The micellar size maintained narrow unimodal distribution, indica

The micellar size maintained narrow unimodal distribution, indicating good physical performance of the assembled micelles. Figure 5C,D showed the TEM images of empty micelles, and DOX-loaded micelles were spherical in shape (pH 7.4). It is worthwhile to note that

the average sizes shown in TEM images were almost in accordance with the DLS results. The empty and DOX-loaded micelles possessed positive charges in pH 7.4 due to the pendant tertiary amine groups in the PDEA chains (Figure 6B). The highly charged character of the (PCL)2(PDEA-b-PPEGMA)2 micelles can prevent the aggregation of micelles, extend blood circulation times, increase Navitoclax price the interactions between micelles and cell membranes which can facilitate penetrating of cell membranes [44, 45]. Figure 5 Size distribution determined with DLS (A,B) and TEM (C,D) for empty micelles (A,C) and DOX-loaded micelles (B,D). Figure 6 D h (A) and zeta potential (B) results of empty micelles and DOX-loaded micelles at different

pH. The variations of the D hs and zeta potentials of the empty micelles and DOX-loaded micelles were investigated from the facile pH adjusting. As shown in Figure 6, when BMN 673 nmr decreasing pH from 10 to 2, the D hs and zeta potentials increased gradually followed by abrupt descend because the micelles underwent shrinking-swelling-dissociating conformational transition. The D hs of the micelles showed slightly increase owing to incorporation of DOX molecules in the core of micelles compared to the empty micelles. At higher pH above 8, both micelles were in a compact, collapsed form with the D hs remained almost constant because the PDEA segments were deprotonated. And the zeta potentials at higher pH (like pH 10) were negative with increasing OH− in the solution. As the pH values were ranging from 8 to 4, both micelles exhibited Selleckchem DAPT the gradually stretched conformation with significant increase of D hs and zeta potentials due to gradual protonation of DEA block and the increasing hydrophilicity of PDEA. At pH < 4, the D hs and zeta potentials of both micelle solutions showed sharp decrease, indicating

that the PDEA segments were fully protonated with imparting a hydrophilic characteristic and the extremely strong electrostatic repulsion between polymer chains, which might cause the decrease of the aggregation number of the polymers or even slight dissociation of the micelle structures [29]. In vitro drug release profiles and cell experiments The in vitro drug release profiles of DOX-loaded micelles were evaluated at 37°C under different pH (pH 7.4, pH 6.5, and pH 5.0) to explore the effects of pH-responsive behavior on controlled drug delivery, as shown in Figure 7. The release rates significantly accelerated as the pH decreased from 7.4 to 5.0, which demonstrated that the pH of medium had a strong effect on the DOX release from the (PCL)2(PDEA-b-PPEGMA)2 micelles. At pH 7.

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