Multiple myeloma is a plasma cell malignancy, which grows in the bone marrow (BM). The major population of cells in the BM is represented by neutrophils and they can form neutrophil extracellular traps (NET). Here, we investigated whether multiple myeloma cells induce NET formation and whether targeting this process would delay multiple myeloma progression. We demonstrated that murine and human multiple myeloma cells stimulate citrullination of histone H3 and NET formation by neutrophils and that this process is abrogated by pharmacological targeting of peptidylarginine deiminase 4 (PAD4) with a novel-specific small molecule inhibitor BMS-P5. Administration of BMS-P5 to multiple myeloma-bearing mice delays appearance of symptoms and disease progression. Taken together, our data demonstrate that targeting PAD4 may be beneficial for treatment of multiple myeloma.
Formation of neutrophil extracellular traps (NETs) has been associated with multiple pathologies including cancer. While the visualization of NETs by microscopy is a routine technique, their quantification presents a number of challenges. Commonly, as citrullination of histone H3 is required for NET formation, the presence of this modified histone along with DNA is considered to be a hallmark of NETs. Here, we describe and validate a novel assay for the quantification of NETs based on the detection of citrullinated histone H3 bound to DNA (CitH3DNA binding assay). Using this assay, we investigated the effect of phorbol 12-myristate 13-acetate (PMA) on NET formation by neutrophils isolated from the bone marrow of control and myeloma-bearing mice. We found that PMA induced citrullination of histone H3, an increase in the level of CitH3DNA, and NET formation in neutrophils from both tumor-free and myeloma-bearing mice. The levels of CitH3DNA in the NET fractions, as measured by our assay directly correlated with the citrullination of histone H3 in neutrophils, as detected by Western blotting, and were significantly higher in PMA-stimulated compared to unstimulated neutrophils. Neutrophils from tumor-bearing mice produced more NETs than those from tumor-free counterparts following stimulation with PMA. The increase in NET production correlated with significantly higher histone H3 citrullination levels and increased measurements of CitH3DNA. Thus, our data indicate that bone marrow neutrophils from myeloma-bearing hosts are prone to NET formation.
Seismically triggered landslides are a major hazard and have caused severe secondary losses. This problem is especially important in the seismic prone Mailuu-Suu catchment in Kyrgyzstan, as it hosts disproportionately sensitive active or legacy uranium sites with deposited radioactive extractive wastes. These sites show a quasi-continuous release of radioactive contamination into surface waters, and especially after natural hazards, a sudden and massive input of pollutants into the surface waters is expected. However, landslides of contaminated sediments into surface waters represent a substantial exposure pathway that has not been properly addressed in the existing river basin management to date. To fill this gap, satellite imagery was massively employed to extract topography and geometric information, and the seismic Scoops3D and the one-dimensional numerical model, Hydrologic Engineering Centre, River Analysis System (HEC-RAS), were chosen to simulate the landslide-induced mass transport of total suspended solids (TSS) and natural radionuclides (Pb-210 as a proxy for modeling purposes) within the Mailuu-Suu river networks under two earthquake and two hydrological scenarios. The results show that the seismically vulnerable areas dominated in the upstream areas, and the mass of landslides increased dramatically with the increase of earthquake levels. After the landslides, the concentrations of radionuclides increased suddenly and dramatically. The peak values decreased along the longitudinal gradient of river networks, with the concentration curves becoming flat and wide in the downstream sections, and the transport speed of radionuclides decreased along the river networks. The conclusions of this study are that landslides commonly release a significant amount of pollutants with a relatively fast transport along river networks. Improved quantitative understanding of waterborne pollution dispersion across national borders will contribute to better co-ordination between governments and regulatory authorities of riparian states and, consequently, to future prevention of transnational political conflicts that have flared up in the last two decades over alleged pollution of transboundary water bodies.
Multiple Myeloma (MM) is an incurable blood cancer characterized by the clonal proliferation of plasma cells that accumulate in the bone marrow (BM). Resistance to chemotherapy represents one of the main challenges in the treatment of this disease. We have previously shown that neutrophils, one of the major cellular populations in the BM, protect MM cells from chemotherapies including anthracyclines; however, the mechanisms of this effect remain unknown. Thus, we set out to investigate the mechanisms by which neutrophils reduce sensitivity of tumor cells to anthracyclines. Neutrophil extracellular traps (NETs) are structures composed of chromatin and protein formed by neutrophils that are a part of an innate immune mechanism of binding and killing pathogens. Recently, NETs have been shown to form in cancer patients as well as tumor-bearing animals and have been implicated in solid tumor progression; however, their role in hematological malignancies remain poorly understood. Utilizing an in vitro culture system, we demonstrated that MM cells were able to induce NET formation by BM neutrophils. Interestingly, neutrophils isolated from the BM of patients with MM have a significantly higher ability to produce NETs in response to tumor cells as compared to BM neutrophils from donors. NET formation was accompanied by an increase in the level of extracellular DNA. Using imaging flow cytometry and confocal microscopy we demonstrated that extracellular DNA is internalized by tumor cells and localizes to the cytoplasm. This internalized DNA was able to bind to doxorubicin and other anthracyclines thereby reducing their cytotoxic effects. Significantly increased cell-free DNA levels were detected in BM aspirates from MM patients as well as in tumor-bearing mice. Targeting the extracellular DNA in vivo using the clinically available DNase, Pulmozyme, restored the sensitivity of tumor cells to doxorubicin resulting in prolonged survival of tumor-bearing animals. Here, we have identified a novel mechanism of resistance to anthracyclines that is mediated by neutrophils in the tumor microenvironment and provided evidence to support the premise that targeting this mechanism would be of significant benefit in the treatment of MM. Citation Format: Cindy Lin, Sarah E. Herlihy, Marina Li, Hui Deng, Luca Bernabei, Dmitry I. Gabrilovich, Dan T. Vogl, Yulia Nefedova. NETs promote tumor resistance to anthracyclines [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 2103.
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