Figure 4
Figure 4. Association between HMGB1 release and NLC differentiation. (A) Association between cell viability and NLC differentiation. Cell viability of each sample was monitored every 2 or 3 days using a Cell Viability Analyzer (Beckman Coulter). The box represents the day on which NLCs were first identified. (B) Observation of NLCs by MTT staining. After 1 or 2 weeks of culture, the cells in suspension were removed. Cells were then cultured with fresh medium containing 0.5 mg/mL MTT for 2 hours. (C) HMGB1 passive release. CLL cells were cultured for 2 days on chambered slides. After fix/permeabilization, cells were costained with rabbit anti-COX IV (red) and mouse anti-HMGB1 (green) antibodies. Arrows indicate a typical phenomenon of HMGB1 passive release from the cells. (D-E) Time course of HMGB1 release determined by (D) ELISA and (E) western blotting in 2 representative cases of 6 independent cases examined. HMGB1 release into culture medium was monitored over 19 days. Conditioned medium was collected every 2 or 3 days and stored at −80°C. Ten or 40 µL of conditioned medium was used for ELISA assay or western blotting, respectively. Western blotting was probed with an anti-HMGB1 mouse antibody first and then reprobed with an anti-LDH rabbit antibody. (G) Determination of HMGB1 release by western blotting. Four CLL samples were cultured for 15 days, and conditioned medium was collected in every 5 days. Numbers of NLCs were quantified by MTT staining at the 15th day. The amounts of NLCs indicated as −, +, ++, +++, and ++++ were 0%, 10%, 25%, 50%, and >75% coverage of the well. (F,H) DNA concentration in the conditioned medium. Two hundred microliters of conditioned medium was used to determine DNA concentration. Boxes in A, D, E, and F indicate the time when NLCs were observed. Numbers in each chart are CLL sample IDs.

Association between HMGB1 release and NLC differentiation. (A) Association between cell viability and NLC differentiation. Cell viability of each sample was monitored every 2 or 3 days using a Cell Viability Analyzer (Beckman Coulter). The box represents the day on which NLCs were first identified. (B) Observation of NLCs by MTT staining. After 1 or 2 weeks of culture, the cells in suspension were removed. Cells were then cultured with fresh medium containing 0.5 mg/mL MTT for 2 hours. (C) HMGB1 passive release. CLL cells were cultured for 2 days on chambered slides. After fix/permeabilization, cells were costained with rabbit anti-COX IV (red) and mouse anti-HMGB1 (green) antibodies. Arrows indicate a typical phenomenon of HMGB1 passive release from the cells. (D-E) Time course of HMGB1 release determined by (D) ELISA and (E) western blotting in 2 representative cases of 6 independent cases examined. HMGB1 release into culture medium was monitored over 19 days. Conditioned medium was collected every 2 or 3 days and stored at −80°C. Ten or 40 µL of conditioned medium was used for ELISA assay or western blotting, respectively. Western blotting was probed with an anti-HMGB1 mouse antibody first and then reprobed with an anti-LDH rabbit antibody. (G) Determination of HMGB1 release by western blotting. Four CLL samples were cultured for 15 days, and conditioned medium was collected in every 5 days. Numbers of NLCs were quantified by MTT staining at the 15th day. The amounts of NLCs indicated as −, +, ++, +++, and ++++ were 0%, 10%, 25%, 50%, and >75% coverage of the well. (F,H) DNA concentration in the conditioned medium. Two hundred microliters of conditioned medium was used to determine DNA concentration. Boxes in A, D, E, and F indicate the time when NLCs were observed. Numbers in each chart are CLL sample IDs.

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