Atacicept (TACI-Ig) Inhibits Growth of TACIhigh Primary Myeloma Cells in SCID-Hu Mice.

Blood ◽  
2006 ◽  
Vol 108 (11) ◽  
pp. 842-842
Author(s):  
Shmuel Yaccoby ◽  
Stacey R. Dillon ◽  
Wen Ling ◽  
Paul Perkins ◽  
John R. Tisdale ◽  
...  
Keyword(s):  
Gene Expression ◽  
B Cell ◽  
Cell Biology ◽  
B Lymphocyte ◽  
Predictive Marker ◽  
Cell Types ◽  
Tumor Burden ◽  
Delayed Growth

Abstract Two TNF family members known to play key roles in normal B cell biology, BLyS/BAFF (B-lymphocyte stimulator/B cell activating factor) and APRIL (A PRoliferation-Inducing Ligand), also promote the survival of various malignant B cell types, including multiple myeloma (MM). BLyS binds to 3 TNF-R-related receptors, BCMA (B-cell maturation antigen, TACI (transmembrane activator and CAML interactor), and BAFF-R (BAFF-receptor), whereas APRIL binds to TACI and BCMA and to heparan sulfate proteoglycans (HSPG) such as CD138. All MM cells express HSPG and one or more of these 3 receptors, and incubation of MM cells with BLyS and/or APRIL leads to enhanced survival of these malignant cells in vitro. Stromal cells and osteoclasts residing in the bone marrow (BM) produce BLyS and APRIL and thus provide a paracrine source of these survival factors MM cells. Inhibition of BLyS and APRIL in vitro using a soluble receptor, TACI-Ig, causes cultured MM cells to die rapidly. It has been shown (Moreaux et al, Blood 106:1021) that differences in TACI gene expression can distinguish tumors with a BM microenvironment dependence signature (TACIhigh) from those with a plasmablastic signature (TACIlow), suggesting that TACIhigh MM cells may be more sensitive to growth factor withdrawal. We tested the ability of atacicept (TACI-Ig) to inhibit MM growth in the SCID-hu model of MM (Yaccoby et al, Blood 92:2908). Myelomatous SCID-hu mice were constructed by implanting a human fetal bone into which primary MM cells were directly injected. Changes in levels of tumor burden were monitored by weekly measurements of serum human monotypic immunoglobulins (hIg), and confirmed by histology. We compared the ability of atacicept and BAFFR-Ig (which binds BLyS, but not APRIL) to inhibit MM cell growth in this model. Upon establishment of myeloma growth, mice were injected intraperitoneally with atacicept (5 or 10 mg/kg, 3 times a wk; n=7), BAFFR-Ig (10 mg/kg, 3 times a wk; n=5) or with vehicle (PBS; n=7) for 6 wks. Compared to controls, in which tumor burden (hIg) increased by 1007±260% (avg±SEM) from pre-treatment levels, atacicept treatment markedly reduced tumor burden in 5 experiments in which TACIhigh MM cells were used, and delayed growth or had no effect in 2 experiments using TACIlow MM cells (avg increase in tumor burden of 302±184% for all 7 experiments; p<0.01 vs. control). Inhibition of tumor infiltration was confirmed by histology. Preliminary data also indicate that atacicept can inhibit growth of bortezomib-resistant MM cells in vivo. The level of TACI gene expression by MM cells generally correlated with response to atacicept. In vitro MM cell/osteoclast co-culture experiments confirmed these results, as atacicept inhibited growth of TACIhigh MM cells, but had a minimal effect on growth of TACIlow MM cells. In contrast, BAFFR-Ig treatment in the SCID-hu model resulted in tumor reduction in 1 experiment, delayed growth in 2 experiments and no effect in 2 experiments (avg increase in hIg of 762±298 and 208±46% in control and BAFFR-Ig groups, respectively; p<0.078), suggesting that APRIL plays a non-redundant role in survival of tumor cells from certain MM patients. Our results suggest that atacicept might represent an important new treatment for MM, and that TACI gene expression may prove to be a useful predictive marker for this therapeutic intervention.

scholarly journals Validation of epigenetic mechanisms regulating gene expression in canine B-cell lymphoma: An in vitro and in vivo approach

