Multiple myeloma remains a largely incurable disease of clonally expanding malignant plasma cells. The bone marrow microenvironment harbors treatment-resistant myeloma cells, which eventually lead to disease relapse in patients. In the bone marrow, CD4+FoxP3+ regulatory T cells (Tregs) are highly abundant amongst CD4+ T cells providing an immune protective niche for different long-living cell populations, e.g., hematopoietic stem cells. Here, we addressed the functional role of Tregs in multiple myeloma dissemination to bone marrow compartments and disease progression. To investigate the immune regulation of multiple myeloma, we utilized syngeneic immunocompetent murine multiple myeloma models in two different genetic backgrounds. Analyzing the spatial immune architecture of multiple myeloma revealed that the bone marrow Tregs accumulated in the vicinity of malignant plasma cells and displayed an activated phenotype. In vivo Treg depletion prevented multiple myeloma dissemination in both models. Importantly, short-term in vivo depletion of Tregs in mice with established multiple myeloma evoked a potent CD8 T cell- and NK cell-mediated immune response resulting in complete and stable remission. Conclusively, this preclinical in-vivo study suggests that Tregs are an attractive target for the treatment of multiple myeloma.
Multiple myeloma (MM) plasma cell (MMPC) interactions with the microenvironment control MMPC growth, survival, drug-resistance and intra- and extramedullary dissemination. Dissemination of MMPCs through bone marrow niches and in extra-medullary sites is an active process of invasion involving bone marrow endothelial cells, multiple adhesion molecules and chemokine receptors. Since enhanced angiogenesis characterizes MM, we investigated whether junctional adhesion molecule-A (JAM-A) mediated interactions between MM bone marrow endothelial cells (MMECs) and MMPCs impact disease progression. To this end, we analyzed JAM-A expression levels in MMECs of 312 MM patients in two independent cohorts with flow cytometry, namely 111 newly diagnosed (NDMM) and 201 relapsed/refractory (RRMM) and compared them to 36 monoclonal gammopathy of undetermined significance (MGUS) and healthy subjects. To corroborate our data and investigate at a gene-expression level the prognostic value of deregulated genes (FDR<0.1 & P<0.05) we used a Cox-regression model in the CoMMpass dataset (n=326, IA13 release). The role of JAM-A was evaluated by shRNA knockdown and an anti-JAM-A blocking monoclonal antibody. Subsequently, we functionally validated the JAM-A downstream pathways related to cytoskeleton rearrangement, cell proliferation, epithelial mesenchymal transition, invasion and MM dissemination in vitro and in vivo. Surface protein expression of JAM-A on MMECs predicted poor overall survival (OS) in NDMM (not reached (NR) vs. 78 months univariate hazards ratio-HR=9.14, 95% CI 2.8-29.76, P<0.0001) and RRMM patients (NR vs. 130 months, HR=2.96, 95% CI 1.37-6.37, P=0.006) with significant impact also in the progression free survival (PFS) in the advanced stage cohort (8.3 vs. 27 months, HR=1.41, 95% CI 1.05-1.88; P=0.019). A sub-analysis on our cohort with extramedullary disease (EMD) MM revealed that the median OS decreased significantly in patients with JAM-Ahighvs. those with JAM-Alow MMEC expression: 84.1 months vs. not reached, irrespective from the EMD status (log-rank=4.19, P=0.04). Strikingly, among NDMM, these results maintained their significance also in the multivariate analysis (HR=9.11, 95% CI 2.79-29.76, P<0.001); within the RRMM cohort the multivariate analyses confirmed JAM-Ahigh MMECs as a statistically significant independent risk factor for short OS (HR=2.39, 95% CI 1.09-5.28, P=0.03) in much the same way were the Revised international staging system (R-ISS) stages such as stage II (HR=5.34, 95% CI 1.24-22.97, P=0.024), stage III (HR=6.57, 95% CI 1.25-34.54, P=0.026) and chronic kidney disease (HR=2.21, 95% CI 1.06-4.62, P=0.034). Cox stratified model implemented for PFS confirmed only JAM-Ahigh MMECs as a statistically significant risk factor (HR=1.35, 95% CI 1.00-1.81, P=0.044) stratified by chronic kidney disease. Notably, also transcriptional upregulation of JAM-A (RNA-Seq data, CoMMpass) corroborated the prognostic impact (log-rank=13, P=0.0003) and