BACKGROUND: Chaperones play an important role in inducing anti-cancer immunity. To explore the probability of using chaperone-peptide-rich complexes extracted from colo-carcinoma cells as anti-cancer vaccine, we extracted and prepared chaperone-peptide-rich complexes from CT26 cells, which were subsequently investigated on anti-cancer efficacy. METHODS: The crude extracts of the CT26 cells treated with heat and Trichosanthin were precipitated with salt and dialyzed to remove proteins below 50kDa and above 300kDa in molecular weight; the proteins with the molecular weights in 70kDa, 90kDa, 95kDa, 110kDa and 170kDa were collected through gel filtration and SDS-PAGE. After confirmation, the purified proteins were used to determine their effects on lymphocyte proliferation, the activities of NK and CTL, tumor suppression and the tumor-bearing mouse survival. RESULTS: The majority of the chaperone-peptides of anti-cancer immunity in CT26 cells, including HSP70-antigen peptide, HSP90-antigen peptide, gp96-antigen peptide, HSP-110 antigen peptide, HSP170-antigen peptide, was satisfactorily extracted that the multi-chaperone-peptide-rich mixtures were obtained. All the mixtures prepared could elicit lymphocyte proliferation, enhance the activities of CTL and NK, reinforce the tumor suppression and prolong the mouse survival. CONCLUSIONS: The multi-chaperone-peptide-rich mixtures could be prepared via dialysis and gel filtration combining with SDS-PAGE. Both the heat stress and Trichosanthin could induce and increase the mixtures, of which that treated by 42 degrees C heat and Trichosanthin was found to possess the strongest anti-cancer efficacy.
BACKGROUND: Chaperones play an important role in inducing anti-cancer immunity. To explore the probability of using chaperone-peptide-rich complexes extracted from colo-carcinoma cells as anti-cancer vaccine, we extracted and prepared chaperone-peptide-rich complexes from CT26 cells, which were subsequently investigated on anti-cancer efficacy. METHODS: The crude extracts of the CT26 cells treated with heat and Trichosanthin were precipitated with salt and dialyzed to remove proteins below 50kDa and above 300kDa in molecular weight; the proteins with the molecular weights in 70kDa, 90kDa, 95kDa, 110kDa and 170kDa were collected through gel filtration and SDS-PAGE. After confirmation, the purified proteins were used to determine their effects on lymphocyte proliferation, the activities of NK and CTL, tumor suppression and the tumor-bearing mouse survival. RESULTS: The majority of the chaperone-peptides of anti-cancer immunity in CT26 cells, including HSP70-antigen peptide, HSP90-antigen peptide, gp96-antigen peptide, HSP-110 antigen peptide, HSP170-antigen peptide, was satisfactorily extracted that the multi-chaperone-peptide-rich mixtures were obtained. All the mixtures prepared could elicit lymphocyte proliferation, enhance the activities of CTL and NK, reinforce the tumor suppression and prolong the mouse survival. CONCLUSIONS: The multi-chaperone-peptide-rich mixtures could be prepared via dialysis and gel filtration combining with SDS-PAGE. Both the heat stress and Trichosanthin could induce and increase the mixtures, of which that treated by 42 degrees C heat and Trichosanthin was found to possess the strongest anti-cancer efficacy.
Authors: Seiko Toraya-Brown; Mee Rie Sheen; Peisheng Zhang; Lei Chen; Jason R Baird; Eugene Demidenko; Mary Jo Turk; P Jack Hoopes; Jose R Conejo-Garcia; Steven Fiering Journal: Nanomedicine Date: 2014-02-22 Impact factor: 5.307