PLoS ONE ◽  
2018 ◽  
Vol 13 (12) ◽  
pp. e0208709 ◽  
Author(s):  
Silvia Da Ros ◽  
Luca Aresu ◽  
Serena Ferraresso ◽  
Eleonora Zorzan ◽  
Eugenio Gaudio ◽  
...  
Keyword(s):  
Gene Expression ◽  
B Cell ◽  
Cell Lymphoma ◽  
B Cell Lymphoma ◽  
Epigenetic Mechanisms

Fetal liver pro-B and pre-B lymphocyte clones: expression of lymphoid-specific genes, surface markers, growth requirements, colonization of the bone marrow, and generation of B lymphocytes in vivo and in vitro

1992 ◽  
Vol 12 (2) ◽  
pp. 518-530
Author(s):  
R Palacios ◽  
J Samaridis
Keyword(s):  
B Cell ◽  
B Lymphocytes ◽  
Stromal Cells ◽  
B Lymphocyte ◽  
Germ Line ◽  
Fetal Liver ◽  
Rag 1 ◽  
B Cell Precursors

We describe here the development and characterization of the FLS4.1 stromal line derived from 15-day fetal liver of BALB/c embryos and defined culture conditions that efficiently support the cloning and long-term growth of nontransformed B-220+ 14-day fetal liver cells at two stages of B-cell development, namely, pro-B lymphocytes (immunoglobulin [Ig] genes in germ line configuration) and pre-B cells (JH-rearranged genes with both light-chain Ig genes in the germ line state). All B-cell precursor clones require recombinant interleukin-7 (rIL-7) and FLS4.1 stromal cells for continuous growth in culture, but pro-B lymphocyte clones can also proliferate in rIL-3. None proliferate in rIL-1, rIL-2, rIL-4, rIL-5, rIL-6, or leukemia inhibitory factor. FLS4.1 stromal cells synthesize mRNA for Steel factor but not for IL-1 to IL-7; all pro-B and pre-B clones express c-Kit, the receptor for Steel factor, and a c-Kit-specific antibody inhibits the enhanced proliferative response of fetal liver B-220+ B-cell precursors supported by FLS4.1 stromal cells and exogenous rIL-7 but does not affect that promoted by rIL-7 alone. Northern (RNA) blot analysis of the expression of the MB-1, lambda 5, Vpre-B, c mu, RAG-1, and RAG-2 genes in pro-B and pre-B clones show that transcription of the MB-1 gene precedes IgH gene rearrangement and RNA synthesis from c mu, RAG-1, RAG-2, lambda 5, and Vpre-B genes. All clones at the pre-B-cell stage synthesize mRNA for c mu, RAG-1, and RAG-2 genes; transcription of the lambda 5 and Vpre-B genes seems to start after D-to-JH rearrangement in B-cell precursors, indicating that the proteins encoded by either gene are not required for B-cell progenitors to undergo D-to-JH gene rearrangement. These findings mark transcription of the MB-1 gene as one of the earliest molecular events in commitment to develop along the B-lymphocyte pathway. Indeed, both pro-B and pre-B clones can generate in vitro and in vivo B lymphocytes but not T lymphocytes; moreover, these clones do not express the CD3-gamma T-cell-specific gene, nor do they have rearranged gamma, delta, or beta T-cell antigen receptor genes.

P0658MATRIX AND FLOW MODULATE GENE EXPRESSION IN A 3D VASCULARISED TUBULE MODEL

2020 ◽  
Vol 35 (Supplement_3) ◽  
Author(s):  
Julie Williams ◽  
Sanlin Robinson ◽  
Babak Alaei ◽  
Kimberly Homan ◽  
Maryam Clausen ◽  
...  
Keyword(s):  
Gene Expression ◽  
Extracellular Matrix ◽  
Impact Analysis ◽  
Cell Types ◽  
Drug Uptake ◽  
Shear Stresses ◽  
The Matrix ◽  
And Function

