N-Hydroxysulfosuccinimide Esters versus Thiomers: A Comparative Study Regarding Mucoadhesiveness.

The objective of the study was to compare poly(acrylic acid)- N-hydroxysulfosuccinimide reactive esters (PAA-Sulfo-NHS) and poly(acrylic acid)-cysteine conjugates (PAA-Cys) regarding their mucoadhesiveness. Polymer conjugates were synthesized in a water free environment and characterized by UV-vis spectroscopy and FTIR. Water uptake studies were performed, and the polymers were further examined for their mucoadhesive properties and cohesiveness using the rotating cylinder method. Tensile force measurements were conducted to define the strength of adhesion to porcine intestinal mucosa. Additionally, polymer-mucus mixtures were assessed for rheological synergism by measuring the increase in dynamic viscosity. Both modifications led to a prolonged adhesion time compared to unmodified PAA. Fast dissolution of PAA-Sulfo-NHS derivatives was monitored, whereas PAA-Cys tended to extensively swell while exhibiting high cohesive properties. Measurements of tensile force revealed up to 2.7-fold (PAA-Sulfo-NHS) and 2.3-fold (PAA-Cys) enhancement of the maximum detachment force and 7.6-fold (PAA-Sulfo-NHS) and 3.6-fold (PAA-Cys) increase in the total work of adhesion. Formation of a gel network between polymer and mucus was confirmed by a 10.8-fold (PAA-Sulfo-NHS) and 20.8-fold (PAA-Cys) increase in viscosity. Both types of polymers show high mucoadhesive properties due to the formation of covalent bonds with the mucus. As thiolated polymers are capable of forming stabilizing disulfide bonds within their polymeric network, they are advantageous over PAA-Sulfo-NHS.

A Lock-and-Kill Anticancer Photoactivated Chemotherapy Agent†.

Photosubstitutionally active ruthenium complexes show high potential as prodrugs for the photoactivated chemotherapy (PACT) treatment of tumors. One of the problems in PACT is that the localization of the ruthenium compound is hard to trace. Here, a ruthenium PACT prodrug, [Ru(3)(biq)(STF-31)](PF6 )2 (where 3 = 3-(([2,2':6',2″-ter- pyridin]-4'-yloxy)propyl-4-(pyren-1-yl)butanoate) and biq = 2,2'-biquinoline), has been prepared, in which a pyrene tracker is attached via an ester bond. The proximity between the fluorophore and the ruthenium center leads to fluorescence quenching. Upon intracellular hydrolysis of the ester linkage, however, the fluorescence of the pyrene moiety is recovered, thus demonstrating prodrug cellular uptake. Further light irradiation of this molecule liberates by photosubstitution STF-31, a known cytotoxic nicotinamide phosphoribosyltransferase (NAMPT) inhibitor, as well as singlet oxygen via excitation of the free pyrene chromophore. The dark and light cytotoxicity of the prodrug, embedded in liposomes, as well as the appearance of blue emission upon uptake, were evaluated in A375 human skin melanoma cells. The cytotoxicity of the liposome-embedded prodrug was indeed increased by light irradiation. This work realizes an in vitro proof-of-concept of the lock-and-kill principle, which may ultimately be used to design strategies aimed at knowing where and when light irradiation should be realized in vivo.