Figure 2
Figure 2. Design, characterization, and optimization of RIT-INPs. (A) Design of G3139-loaded RIT-INPs for CLL B cell–specific targeting to overcome immunostimulatory effects. (B) Atomic Force Microscopy images of NPs and RIT-INPs. Shown are G3139 encapsulated in NPs (1) and G3139 encapsulated in RIT-INPs (2). Particle suspensions were dried on a mica substrate. All measurements were recorded in both height and amplitude modes. Height images are presented here. (C) Confocal micrographs of uptake of cy3-G3139 (1μM) loaded in RIT-INPs under various molar ratios of RIT/total lipids (approximately 1/500-1/12 000) in Raji cells after 4 hours of incubation. DIC indicates differential interference contrast (bright-field) images. Scale bar indicates 10 μm (D) Flow cytometry analysis of binding/uptake of RIT-INP carrying FAM-G3139 in Raji cells compared with free FAM-G3139 and nontargeted NP carrying FAM-G3139. Raji cells were treated with FAM-G3139–loaded RIT-INPs with various molar ratios of RIT/total lipids. Data are presented according to mean fluorescence intensity (MFI) changes (n = 3, mean ± SD). (E) Binding of free FAM–labeled G3139 and various NP-formulated FAM-ODN to Raji (CD20+) and Jurkat (CD20−) cells. (F) Binding of free FAM-G3139 and various NP-formulated FAM-G3139 to CLL B cells. The CLL B cells were incubated with free FAM-G3139 or FAM-G3139 in HER-INP or RIT-INP with the concentration of 1μM at 37°C for 1 hour and washed twice with cold PBS. (G) Inhibition of RIT-INP binding to Raji cells by excess RIT or alemtuzumab (anti-CD52). Untreated cells (bold line), cells treated with anti-CD20 ILP (thin solid line), and cells blocked with rituximab or alemtuzumab (broken line) were assessed by flow cytometry.

Design, characterization, and optimization of RIT-INPs. (A) Design of G3139-loaded RIT-INPs for CLL B cell–specific targeting to overcome immunostimulatory effects. (B) Atomic Force Microscopy images of NPs and RIT-INPs. Shown are G3139 encapsulated in NPs (1) and G3139 encapsulated in RIT-INPs (2). Particle suspensions were dried on a mica substrate. All measurements were recorded in both height and amplitude modes. Height images are presented here. (C) Confocal micrographs of uptake of cy3-G3139 (1μM) loaded in RIT-INPs under various molar ratios of RIT/total lipids (approximately 1/500-1/12 000) in Raji cells after 4 hours of incubation. DIC indicates differential interference contrast (bright-field) images. Scale bar indicates 10 μm (D) Flow cytometry analysis of binding/uptake of RIT-INP carrying FAM-G3139 in Raji cells compared with free FAM-G3139 and nontargeted NP carrying FAM-G3139. Raji cells were treated with FAM-G3139–loaded RIT-INPs with various molar ratios of RIT/total lipids. Data are presented according to mean fluorescence intensity (MFI) changes (n = 3, mean ± SD). (E) Binding of free FAM–labeled G3139 and various NP-formulated FAM-ODN to Raji (CD20+) and Jurkat (CD20) cells. (F) Binding of free FAM-G3139 and various NP-formulated FAM-G3139 to CLL B cells. The CLL B cells were incubated with free FAM-G3139 or FAM-G3139 in HER-INP or RIT-INP with the concentration of 1μM at 37°C for 1 hour and washed twice with cold PBS. (G) Inhibition of RIT-INP binding to Raji cells by excess RIT or alemtuzumab (anti-CD52). Untreated cells (bold line), cells treated with anti-CD20 ILP (thin solid line), and cells blocked with rituximab or alemtuzumab (broken line) were assessed by flow cytometry.

Close Modal
This Feature Is Available To Subscribers Only

or Create an Account

Close Modal
Close Modal