Of oxygen tension on phagocytosis, THP-1 cells were PMA-differentiated at low

Of 520-26-3 Oxygen tension on phagocytosis, THP-1 cells were PMA-differentiated at low or high oxygen levels for 24 h and switched to high or low oxygen, respectively, for 1 h immediately prior to adding the E. coli BioParticlesH. Consistent with the data shown in Fig. 5, THP-1 cells differentiated in 5 O2 for 25 h phagocytize significantly fewer BioParticlesH than cultures differentiated in 18 O2 for 25 h (Table 1). Differentiating THP-1 cells in 5 O2 for 24 h and then switching them to 18 O2 for 1 h significantly increased phagocytosis of the BioParticlesH relative to all other treatment groups, including continuous 25 h exposure to 18 O2 (Table 1). Conversely, culturing the differentiating THP-1 cells in 18 O2 for 24 h with a subsequent 1 h incubation in 5 O2 significantly decreased BioParticleH uptake relative to continuous 25 h exposure to 18 O2, resulting in a level of phagocytosis that was comparable to that observed in cells cultured in 5 O2 continuously for 25 h (Table 1). These data suggest that phagocytosis is dependent on the oxygen tension during the phagocytosis assay and not on the oxygen tension during the PMA-induced differentiation, and that phagocytosis is increased at the higher (hyperoxic) oxygen tension, which is consistent with evidence that phagocytosis is dependent on the availability of extraLED-209 biological activity cellular oxygen for its respiratory burst [27,28].Oxygen Tension Influences NF-kB Activation and Cytokine and Chemokine Release in Differentiated THP-1 CellsA key intracellular signaling molecule that links various external stimuli to transcription of target genes in macrophages is NF-kB. NF-kB is a redox-responsive transcriptional factor, and its activation is a key regulator of the cellular response to oxidative stress [29]. NF-kB is also activated by LPS, which induces theexpression of multiple genes encoding soluble mediators of inflammation, including cytokines, chemokines and growth factors [30,31]. Thus, we next evaluated the effects of oxygen tension on NF-kB activation using THP-1 XBlue cells, which are stably transfected with an NF-kB-SEAP (secreted embryonic alkaline phosphatase) reporter gene. SEAP expression was measured in differentiated THP-1 XBlue cells cultured in 18 versus 5 O2 in the absence (baseline) or presence of LPS for 24 h. In the absence of LPS, oxygen tension had no effect on baseline levels of NF-kB activation (Fig. 15857111 6A, 6B). NF-kB was significantly activated by LPS relative to baseline levels under either oxygen tension; however, this response was attenuated in cells cultured in 5 O2 relative to cell cultured in 18 O2 (Fig. 6A, 6B). A key question raised by these results is whether differential effects of oxygen tension on NF-kB activation translate into altered expression of cytokines 24786787 and chemokines. To address this question, we used a multiplex cytokine array (specifically, the Milliplex Human Panel) to quantify 14 different cytokines and chemokines at the protein level in differentiated THP-1 cells cultured under different oxygen tensions in the absence or presence of LPS for 24 h. While no clear oxygen tension-related patterns emerged in the expression of individual cytokines or chemokines detected by the multiplex array either in the absence or presence of LPS (Fig. 6C and D), culturing differentiated THP-1 cells in 5 O2 caused a general decrease in baseline cytokine/chemokine expression levels and a greater upward shift from baseline with LPS stimulation (Fig. 6D). A second key quest.Of oxygen tension on phagocytosis, THP-1 cells were PMA-differentiated at low or high oxygen levels for 24 h and switched to high or low oxygen, respectively, for 1 h immediately prior to adding the E. coli BioParticlesH. Consistent with the data shown in Fig. 5, THP-1 cells differentiated in 5 O2 for 25 h phagocytize significantly fewer BioParticlesH than cultures differentiated in 18 O2 for 25 h (Table 1). Differentiating THP-1 cells in 5 O2 for 24 h and then switching them to 18 O2 for 1 h significantly increased phagocytosis of the BioParticlesH relative to all other treatment groups, including continuous 25 h exposure to 18 O2 (Table 1). Conversely, culturing the differentiating THP-1 cells in 18 O2 for 24 h with a subsequent 1 h incubation in 5 O2 significantly decreased BioParticleH uptake relative to continuous 25 h exposure to 18 O2, resulting in a level of phagocytosis that was comparable to that observed in cells cultured in 5 O2 continuously for 25 h (Table 1). These data suggest that phagocytosis is dependent on the oxygen tension during the phagocytosis assay and not on the oxygen tension during the PMA-induced differentiation, and that phagocytosis is increased at the higher (hyperoxic) oxygen tension, which is consistent with evidence that phagocytosis is dependent on the availability of extracellular oxygen for its respiratory burst [27,28].Oxygen Tension Influences NF-kB Activation and Cytokine and Chemokine Release in Differentiated THP-1 CellsA key intracellular signaling molecule that links various external stimuli to transcription of target genes in macrophages is NF-kB. NF-kB is a redox-responsive transcriptional factor, and its activation is a key regulator of the cellular response to oxidative stress [29]. NF-kB is also activated by LPS, which induces theexpression of multiple genes encoding soluble mediators of inflammation, including cytokines, chemokines and growth factors [30,31]. Thus, we next evaluated the effects of oxygen tension on NF-kB activation using THP-1 XBlue cells, which are stably transfected with an NF-kB-SEAP (secreted embryonic alkaline phosphatase) reporter gene. SEAP expression was measured in differentiated THP-1 XBlue cells cultured in 18 versus 5 O2 in the absence (baseline) or presence of LPS for 24 h. In the absence of LPS, oxygen tension had no effect on baseline levels of NF-kB activation (Fig. 15857111 6A, 6B). NF-kB was significantly activated by LPS relative to baseline levels under either oxygen tension; however, this response was attenuated in cells cultured in 5 O2 relative to cell cultured in 18 O2 (Fig. 6A, 6B). A key question raised by these results is whether differential effects of oxygen tension on NF-kB activation translate into altered expression of cytokines 24786787 and chemokines. To address this question, we used a multiplex cytokine array (specifically, the Milliplex Human Panel) to quantify 14 different cytokines and chemokines at the protein level in differentiated THP-1 cells cultured under different oxygen tensions in the absence or presence of LPS for 24 h. While no clear oxygen tension-related patterns emerged in the expression of individual cytokines or chemokines detected by the multiplex array either in the absence or presence of LPS (Fig. 6C and D), culturing differentiated THP-1 cells in 5 O2 caused a general decrease in baseline cytokine/chemokine expression levels and a greater upward shift from baseline with LPS stimulation (Fig. 6D). A second key quest.