Abstract Background and Aims Questions abound regarding the translation of in vitro 2D cell culture systems to the human setting. This is especially true of the kidney in which there is a complex hierarchical structure and a multitude of cell types. While it is well accepted that extracellular matrix plays a large part in directing cellular physiology emerging research has highlighted the importance of shear stresses and flow rates too. To fully recapitulate the normal gene expression and function of a particular renal cell type how important is it to completely reconstitute their in vivo surroundings? Method To answer this question, we have cultured proximal tubular (PT) epithelial cells in a 3-dimensional channel embedded within an engineered extracellular matrix (ECM) under physiological flow that is colocalised with an adjacent channel lined with renal microvascular endothelial cells that mimic a peritubular capillary. Modifications to the system were made to allow up to 12 chips to be run in parallel in an easily handleable form. After a period of maturation under continuous flow, both cell types were harvested for RNAseq analyses. RNA expression data was compared with cells cultured under static 2-dimensional conditions on plastic or the engineered ECM. Additionally, the perfusion of glucose through this 3D vascularised PT model has been investigated in the presence and absence of known diabetes modulating agents. Results PCA of RNAseq data showed that a) static non-coated, b) static matrix-coated and c) flow matrix-coated conditions separated into 3 distinct groups, while cell co-culture had less impact. Analysis of transcriptomic signatures showed that many genes were modulated by the matrix with additional genes influenced under flow conditions. Several of these genes, classified as transporters, are of particular importance when using this model to assess drug uptake and safety implications. Co-culture regulated some interesting genes, but fewer than anticipated. Preliminary experiments are underway to monitor glucose uptake and transport between tubules under different conditions. Conclusion We have developed a medium throughput system in which matrix and flow modulate gene expression. This system can be used to study the physiology of molecular cross-talk between cells. Ongoing analysis will further consider relevance to human physiology.

scholarly journals Glucocorticoid receptor action in metabolic and neuronal function

F1000Research ◽  
2017 ◽  
Vol 6 ◽  
pp. 1208 ◽  
Author(s):  
Michael J. Garabedian ◽  
Charles A. Harris ◽  
Freddy Jeanneteau
Keyword(s):  
Gene Expression ◽  
Glucocorticoid Receptor ◽  
Metabolic Diseases ◽  
Cell Types ◽  
Health And Disease ◽  
And Behavior ◽  
External Signals ◽  
The Brain

Glucocorticoids via the glucocorticoid receptor (GR) have effects on a variety of cell types, eliciting important physiological responses via changes in gene expression and signaling. Although decades of research have illuminated the mechanism of how this important steroid receptor controls gene expression using in vitro and cell culture–based approaches, how GR responds to changes in external signals in vivo under normal and pathological conditions remains elusive. The goal of this review is to highlight recent work on GR action in fat cells and liver to affect metabolism in vivo and the role GR ligands and receptor phosphorylation play in calibrating signaling outputs by GR in the brain in health and disease. We also suggest that both the brain and fat tissue communicate to affect physiology and behavior and that understanding this “brain-fat axis” will enable a more complete understanding of metabolic diseases and inform new ways to target them.

Unique Effects of p53−/− Leukemic Cells On Mesenchymal Stromal Cell Gene Expression Profile in Vitro

Blood ◽  
2012 ◽  
Vol 120 (21) ◽  
pp. 3468-3468
Author(s):  
Xiaoyang Ling ◽  
Ye Chen ◽  
Peter P. Ruvolo ◽  
Vivian Ruvolo ◽  
Zhiqiang Wang ◽  
...  
Keyword(s):  
Gene Expression ◽  
Cell Biology ◽  
Stromal Cell ◽  
Conflicts Of Interest ◽  
Leukemic Cells ◽  
Bone Marrow Niche ◽  
In Vivo Experiments ◽  
Cell Gene Expression

