Abstract
Introduction
Multiple Myeloma (MM) remains an incurable disease and is associated with high rates of venous thromboembolism (VTE), the biological basis for which is not fully understood. Critically, VTE is associated with increased mortality in MM. This highlights the clinical importance of understanding cancer-coagulation crosstalk in MM. Accumulating evidence demonstrates that many solid tumours trigger endothelial cell (EC) activation with resultant von Willebrand Factor (VWF) secretion proposed to contribute to both risk of VTE and cancer metastasis. However, the interplay between VWF and MM disease biology remains poorly defined.
Methods/Results
100 patients with plasma cell disorders were recruited to this study. Significantly elevated plasma VWF antigen (VWF:Ag) levels were observed in patients with newly diagnosed MM (NDMM) compared to those with monoclonal gammopathy of undetermined significance (MGUS) or smouldering MM (SMM) (median 292.7 IU/dL vs 133.1 IU/dL; P<0.0001). Moreover, VWF:Ag levels in those with relapsed/refractory MM (RRMM) were further elevated (median 339 IU/dL; P<0.0001]). VWF:Ag levels also appear to correlate with disease response to therapy, with lower levels seen in patients achieving a complete response/very good partial response compared with those gaining only a partial response or worse (median 154.45 IU/dL vs 338.5 IU/dL; P<0.05).
We also observed increased VWF collagen binding activity in NDMM/RRMM compared with MGUS/SMM (median 455.7 IU/dL vs 189.7 IU/dL; P<0.05). This qualitative measurement is sensitive to alterations in haemostatically active high molecular weight multimers of VWF secreted upon EC activation. Supporting this, raised plasma VWF propeptide (VWFpp) levels, a marker of acute EC activation, were seen in those with NDMM/RRMM compared with MGUS/SMM (median 182 IU/dL vs 133.01 IU/dL; P<0.05). Reduced VWFpp/VWF:Ag ratios were seen in those with NDMM/RRMM, indicating decreased circulatory clearance of VWF. We hypothesise that MM may exhibit a 'double-hit' in regulation of plasma VWF:Ag with increased secretion of VWF but also simultaneously reduced VWF clearance leading to sustained and markedly elevated systemic plasma VWF levels.
Next we measured VWF:Ag levels in bone marrow (BM) samples from 10 patients and found that VWF is released locally within the BM niche (median 190.2 IU/dL). Co-culture of primary human ECs with supernatant from freshly isolated primary MM cells or several Human Myeloma Cell Lines (HMCLs) demonstrated that MM cells stimulate release of VWF from ECs in a rapid manner, suggestive of Weibel-Palade body exocytosis (median 34.9ng/ml vs 9.2ng/ml in untreated EC; P<0.05). Elevated levels of Vascular Endothelial Growth Factor-A (VEGF-A), a potent EC activator, were observed in MM cell supernatants. Pre-treatment of primary MM cells or HMCLs with anti-VEGF antibody bevacizumab abolished EC VWF secretion in a dose dependant manner (32.3ng/ml vs anti-VEGF treated 10.1ng/ml P<0.0001). Furthermore, clinically relevant doses of low molecular weight heparin (LMWH) also attenuated VWF secretion (29.6ng/ml vs LMWH treated 15ng/ml; P<0.05). Measurement of VEGF-A in primary MM cell and HMCL supernatant treated with LMWH or bevacizumab confirmed significant reductions in VEGF-A levels. Together these data indicate that stimulation of VWF release from the endothelium by MM cells is mediated by VEGF-A and directly inhibited by LMWH treatment.
Using flow cytometry, we assessed the direct interaction of MM cells and VWF in vitro. Both primary MM cells and HMCLs bound significantly to human recombinant VWF in a dose-dependent manner. Binding was reduced by 50% following treatment with LMWH (P<0.05). Given that the VWF A1 domain contains a heparin binding motif, we speculate that MM cell adhesion to VWF may be at least in part mediated by this domain and future work focuses on elucidating the receptors involved.
Conclusion
These data suggest that MM is not only associated with a marked quantitative increase in plasma VWF:Ag, but also impacts VWF functional activity. Our novel data help define the biological mechanisms underpinning elevated VWF levels in MM, with a key contribution of VEGF-A secreted directly from MM cells in the BM microenvironment. Collectively, our findings provide insights into cancer-coagulation crosstalk in MM and may help identify novel therapeutic targets to reduce VTE risk and disease progression.
Glavey: Celgene and BMS company: Research Funding; Janssen: Honoraria, Research Funding; Abbvie: Research Funding; Amgen: Honoraria, Research Funding. Quinn: Takeda: Honoraria. O'Sullivan: Leo Pharma: Research Funding.