Abstract PR14: In vivo targeting of stromal-derived factor-1 as a strategy to prevent myeloma cell dissemination to distant bone marrow niches

Background. Multiple myeloma (MM) patients present with multiple lytic lesions at diagnosis, indicating the presence of continuous dissemination of MM cells from the primary site of tumor development to multiple distant bone marrow (BM) niches. We hypothesized that stromal-derived factor-1 (SDF1) may represent a target for preventing transition from MGUS (micrometastatic-stage) to active-MM (macrometastatic-stage). We therefore evaluated SDF1 expression in the BM of patients with MGUS, MM, compared to healthy individuals; and tested NOX-A12, a high affinity L-oligonucleotide binder to SDF1, looking at its ability to modulate MM cell tumor growth and homing to the BM in vivo and in vitro. Methods. SDF1 levels were evaluated by immunohistochemistry on BM specimens of patients with MGUS, active-MM, or healthy individuals; and confirmed by ELISA, using conditioned-medium of BM-mesenchymal stromal cells (BM-MSCs) from MGUS, active-MM and healthy individuals. BM metastatic lesions from primary epithelial tumors were also evaluated. Co-localization of SDF1 with MM cell (MM.1S-GFP + )-enriched BM niches was evaluated using in vivo confocal microscopy. Effect of NOX-A12 on modulating MM cell dissemination was tested in vivo, by using in vivo MM metastasis model. In vivo homing and in vivo tumor growth of MM cells (MM.1S-GFP + /luc + ) was assessed by using in vivo confocal microscopy and bioluminescence, in mice treated with 1) vehicle; 2) NOX-A12; 3) bortezomib; 4) NOX-A12+bortezomib. Effects of drug combination on dissemination of MM cells to distant BM niches was evaluated ex vivo by immunofluorescence on explanted femurs. DNA synthesis and adhesion of MM cells in the context of NOX-A12 treated primary MM BM-MSCs in presence or absence of bortezomib were tested by thymidine uptake and adhesion in vitro assay, respectively. Synergism was calculated by using CalcuSyn software. Results. Patients with active-MM present with higher BM SDF1 expression vs MGUS patients and healthy individuals. Similarly, BM presenting with metastasis from epithelial primary tumors had higher SDF1 levels compared to healthy subjects, thus suggesting the importance of SDF1 in favoring tumor cell metastasis to BM niches. SDF1 co-localized at BM level with MM tumor cells in vivo. In vitro, NOX-A12 induced a dose-dependent de-adhesion of MM cells from the BMSCs supported by inhibition of BM-MSC-mediated phosphorylation of ERK1/2 and cofilin. Importantly, NOX-A12 induced MM cell mobilization from the BM to the peripheral blood (PB) as shown ex vivo by reduction of MM cells in the BM and increased number of MM cells within the PB compared to control mice (P Conclusion. SDF-1 represents a valid target for inhibiting MM cell dissemination to distant BM niches, thus providing the evidence for using the SDF1 inhibiting spiegelmer NOX-A12 to target MM cells at the stage of micrometastasis (MGUS), thus preventing development of macrometastatic MM. This abstract is also presented as Poster B80. Citation Format: Aldo M. Roccaro, Antonio Sacco, Michele Moschetta, Patricia Maiso, Yuji Mishima, Yosra Aljawai, Fabio Facchetti, Anna Kruschinski, Giuseppe Rossi, Irene M. Ghobrial. In vivo targeting of stromal-derived factor-1 as a strategy to prevent myeloma cell dissemination to distant bone marrow niches. [abstract]. In: Abstracts: AACR Special Conference on Cellular Heterogeneity in the Tumor Microenvironment; 2014 Feb 26-Mar 1; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2015;75(1 Suppl):Abstract nr PR14. doi:10.1158/1538-7445.CHTME14-PR14