Sodium Selenite Modulates Global Activation of Proinflammatory M1-like Macrophages, Necroinflammation and M1-like/M2-like Dichotomy at the Onset of Human Type 1 Diabetes.

AIM: The study aims to show that sodium selenite (Ss) would have an immunomodulatory effect on the functional activity of proinflammatory macrophages (Mφs) during their extended extracellular activation at the onset of human type 1 diabetes (T1D). BACKGROUND: Exacerbated activation of proinflammatory "M1" macrophages (Mφs) can promote chronic local pancreatic islet inflammation and T1D development. OBJECTIVE: We investigated the ex vivo effects of Ss on the immune modulation of global/extended activation of human proinflammatory M1-like Mφs. METHODS: Experiments were carried out on primary monocytes-derived Mφs (MDMs). RESULTS: The levels of IL-1ß, TNF-α, H2O2 and intracellular free calcium ions (ifCa2+), and the ratios of IL-1ß-to-IL-10 and TNF-α-to-IL-10 were markedly increased in T1D Mφs than in healthy control Mφs. Conversely, both IL-10 production and arginase 1 (ARG1) activity were downregulated in T1D Mφs. Additionally, Ss treatment induced a marked downregulation of respiratory burst, ifCa2+ levels, M1-like Mφ-associated inducible nitric oxide (NO) synthase (iNOS) activity, cell necrosis and related necroinflammation biomarkers, including IL-1ß and TNF-α, CD14 expression, and the ratios of iNOS-to-ARG1, IL-1ß-to-IL-10, and TNF-α-to-IL-10. Moreover, Ss upregulated anti-inflammatory "M2-like" Mφ activity as demonstrated by ARG1 activity and IL-10 production, as well as phagocytosis capacity. CONCLUSION: Ss exerts a potent immunomodulatory role on functional activities of human proinflammatory T1D M1-like Mφs subjected to extended activation, as well as on the M1-like/M2-like dichotomy. Additionally, the current study provides a novel therapeutic approach using Ss to promote the anti-inflammatory function of Mφs at the onset of T1D.

Aspirin enhances regulatory functional activities of monocytes and downregulates CD16 and CD40 expression in myocardial infarction autoinflammatory disease.

BACKGROUND: Exacerbation of CD16 as molecule marker of both intermediate and non-classical monocytes (MOs) has been shown to be involved in the pathogenesis of myocardial infarction (MI). In this study, we have tried to evaluate the aspirin (acetylsalicylic acid, ASA) treatment effect on the CD16-expressed MOs and activation-associated CD40 in MI. METHODS: MOs were isolated from the whole blood of healthy controls and patients with MI. The cells were stimulated and treated with different doses of ASA. RESULTS: ASA significantly decreased nitric oxide (NO) production and inducible NO synthase (iNOS) activity, but significantly increased arginase activity. Levels of interleukin (IL)-1ß, IL-6 and interferon-γ (IFN-γ) were downregulated, whereas those of IL-10 were upregulated. Additionally, ASA induced a markedly increase in both phagocytosis and intracellular pathogen killing activities. Moreover, ASA treatment induced significantly upregulation of intracellular levels of glucose (iGlu), and free calcium ions (ifCa2+), and, covertly, significantly downregulation of total cellular cholesterol content (tccCHOL). Furthermore, the expression levels of CD16 and CD40 were significantly downregulated in ASA-treated MOs. CONCLUSIONS: We show for the first time that ASA immunomodulates the functional activities of MOs during MI and promotes their switching toward a classical phenotype, exhibiting low CD16 expression levels and thereby anti-inflammatory properties.

Thymoquinone Potently Enhances the Activities of Classically Activated Macrophages Pulsed with Necrotic Jurkat Cell Lysates and the Production of Antitumor Th1-/M1-Related Cytokines.

Antitumor activity of classically activated macrophage (Mϕ) may be impaired within the tumors, spleen, and bone marrow. Thus, it is possible to boost its antitumor activity after its pulsing with necrotic tumor cell lysates combined with an adjuvant. We set out to determine the potential adjuvant effects of thymoquinone (TQ; 2-isopropyl-5-methyl-1,4-benzoquinone, C10H12O2) on both functional activities of classically activated Mϕs, pulsed or not with necrotic Jurkat T cell line lysates (NecrJCL), and the balance of antitumor cytokines (ATCs) versus immunosuppressive cytokines (ISCs) during crosstalk with autologous human CD4+ T cells. We found that TQ treatment resulted in a significant upregulation of phagocytic activity, respiratory burst, the production of interleukin-2 (IL-2), IL-6, and IL-17 in NecrJCL-pulsed Mϕ co-culture system, and, conversely, in downregulation of the production of IL-6, IL-17, nitric oxide (NO), and arginase activity in nonpulsed TQ-treated Mϕs co-culture system. In addition, TQ has also shown low upregulation effect on the production of interferon-γ (IFN-γ), tumor necrosis factor-α (TNF-α), and IL-1ß, pathogen killing capacity and H2O2 in NecrJCL-pulsed Mϕs co-cultures. Moreover, TQ significantly downregulated arginase activity, and significantly upregulated inducible NO synthase (iNOS) activity-to-arginase activity ratio in NecrJCL-pulsed Mϕ co-cultures. Furthermore, TQ downregulated IL-10-to-IL-17 ratio and total cellular cholesterol content (ttcCHOL), but upregulated the ratios of IL-1ß-to-IL-4, IL-1ß-to-IL-10, IFN-γ-to-IL-4, IFN-γ-to-IL-10, TNF-α-to-IL-4, TNF-α-to-IL-10, and combined proinflammatory cytokines (PICs)-to-anti-inflammatory cytokines (AICs) in NecrJCL-pulsed Mϕs co-culture system, whereas significant differences were highlighted only for IL-10-to-IL-17, IFN-γ-to-IL-10, and PICs-to-AICs ratios. Our outcomes demonstrated that TQ can act as potent adjuvant for enhancing both the functional activities of NecrJCL-pulsed Mϕ and the production of ATCs during their interplay with CD4+ T cells.