Evidence for mediated protein uptake by amphibian oocyte nuclei.

The objective of this investigation was to determine whether there is mediated transport of endogenous proteins across the nuclear envelope. For this purpose, we studied the nuclear uptake of a 148,000-dalton Rana oocyte polypeptide (RN1) and compared its actual uptake rate with the rate that would be expected if RN1 crossed the envelope by simple diffusion through the nuclear pores. Nuclear uptake was studied in two ways: first, oocytes were incubated in L-[3H]leucine for 1 h and, at various intervals after labeling, the amount of 3H-RN1 present in the nucleoplasm was determined. Second, L-[3H]leucine-labeled nuclear extracts, containing RN1, were microinjected into the cytoplasm of nonlabeled cells, and the proportion of 3H-RN1 that subsequently entered the nucleus was measured. It was found that RN1 can readily penetrate the nuclear envelope; for example, after 6 h, approximately 36% of the newly synthesized RN1 and 17% of the injected RN1 had entered the nucleus. The diffusion rate through pores having a radius of 45 A was calculated for several possible molecular configurations of RN1. Using axial ratios of 34, 7.5, 2, and 1, the estimated times required to reach 63% of diffusion equilibrium are 757, 468, 6,940 h, and infinity, respectively. Even assuming an axial ratio of 7.5 (the most diffusive configuration) and an equilibrium distribution of 45, simple diffusion through the pores could account for only approximately 1/20 the observed nuclear uptake of RN1. This and other comparisons indicate that some form of mediated transport is involved in the nucleocytoplasmic exchange of this polypeptide.

Mechanism for the selection of nuclear polypeptides in Xenopus oocytes. II. Two-dimensional gel analysis.

The role of the nuclear envelope in controlling intracellular protein exchanges was investigated in vivo, by determining the effect of altering nuclear permeability on (a) the protein composition of the nucleoplasm and (b) the nuclear uptake rates of specific endogenous proteins. The nuclear envelopes were disrupted by puncturing oocytes in the region of the germinal vesicle by use of glass needles. Nuclear proteins were analyzed in punctured and control cells by two-dimensional gel electrophoresis, fluorography, and double-labeling techniques. Over 300 nuclear polypeptides were identified in the fluorographs. Of this number, only approximately 10-15 were found to vary between punctured and control nuclei; furthermore, different polypeptides varied in each experiment. These qualitative studies indicate that specific binding within the nucleoplasm, and not selection by the envelope, is the main factor in maintaining the protein composition of the nucleus. The nuclear uptake rates of five individual polypeptides, ranging in molecular weight from 43,000 to 100,000, were analyzed by use of double-labeling procedures. Only one of the polypeptides (actin) entered the nuclei more rapidly after disruption of the envelope. That the nuclear uptake of certain endogenous proteins is unaffected by puncturing demonstrates that passage across the envelope is not a rate-limiting step in the nucleocytoplasmic exchange of these molecules.