Regulation of G418 selection efficiency by cell-cell interaction in transfection

Abstract

We attempted to establish the optimum conditions for the calcium phosphate (CaPO₄) precipitation protocol by counting G418 resistant (G418^r) colonies after transfection of pSV2-neo DNA into BALB 3T3 cells. The amount and molecular size of carrier DNA, number of plating cells, treatment period of DNA-CaPO₄ precipitates and expression time of G418 selection were found to be important factors in the induction of G418^r colonies. Six G418^r clones were derived from BALB 3T3, NIH 3T3 and FRSK cells, and cocultured with G418 sensitive (G418^s) parent cells in G418 medium. The colony formation capacity of all G418^r cell clones decreased with the increasing number of plated G418^s cells. Cell-cell contact appeared to be necessary to reduce the colony formation of G418^r cells, and contact-dependent G418^r cell killing was probably not related to gap junction formation. Contact-mediated cell killing is a likely explanation for the observation that induction of G418^r colonies is often reduced under conditions of high-density plating, long treatment of DNA-CaPO₄ precipitates, and long expression time of G418 selection. These results suggest that in some instances transfection efficiency using pSV2-neo DNA should be carefully evaluated because culture conditions can mask the induction of G418^r colonies.