Figure 1.
Binding of lipid-substituted polymers to siRNA.
Percentage of siRNA bound as a function of polymer:siRNA weight ratio in EMSA analysis. Polymers obtained from lipid:polymer feed ratios of 0.012, 0.066, 0.1 and 0.2 are shown in A, B, C and D, respectively.
Figure 2.
Correlations between polymer binding affinity IC50 and extent of lipid substitutions.
IC50 is shown as a function of number of lipids substituted (A) or number of lipid methylenes substituted (B). As lipid substitution is increased, the binding affinity (given by IC50) decreased. Statistical analysis was determined by Student’s t-test (p<0.05).
Figure 3.
Morphology of polymer/siRNA complexes imaged by TEM.
(A) PEI25 complexes, (B) PEI2 complexes, (C) PEI2-CA20 complexes, (D) PEI2-PA20 complexes, (E) PEI2-OA20 complexes, (F) PEI2-LA20 complexes. All complexes were prepared at an 8∶1 polymer:siRNA weight ratio. Scale bar in the high magnification images indicates 200 nm.
Figure 4.
Cytotoxicity of complexes on THP-1, KG-1 and HL-60 cells (top, middle and bottom panel, respectively).
Cell viability values are expressed relative to no-treatment control. Viability was measured 24 h after incubation of complexes with cell lines. PEI25 displays a linear relationship with increased cytotoxicity in line with increasing concentration. Effect of lipid-substituted polymers on cell viability was similar to that of unmodified PEI2. * : p<0.05, ** : p<0.01, as compared to PEI2 and o : p<0.05, oo : p<0.01 as compared to PEI25, using one-way ANOVA tests with Dunnett post test.
Figure 5.
siRNA delivery to THP-1 cells.
(A) varying complex dose (0.5 and 1.0 µg/mL siRNA). (B) varying polymer:siRNA weight ratio. (C) varying initial cell number (0.35 µg/mL siRNA). The results are summarized as (i) percentage of siRNA-associated cells in cell population, and (ii) mean fluorescence of cells due to complex association. (D) confocal microscope images of individual cells (0.5 µg/mL siRNA). Hoechst stained nucleus in blue and FAM-labelled siRNA-polymer complexes in green. Polymer:siRNA ratios were 2∶1, 4∶1 and 8∶1 from top to bottom panel.
Figure 6.
Effect of lipid substitution on siRNA delivery to THP-1 cells.
Polymer:siRNA ratio was 8∶1 and siRNA concentration was 25 nM (0.35 µg/mL). (A) siRNA delivery percentage (percentage of cells with complexes, i) and mean fluorescence (mean fluorescence of cells due to fluorescence labelled siRNA-polymer complexes, ii). (B) Correlations between siRNA delivery percentage and lipid substitution. (C) Correlations between mean fluorescence and lipid substitution. Very strong positive correlations (r2 values) are seen with PA and LA regardless how the lipid substitution is expressed (no of lipid per PEI2, no of lipid methyl carbons per PEI2 or percentage of PEI2 amines substituted) and with both siRNA delivery and mean fluorescence. Strong correlation (r2 value) is seen with CA when considering mean fluorescence. * indicates where the slope is statistically significant.
Figure 7.
Effect of temperature (4 and 37°C) and trypan blue treatment on siRNA delivery to THP-1 cells.
PEI2-LA (2.1 LA/PEI2) was used in this study with polymer:siRNA ratio of 8∶1 and final siRNA concentration of 25 nM (0.35 µg/mL). (A) siRNA delivery based on mean FAM fluorescence (i) and FAM-siRNA positive cell population (ii) with untreated cells (B) siRNA delivery based on mean FAM fluorescence (i) and FAM-siRNA positive cell population (ii) with cells treated with trypan blue.
Figure 8.
siRNA delivery to THP-1, KG-1 and HL-60 cells at various polymer:siRNA weight ratios.