Abstract Abstract 3468 Mesenchymal stromal cells (MSC) participate in the generation of the microenvironmental bone marrow niche which protects normal and leukemic stem cells from injuries, including chemotherapy. MSC produce numerous factors that aid in this function; however, little is known about how leukemic cells affect MSC. In this study, paired murine AML cells, MLL/ENL/FIT3-ITD/p53−/− and MLL/ENL/FIT3-ITD/p53wt, originally derived from C57BL/6 mice (Zuber et al. Genes & Dev. 2009), were co-cultured with MSC from the same strain. After 48 hrs, MSC were isolated by FACS sorting using CD45−/PDGFr+ as markers. Total RNA was profiled on Illumina WG6 mouse whole-genome bead arrays by standard procedures. The significance analysis of microarrays (SAM) method identified 429 differentially-expressed genes (DEG) whose expression in MSC differed significantly (false discovery rate, 10%) in co-cultures with p53−/− (C78) vs. p53wt (C147) leukemic cells. Differences in these DEG were highly consistent in replicates (Figure 1). The results demonstrate that: 1) p53 status (p53−/− vs. p53wt) of AML cells affects GEP patterns in co-cultured MSC. Comparison of the GEP in MSC co-cultured with p53−/− (78) or p53wt (147) (Fig 1) identified the following 5 genes that showed the most significant differences (up- or down-regulated): up-regulated: WNT16, WNT5, IGFBp5, GCNT1, ATP1B1; down-regulated: NOS2, DCN, CCL7, CCL2, CAR9, CCL4. These were selected for qPCR validation, and the results confirmed the array data. In addition, immunohistochemical staining showed that WNT16 was up-regulated in MSC co-cultured with p53wt leukemic cells. In addition, CXCL5 was found up-regulated in MSC co-cultured with p53−/− leukemic cells. These results were consistent with the GEP data. 2) Leukemic cells alter MSC Signaling proteins in vitro: Western blotting showed that Stat3, Akt, PTEN, CXCL5 and HIF-1α were up- regulated in MSC co-cultured with p53−/− leukemic cells as compared to p53wt leukemic cells (48 hrs). Additional analyses showed that the downstream targets of HIF-1α, VEGFa and VEGFc, but not VEGFb, were up-regulated. Taken together, these results suggest that 1) leukemic cells with different p53 genetic background co-cultured with normal MSC have profoundly differential effects on GEP of normal MSC; 2) MSC co-cultured with p53−/− leukemic cells resulted in increased levels of onco-proteins such as Akt and HIF-1α when compared to MSC co-cultured with p53wt leukemic cells. Results suggest, for the first time, that the genetics of leukemic cells determines gene expression in co-cultured MSC. In vivo experiments are in progress to provide in vivo evidence for the existence of a novel model of leukemia-stroma interactions where the genetics of the tumor cell impacts stromal cell biology. Disclosures: No relevant conflicts of interest to declare.

scholarly journals TACI-BLyS signaling via B-cell–dendritic cell cooperation is required for naive CD8+ T-cell priming in vivo

Blood ◽  
2006 ◽  
Vol 107 (2) ◽  
pp. 594-601 ◽  
Author(s):  
Yaiza Diaz-de-Durana ◽  
George T. Mantchev ◽  
Richard J. Bram ◽  
Alessandra Franco
Keyword(s):  
B Cells ◽  
Dendritic Cell ◽  
B Cell ◽  
B Lymphocyte ◽  
Costimulatory Molecule ◽  
Early Signal ◽  
Maturation In Vitro ◽  
Deficient Mice

AbstractWe demonstrated that B-cell–dendritic cell (DC) interactions via transmembrane activator and calcium modulator and cyclophilin ligand (CAML) interactor (TACI) and B-lymphocyte stimulator (BLyS) provide an early signal critical to generate adequate numbers of mature antigen presenting cells (APCs) to prime naive CD8+ T cells (CTLs) in vivo. Evidence that B cells are required for efficient CTL generation in mice and that reconstitution with wild-type but not TACI-knockout B cells restored normal CTL responses support our conclusion. Moreover, low doses of a TACI fusion protein (TACI-Fc) that express the extracellular domain of TACI (amino acid [aa] 1-126) restored CTL priming in B-cell–deficient mice in vivo and induced DC maturation in vitro. In fact, following interactions with B cells, splenic DCs rapidly express the CD86 costimulatory molecule, to an extent comparable to the exposure to antigenic stimuli. BLyShigh peptide-pulsed bone marrow–derived DCs, used as vaccines in vivo, cannot generate CTLs in B-cell–deficient and TACI-deficient mice, strongly supporting a need for B-cell–DC cooperation through TACI-BLyS during CTL first encounter with antigens in vivo.

scholarly journals Loss of the Pro-Apoptotic BH3-only Bcl-2 Family Member Bim Inhibits BCR Stimulation–induced Apoptosis and Deletion of Autoreactive B Cells

2003 ◽  
Vol 198 (7) ◽  
pp. 1119-1126 ◽  
Author(s):  
Anselm Enders ◽  
Philippe Bouillet ◽  
Hamsa Puthalakath ◽  
Yuekang Xu ◽  
David M. Tarlinton ◽  
...  
Keyword(s):  
B Cells ◽  
B Cell ◽  
Family Member ◽  
B Lymphocyte ◽  
Survival Function ◽  
Autoreactive B Cells ◽  
Induced Apoptosis ◽  
Self Antigen