revealed a unique gene-expression signature of activated epithelial-mesenchymal-transition, mTOR/PI3K and focal adhesion pathways in high-risk MM patients with EMD and JAM-Ahigh. Ensuing functional shRNA knockdown of JAM-A reduced MM invasion (P<0.002), angiogenesis (P<0.0001), cell dissemination and migration (P<0.002), cell survival (P<0.001) and expression of cellular-adhesion system molecules such as integrin-beta-1, fibronectin, RAC1 and RHOA (P<0.001). Notably, adding recombinant JAM-A to MMECs enhanced angiogenesis while this was impaired by blocking JAM-A with a specific monoclonal antibody in functional 2D and 3D chorioallantoic membrane-assay and two in vivo MM mouse models. Conclusively, in vivo experiments corroborated our findings that JAM-A blocking halted angiogenesis and reduced MM progression. Collectively, our findings pinpoint JAM-A as a key player propagating a vicious cycle of MMECs and MMPCs interaction; the expression of JAM-A and the related adhesion pathways can prognostically stratify patients in the late disease stages impacting two main MM progression processes: angiogenesis and extra-medullary dissemination. Therefore, we propose JAM-A as a promising MM biomarker and novel therapeutic target in advanced disease. Disclosures Klapper: Roche, Takeda, Amgen, Regeneron: Honoraria, Research Funding. Rosenwald:MorphoSys: Consultancy. Cavo:celgene: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees, Other: travel accommodations, Speakers Bureau; janssen: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees, Other: travel accommodations, Speakers Bureau; bms: Honoraria, Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; sanofi: Honoraria, Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; novartis: Honoraria; takeda: Honoraria, Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; amgen: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; AbbVie: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees.
Deregulation such as overexpression of adhesion molecules influences cancer progression and survival. Metastasis of malignant cells from their primary tumor site to distant organs is the most common reason for cancer-related deaths. Junctional adhesion molecule (JAM)-C, a member of the Ig-like JAM family, can homodimerize and aid cancer cell migration and metastasis. Here we show that this molecule is dynamically expressed on multiple myeloma (MM) cells in the marrow and co-localizes with blood vessels within the bone marrow of mice and humans. Additionally, JAM-C upregulation inversely correlates with the downregulation of the canonical plasma cell marker CD138 (syndecan-1), whose surface expression has recently been found to dynamically regulate a switch between MM growth in situ and MM dissemination. Moreover, targeting JAM-C in a syngeneic in vivo MM model ameliorates MM progression and improves outcome. Overall, our data demonstrate that JAM-C might serve not only as an additional novel diagnostic biomarker but also as a therapeutic target in MM disease.
Gain-of-function mutations in the zinc cluster transcription factors Mrr1, Tac1, and Upc2, which result in constitutive overexpression of their target genes, are a frequent cause of fluconazole resistance in the pathogenic yeast In this study, we show that an activated form of another zinc cluster transcription factor, Stb5, confers resistance to the natural compound beauvericin via the overexpression of, encoding an efflux pump of the ATP-binding cassette transporter superfamily. Beauvericin was recently shown to potentiate the activity of azole drugs against Although Yor1 did not contribute to fluconazole resistance when cells were treated with the drug alone, Stb5-mediated overexpression diminished the synergistic effect of the fluconazole-beauvericin combination, thereby enhancing fluconazole resistance in beauvericin-treated cells. Stb5-mediated overexpression also suppressed the inhibition of hyphal growth, an important virulence trait of, by beauvericin. Therefore, activating mutations in Stb5, which result in constitutive overexpression, may enable to acquire resistance to beauvericin and thereby overcome both the sensitization to azole drugs and the inhibition of morphogenesis caused by this compound.
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