(A) THP-1 (B) KG-1, and (C) HL-60 cells. Fluorescence intensity refers to the mean fluorescence of the cell population. Non-labeled control siRNAs did not show any significant fluorescence (autofluorescence) and were removed for figure clarity. siRNA concentration was 25 nM (0.35 µg/mL) and polymer:siRNA weight ratios were 2∶1 (top panel), 4∶1 (middle panel) and 8∶1 (bottom panel).
Figure 9.
siRNA delivery to THP-1, KG-1 and HL-60 cells at various time points.
(A) THP-1 (B) KG-1, and (C) HL-60 cells. Non-labeled control siRNAs did not show any significant fluorescence (autofluorescence) and were removed for figure clarity. siRNA concentration was 25 nM (35 µg/mL) and polymer:siRNA weight ratio was 8∶1. The results are summarized as percentage of siRNA positive cells (top panel), mean fluorescence per cell (middle panel).
Figure 10.
Effect of serum on siRNA/polymer complex delivery to THP-1, KG-1 and HL-60 cells.
(A) THP-1 (B) KG-1, and (C) HL-60 cells. siRNA concentration was 25 nM (35 µg/mL) and polymer:siRNA weight ratio was 8∶1. The results are summarized as percentage of siRNA positive cells (top panel) and mean fluorescence per cell (middle panel).
Figure 11.
siRNA delivery to THP-1, KG-1 and HL-60 cells by commercial reagents.
siRNA delivery after 24 hours was expressed as the siRNA-positive cell population (A) or mean fluorescence of cell population (B). (C) Relative ranking of various reagents based on mean fluorescence (top panel) or percentage of siRNA-positive cell population (bottom panel). Results from all three cell types were pooled for the ranking.
Figure 12.
Silencing in GFP-expressing THP-1 cells. (A)
The cell counts as measured by flow cytometry (expressed as a percentage of non-treated cells). (B) Silencing was assessed after 3 days of siRNA treatment (50 nM) and expressed as decrease in mean GFP fluorescence or decrease in GFP-positive cells. The polymer:siRNA ratios were 2∶1, 4∶1 and 8∶1. (C) Dose-response curves for GFP silencing between 25 and 200 nM siRNA treatment. The CA and LA substituted polymers were used at the polymer:siRNA ratios of 4∶1 and 8∶1, and silencing was assessed after 3 days of treatment. (D) Silencing by CA- and LA-substituted polymers and three commercial reagents (Lipofectamine™ 2000, Metafectamine and Fugene HD). The extent of silencing was summarized over a course of 9 days and expressed as decrease in mean GFP fluorescence (top panel) or decrease in GFP-positive cells (middle panel). The lipid substitutions of the polymers used were 2.1 LA/PEI (PEI2-LA) and 6.9 CA/PEI (PEI2-CA).
Figure 13.
GFP mRNA and protein suppression in THP-1 cells.
(A) Decrease in GFP mRNA levels, and (B) decrease in GFP protein levels (i: based on mean GFP fluorescence and ii: based on GFP-positive cell population). The GFP-positive THP-1 cells were treated with 50 nM GFP siRNA (or control siRNA) delivered with PEI25, PEI2-LA (2.1 LA/PEI) and PEI2-CA (6.9 CA/PEI; 4∶1 = polymer:siRNA ratio) for 1 to 3 days, after which the cells were harvested for PCR (A) and flow cytometry (B).
Figure 14.
CXCR4 Silencing in THP-1 cells.
Changes in CXCR4 levels based on (A) mean CXCR4 fluorescence intensity and (B) CXCR4-positive cell population. Silencing was assessed after 2 and 3 days of CXCR4-specific siRNA or control siRNA treatment (50 nM with polymer:siRNA ratio of 4∶1). The polymers used were PEI25, PEI2-LA (2.1 LA/PEI) and PEI2-CA (6.9 CA/PEI).