Conjugation of [125I]ubiquitin to cellular proteins in permeabilized mammalian cells: comparison of mitotic and interphase cells.

[125I]Ubiquitin introduced into permeabilized hepatoma tissue culture (HTC) cells rapidly forms conjugates with endogenous proteins. A characteristic pattern of low mol. wt conjugates is obtained which includes the ubiquitinated histone, uH2A, and unknown molecular species with MrS of 14, 23, 26 (two bands) and 29 kd. A broad spectrum of higher mol. wt conjugates is also produced. The formation of all conjugates is absolutely dependent on ATP, and upon depletion of ATP they are rapidly broken down. The 14, 23 and 29 kd species are found in all subcellular fractions examined. uH2A is located exclusively in the nuclear fraction. The pair of 26 kd bands is specifically associated with the ribosome fraction. A considerable percentage of the higher mol. wt conjugates sediments with the small particle (100,000 g) fraction in the ultracentrifuge but is solubilized with deoxycholate, indicating that there are many membrane-associated conjugates. The pattern of ubiquitin conjugation in interphase and metaphase cells was compared. The incorporation of ubiquitin into uH2A was markedly reduced in metaphase cells whereas its incorporation into other low mol. wt conjugates and into high mol. wt conjugates was affected slightly, if at all. This shows that the known decrease of uH2A levels in metaphase is due to a specific effect on histone ubiquitination and not to a general decrease in ubiquitination activity or increase of isopeptidase activity. Changes in the levels of uH2A during mitosis measured by immunoblotting were similar to those estimated in permeabilized cells. These experiments indicate that permeabilized cells provide a useful approach to the study of rapidly turning over ubiquitin conjugates in mammalian cells.