pH/temperature sensitive chitosan-g-(PA-PEG) aqueous solutions as new thermogelling systems

As a new thermal gelling polymer aqueous solution, we are reporting a poly(ethylene glycol)-poly(alanine) grafted chitosan (CS-g-(PA-PEG)) system. The sol-gel transition temperature and the modulus of the in situ-formed thermal gel at 37 [degree]C changed 17 [rightward arrow] 27 [rightward arrow]32 [degree]C and 396 [rightward arrow] 241 [rightward arrow] 43 Pa, respectively, as the pH increased from 3.0 to 6.5 and to 9.0. The mechanism of such a pH/temperature sensitive behaviour of the CS-g-(PA-PEG) aqueous solution was investigated by studying changes in the conformation of chitosan, polyalanine and PEG of the CS-g-(PA-PEG). As the temperature increased, ammonium groups of the chitosan partially deprotonated to a neutral form, the [small alpha]-helical content of the polyalanine increased and molecular motion of the PEG decreased. Such changes cooperatively increase the hydrophobicity and viscosity of CS-g-(PA-PEG), resulting in the sol-gel transition of the polymer aqueous solution with increasing temperature. As the pH increased, ammonium groups of the chitosan deprotonated to a neutral form and the [small alpha]-helical content of polyalanine decreased, which induce a change in the nanoassembly of the polymer. CS-g-(PA-PEG) significantly increased the gel modulus of a previously reported PEG grafted chitosan (CS-g-PEG) thermal gel by incorporating the [small alpha]-helical polyalanine moieties between CS and PEG. The CS-g-(PA-PEG) could be a promising biomaterial as a new robust thermogel with pH and temperature sensitivity.