Hypusine formation in protein by a two-step process in cell lysates.

The putative protein synthesis initiation factor eukaryotic initiation factor 4D (eIF-4D) is post-translationally modified by the polyamine spermidine, forming the rare amino acid hypusine from a lysine residue. The hypusine precursor, deoxyhypusine, was formed in crude cell lysates at pH 9.5 and converted to hypusine at pH 7.1. The modification occurred in eIF-4D, since the isoelectric points and molecular weights of the proteins modified in intact cells and lysates were indistinguishable. Only lysates from cells treated with alpha-difluoromethylornithine, to deplete endogenous polyamine pools, supported the formation of deoxyhypusine, suggesting that unmodified eIF-4D accumulated in spermidine deficient cells. Guazatine, an inhibitor of enzymes which form delta 1-pyrroline from spermidine, blocked deoxyhypusine formation in lysates by nearly 70% at 100 microM and completely at 1 mM. Other mammalian amine oxidase inhibitors had little or no effect on this reaction. Thus, deoxyhypusine formation in eIF-4D is catalyzed by a guazatine-sensitive enzyme with a basic pH optimum.