Maryam Asadi; Razie Kiani; Vahid Razban; Seyed Nooreddin Faraji; Amirhossein Ahmadi; Jafar Fallahi; Amin Ramezani; Nasrollah Erfani
Abstract
Background: CD38 is highly expressed on multiple myeloma (MM) cells and has been successfully targeted by different target therapy methods. This molecule is a critical prognostic marker in both diffuse large B-cell lymphoma and chronic lymphocytic leukemia.Objective: We have designed and generated an ...
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Background: CD38 is highly expressed on multiple myeloma (MM) cells and has been successfully targeted by different target therapy methods. This molecule is a critical prognostic marker in both diffuse large B-cell lymphoma and chronic lymphocytic leukemia.Objective: We have designed and generated an anti-CD38 CAR-NK cell applying NK 92 cell line. The approach has potential application as an off-the-shelf strategy for treatment of CD38 positive malignancies.Methods: A second generation of anti-CD38 CAR-NK cell was designed and generated, and their efficacy against CD38-positive cell lines was assessed in vitro. The PE-Annexin V and 7-AAD methods were used to determine the percentage of apoptotic target cells. Flow cytometry was used to measure IFN-γ, Perforin, and Granzyme-B production following intracellular staining. Using in silico analyses, the binding capacity and interaction interface were evaluated.Results: Using Lentivirus, cells were transduced with anti-CD38 construct and were expanded. The expression of anti-CD38 CAR on the surface of NK 92 cells was approximately 25%. As we expected from in silico analysis, our designed CD38-chimeric antigen receptor was bound appropriately to the CD38 protein. NK 92 cells that transduced with the CD38 chimeric antigen receptor, generated significantly more IFN-γ, perforin, and granzyme than Mock cells, and successfully lysed Daudi and Jurkat malignant cells in a CD38-dependent manner.Conclusion: The in vitro findings indicated that the anti-CD38 CAR-NK cells have the potential to be used as an off-the-shelf therapeutic strategy against CD38-positive malignancies. It is recommended that the present engineered NK cells undergo additional preclinical investigations before they can be considered for subsequent clinical trial studies.
Ting Chen; Zhenghong Yu
Abstract
Background: Natural killer (NK) cells are classified as innate immune cells which can directly recognize and kill tumor cells without antigen sensitization. NK cell-based adoptive immunotherapy for blood malignancies has attracted more attention in recent years. Objective: To analyze different NK ...
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Background: Natural killer (NK) cells are classified as innate immune cells which can directly recognize and kill tumor cells without antigen sensitization. NK cell-based adoptive immunotherapy for blood malignancies has attracted more attention in recent years. Objective: To analyze different NK cell subsets in the peripheral blood and bone marrow (BM) of patients with multiple myeloma (MM). Methods: Using flow cytometry we analyzed: (i) the distribution of distinct NK cell subpopulations (i.e. CD16low CD56low, CD16pos CD56high, CD16neg CD56high, CD16high CD56low, CD16neg CD56low, CD16low CD56low CD38pos) in the BM from MM patients at distinct disease stages. (ii) the expression of NKG2D, DNAM-1 and NKp30, and (iii) the expression of CD107a in CD16low CD56low CD38pos and CD16low CD56low CD38neg NK cells subsets. Results: CD16low CD56low CD38pos was the dominant subset in BM from patients with MM at the CR stage with a decreased expression of NKp30. CD16low CD56low CD38pos subset showed a higher proportion of CD107a expression compared to CD16low CD56low CD38neg cells. In vitro experiments indicated that the CD16low CD56low CD38pos NK cell subset possesses more cytotoxicity than CD16low CD56low CD38neg NK cells. Conclusion: Our data suggest that CD16low CD56low CD38pos NK cells may reflect as an effector population with the potential therapeutic target in patients with MM. This group of cells may be useful for adoptive immunotherapy in MM in the future.
Ashraf Kakoo; Taban Rasheed; Mustafa Al-Attar
Abstract
Background: Treatment with Bortezomib (a proteasome inhibitor) and Daratumumab (DARA, a monoclonal anti CD38 antibody) are effective in patients with multiple myeloma (MM). However, these drugs impair cellular immunity, which may render the patients more prone to infection. Objective: To investigate ...
