Ali Ariafar; Erfan Kohansal; Amirhassan Mousania; Zahra Faghih
Abstract
Background: Natural killer (NK) cells are crucial innate components in anti-tumor immunity. However, the clinical impacts and their phenotypes in bladder cancer (BC) remain unclear.Objective: To assess the clinical significance of NK cell subsets in tumor-draining lymph nodes of patients with BC.Methods: ...
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Background: Natural killer (NK) cells are crucial innate components in anti-tumor immunity. However, the clinical impacts and their phenotypes in bladder cancer (BC) remain unclear.Objective: To assess the clinical significance of NK cell subsets in tumor-draining lymph nodes of patients with BC.Methods: In a cross-sectional study, pelvic lymph nodes were obtained from 49 untreated patients with BC. Mononuclear cells were isolated and immunophenotyped using CD3, CD56, CD16, CD27, and CD11b markers. NK cells were then classified based on their expression patterns of CD56/CD16 (conventional) and CD27/CD11b (new).Results: On average, NK cells constituted 2.99±1.44% of the total lymphocytes in the draining lymph node of patients with BC. The CD56dim and regulatory NK subsets (CD27+CD11b+/-) were the predominant old and new NK, respectively. The NK cells significantly increased in patients with at least one involved node (LN+) compared with those with free nodes (LN-; p=0.022). Conversely, CD56dimCD16- subset significantly decreased in higher stages (p=0.032) and in tumors with muscle invasion (p=0.038). Significant variations were also observed in different T-stages (p<0.05). Regarding new classification, the frequency of CD11b+ regulatory NK cells was significantly lower in node-positive patients (p=0.025).Conclusion: These findings emphasize the dynamic nature of NK cell subsets in bladder cancer and their potential relevance in disease progression and management, suggesting potential implications for therapeutic strategies targeting these specific subsets.
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.