During development, the stochastic process assembling the genes encoding antigen receptors invariably generates B and T lymphocytes that can recognize self-antigens. Several mechanisms have evolved to prevent the activation of these cells and the concomitant development of autoimmune disease. One such mechanism is the induction of apoptosis in developing or mature B cells by engagement of the B cell antigen receptor (BCR) in the absence of T cell help. Here we report that B lymphocytes lacking the pro-apoptotic Bcl-2 family member Bim are refractory to apoptosis induced by BCR ligation in vitro. The loss of Bim also inhibited deletion of autoreactive B cells in vivo in two transgenic systems of B cell tolerance. Bim loss prevented deletion of autoreactive B cells induced by soluble self-antigen and promoted accumulation of self-reactive B cells developing in the presence of membrane-bound self-antigen, although their numbers were considerably lower compared with antigen-free mice. Mechanistically, we determined that BCR ligation promoted interaction of Bim with Bcl-2, inhibiting its survival function. These findings demonstrate that Bim is a critical player in BCR-mediated apoptosis and in B lymphocyte deletion.

scholarly journals Phosphorylation of E47 as a potential determinant of B-cell-specific activity.

1996 ◽  
Vol 16 (12) ◽  
pp. 6900-6908 ◽  
Author(s):  
S R Sloan ◽  
C P Shen ◽  
R McCarrick-Walmsley ◽  
T Kadesch
Keyword(s):  
B Cells ◽  
Dna Binding ◽  
B Cell ◽  
B Lymphocyte ◽  
Specific Activity ◽  
Cell Types ◽  
Basic Helix Loop Helix ◽  
Helix Loop Helix ◽  
Potential Determinant

The E2A gene encodes two basic helix-loop-helix proteins designated E12 and E47. Although these proteins are widely expressed, they are required only for the B-lymphocyte lineage where DNA binding is mediated distinctively by E47 homodimers. By studying the properties of deltaE47, an N-terminal truncation of E47, we provide evidence that phosphorylation may contribute to B-cell-specific DNA binding by E47. Two serines N terminal to the deltaE47 basic helix-loop-helix domain were found to be phosphorylated in a variety of cell types but were hypophosphorylated in B cells. Phosphorylating these serines in vitro inhibited DNA binding by deltaE47 homodimers but not by deltaE47-containing heterodimers, such as deltaE47:MyoD. These results argue that hypophosphorylation may be a prerequisite for activity of E47 homodimers in B cells, suggesting the use of an inductive (nonstochastic) step in early B-cell development.

scholarly journals The ubiquitous octamer-binding protein(s) is sufficient for transcription of immunoglobulin genes.

1990 ◽  
Vol 10 (3) ◽  
pp. 982-990 ◽  
Author(s):  
D G Johnson ◽  
L Carayannopoulos ◽  
J D Capra ◽  
P W Tucker ◽  
J H Hanke
Keyword(s):  
B Cell ◽  
Protein S ◽  
Cell Types ◽  
In Vitro Transcription ◽  
Immunoglobulin Gene ◽  
Immunoglobulin Genes ◽  
Specific Expression ◽  
Specific Regulation

All immunoglobulin genes contain a conserved octanucleotide promoter element, ATGCAAAT, which has been shown to be required for their normal B-cell-specific transcription. Proteins that bind this octamer have been purified, and cDNAs encoding octamer-binding proteins have been cloned. Some of these proteins (referred to as OTF-2) are lymphoid specific, whereas at least one other, and possibly more (referred to as OTF-1), is found ubiquitously in all cell types. The exact role of these different proteins in directing the tissue-specific expression of immunoglobulin genes is unclear. We have identified two human pre-B-cell lines that contain extremely low levels of OTF-2 yet still express high levels of steady-state immunoglobulin heavy-chain mRNA in vivo and efficiently transcribe an immunoglobulin gene in vitro. Addition of a highly enriched preparation of OTF-1 made from one of these pre-B cells or from HeLa cells specifically stimulated in vitro transcription of an immunoglobulin gene. Furthermore, OFT-1 appeared to have approximately the same transactivation ability as OTF-2 when normalized for binding activity. These results suggest that OTF-1, without OTF-2, is sufficient for transcription of immunoglobulin genes and that OTF-2 alone is not responsible for the B-cell-specific regulation of immunoglobulin gene expression.