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Background: Treatment with Bortezomib (a proteasome inhibitor) and Daratumumab (DARA, a monoclonal anti CD38 antibody) are effective in patients with multiple myeloma (MM). However, these drugs impair cellular immunity, which may render the patients more prone to infection. Objective: To investigate the effect of Bortezomib-based regimens and Daratumumab monotherapy on the lymphocyte subpopulations in MM patients. Methods: Peripheral blood samples were collected from 32 patients, including 29 newly diagnosed who treated with bortezomib regimens and 3 patients with relapsed and refractory MM treated with Daratumumab as monotherapy. The immunophenotypic analysis was performed by flow cytometry at baseline and during the third cycle of Bortezomib regimen and fourth week of Daratumumab treatment. Results: In the third cycle of Bortezomib, there was a significant decrease in CD3+ T cells, CD+4 T cells, memory T cells, and natural killer cells (NK cells). However, CD8+ T cells increased dramatically, followed by a significant reduction in the CD4/CD8 ratio. On the other hand, Daratumumab led to an increase in the T cell population after four weeks of treatment, with a significant increase in CD3+ T cells as well as CD4+ T cells, while NK cells were dramatically depleted in all patients. Conclusion: Bortezomib had a negative influence on subsets of T cells, while Daratumumab positively affected T cells subsets. In both treatments, NK cells decreased significantly. These results suggested that DARA is more specific to target myeloma cells than Bortezomib. Also, DARA expanded T cells especially CD3+ T cells and CD4+ T cells.
Yadan Wang; Xiaofei Wu; Yu Hu
Abstract
Background: Multiple myeloma (MM) is a malignant plasma cell proliferative disorder with limited immunotherapy treatment because of T cell dysfunction. Objective: To investigate the immunomodulatory function of bone marrow mesenchymal stromal cells (MM-BMSCs) on CD8+ T cells. Methods: Proliferation and ...
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Background: Multiple myeloma (MM) is a malignant plasma cell proliferative disorder with limited immunotherapy treatment because of T cell dysfunction. Objective: To investigate the immunomodulatory function of bone marrow mesenchymal stromal cells (MM-BMSCs) on CD8+ T cells. Methods: Proliferation and cytotoxicity were detected by cell counting kit-8 assay. Cell cycle was detected by flow cytometry, and p16 expression was detected by PCR. The expression of fibroblast activation protein α (FAPα) was evaluated by immunohistochemistry. Results: Co-culture of CD8+ T cells with MM-BMSCs decreased the cell survival rate and increased the killing rate (p=0.03, p=0.001, respectively), the percentage of cells in G0/G1 phase and p16 expression (p<0.001). FAPα was mainly in the mesenchymal matrix of the MM microenvironment and elevated in MM derived bone marrow compared to healthy donors (p<0.001). The FAPα inhibitor PT-100, increased survival and the killing rate (p<0.001, p=0.043, respectively), and decreased the percentage of cells in G0/G1 phase and p16 expression (p=0.024, p=0.004, respectively). Conclusion: Therefore, MM-BMSCs inhibit the proliferation and cytotoxicity of CD8+ T cells, significantly block the cell cycle and increase p16 expression in co-cultured CD8+ T cells in a cell-cell contact-dependent manner.
Shohreh Fakhari; Hamed Bashiri; Bayazid Ghaderi; Kaveh Tari; Ali Jalili
Abstract
Background: CD93 has originally been known as a C1q receptor, and many studies have demonstrated that CD93 is expressed on hematopoietic stem cells, B cell progenitors, myeloid and monocytic cells. Moreover, CD93 is shown to be expressed on long-lived plasma cells, and CD93 deficient-mice display an ...
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Background: CD93 has originally been known as a C1q receptor, and many studies have demonstrated that CD93 is expressed on hematopoietic stem cells, B cell progenitors, myeloid and monocytic cells. Moreover, CD93 is shown to be expressed on long-lived plasma cells, and CD93 deficient-mice display an impairment in plasma cell development. Objective: To investigate the expression of CD93 on multiple myeloma (MM) cells. Methods: Human MM and B cell lines were cultured, and the expression of CD93 was examined on these cells by quantitative Reverse Transcription Polymerase Chain Reaction (qRT-PCR) and Fluorescence Activated Cell Sorting (FACS). In addition, CD19+ primary B cells and CD19-/CD138+ primary MM cells were isolated by MACS columns, and CD93 expression was further analyzed on these cells. Results: qRT-PCR data showed that CD93 expression at mRNA level was much higher in MM cell lines compared with B cell lines. In addition, MM cell lines expressed a higher amount of surface CD93 at protein level compared with B cell lines. More importantly, CD93 expression was significantly higher in CD19-/CD138+ primary MM cells than in CD19+ primary B cells isolated from the bone marrow of patients with MM. Conclusion: We demonstrated that CD93 is expressed on myeloma cells and, that CD93 could play a key role in the pathogenesis of MM. Further studies are necessary to explore this possible role.