Efficacy of self-assembled hydrogels composed of positively or negatively charged peptides as scaffolds for cell culture

KASEA16(+) and KASEA16(−) peptides, the net charges of which are positive and negative, respectively, under a neutral condition could undergo self-assembly into nanofibers and form transparent hydrogels without peptide aggregation upon rapid pH neutralization. The numbers of NIH3T3 cells attached to the KASEA16(+) hydrogel and KASEA16(−) hydrogel were similar, and cells proliferated with time on both hydrogels. Cells on the KASEA16(+) hydrogel had spindle-like morphology, while cells on the KASEA16(−) hydrogel formed clusters without extending cytoplasmic processes. Comparison of differently charged peptides under a neutral condition suggested that the charges of the scaffolds should be taken into consideration for the best design and selection of scaffolds for cell culture. Since the KASEA16(+) peptide could form a stable hydrogel under a neutral condition and the hydrogel served as a scaffold for cell proliferation, the KASEA16(+) hydrogel will be a useful scaffold for cell culture.