scholarly journals Gene Expression Analysis Uncovers Similarity and Differences Among Burkitt Lymphoma Subtypes

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 2494-2494
Author(s):  
Pier Paolo Piccaluga ◽  
Giulia De Falco ◽  
Manjunat Kustagi ◽  
Anna Gazzola ◽  
Annalisa Astolfi ◽  
...  
Keyword(s):  
Gene Expression ◽  
Cell Cycle ◽  
B Cell ◽  
Burkitt Lymphoma ◽  
Who Classification ◽  
Cell Cycle Control ◽  
B Cell Lymphomas ◽  
Over Expression

Abstract Abstract 2494 Background. Burkitt lymphoma (BL) is currently listed in the WHO classification of lymphoid tumors as a single genetic and morphological entity with variation in clinical presentation. In particular, three clinical subsets of BL are recognized: endemic (eBL), sporadic (sBL) and immunodeficiency associated (ID-BL). Each affects different populations and can present with different features. So far, possible differences in their gene expression profiles (GEP) have not been investigated. In this study we aimed to 1) assess whether BL subtypes present with differences in their GEP; 2) investigate the relationship of the different BL subtypes with the non-neoplastic cellular counterparts; 3) Identify genes and programs specifically deregulated in BLs and possibly contributing to the malignant phenotype. Methods. We studied by GEP 128 cases of B-cell derived malignancies and 20 samples of normal B-cell subpopulations GEP analysis. In particular, we included 40 BLs (13 eBLs, 21 sBLs 6 HIV-BLs), 40 follicular lymphomas, 10 chronic lymphocytic leukemias, 10 GCB-type diffuse large B-cell lymphomas, 10 ABC-type DLBCL, 5 primary mediastinal B-cell lymphomas, 13 HIV-related DLBCL, as well as 10 germinal center (GC), 5 naïve and 5 memory cells samples. GEP results were confirmed by dividing BL cases into training and test subgroups. In addition, as further validation, we performed immunohistochemistry (IHC) on tissue microarrays containing 85 BL cases as well as functional assays in vitro and in vivo, by focusing on the role of RBL2, a tumor suppressor gene involved in cell cycle control and mutated in eBL. Specifically, we used cell transfection and shRNAs (for mimicking MYC over-expression and RBL2 silencing), soft agar and invasion capability assays, and xenografted mouse models. Results. First, we found that BLs constitute a unique molecular entity, with a relatively homogeneous GEP, distinct from other B-cell malignancies. Indeed, by unsupervised analysis all BLs clearly clustered apart of other lymphomas. However, by supervised analysis, we found that BL subtypes presented slight differences in their GEPs. Particularly, eBLs and ID-BLs appeared to be almost identical, diverging from sBLs. Specifically, they varied for genes involved in cell cycle control, BCR-signaling, and TNF/NFKB-pathways. Of note, eBLs and ID-BLs on one hand, and sBLs on the other (roughly corresponding to EBV+ vs. EBV− cases) also differed for genes target of mi-R127a, which is altered in EBV+ cases as a direct consequence of viral integration. To further investigate cell cycle regulation in BLs, we inferred a network of RBL2-depending genes by reverse engineering, by uncovering possible RBL2 transcriptional targets. Interestingly, we found that eBL and sBL diverged for genes belonging to such network. Notably, we provided evidences that RBL2 can cooperate with MYC in inducing a neoplastic phenotype in vitro and in vivo. In particular, lymphoblastoid cells engineered to carry both MYC over-expression and RBL2 silencing presented with increased colony formation and matrix invasion capabilities, and higher efficiency in inducing tumor formation in nude mice if compared to single transfectants (MYC+ or RBL2−). Moreover, as the present WHO classification does not definitely identify the counterpart of eBL, we compared BLs GEP to those of normal B-cells. We found that all BL subtypes were intimately related to GC cells (by showing an early stage GC differentiation arrest), differing from them for molecules specially involved in cell proliferation, immune response, and signal transduction. Finally, as further validation of GEP, we studied by IHC the expression of SPARC and CYR61, two molecules involved in human tumorigenesis. Indeed, they turned out to be consistently expressed by neoplastic elements in all instances, as indicated by GEP analysis. Conclusions. Our study provided substantial insights on the pathobiology of BLs, by offering novel evidences which may be relevant for its classification and possibly future treatment. Disclosures: No relevant conflicts of interest to declare.

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