other hand, both chemokines were found to enhance BMMSC survival in serum-free medium and to increase their proliferation in serum-starved conditions. To further explore the effect of IL-8 in the ALL-BM microenvironment the CXCR2 -IL-8 receptor-antagonist SB225002 ( N - ( 2 - hydroxyl - 4 - nitrophenyl ) - N' - ( 2 - bromophenyl ) urea) was synthesized. SB225002 had a deleterious effect against ALL cell lines (Nalm6, REH, Jurkat, CEM, and Molt4). Suprisingly, not all the ALL cells lines that were sensitive to SB225002 expressed CXCR2 receptor. This find suggested that the SB225002's mechanism of action occurred through a different receptor. SB225002 was recently described to also bind histamine and cannabinoid receptors that were investigated in ALL and the CNR2 cannabinoid receptor demonstrated to play a role in SB225002 mechanism of action. To identify molecules involved in the cellular effects promoted by SB225002, gene expression profiling analyses was performed of Jurkat cells treated with SB225002. Early cellular effects enhanced by SB225002 included (i) activation of phospho-p44/42 ERK and (ii) up regulation of GLIPR1 that shown to mediate SB225002-induced apoptosis. In conclusion, this work support a significant role for the chemokines CCL2 and IL-8 in the ALL-BM microenvironment, and demonstrate SB225002's therapeutic potential. (AU)