Degradation of erythrocyte-microinjected and scrape-loaded homologous cytosolic proteins by 3T3-L1 cells.

Homologous cytosol was introduced into 3T3-L1 cells by two different methods. Erythrocytes loaded with radiolabelled cytosolic proteins extracted from 3T3-L1 cells were fused with the aid of Sendai virus to 3T3-L1 cells, which were then seeded to confluent and non-confluent cultures. Cytosolic proteins were also introduced into cells by the technique of scrape-loading. In confluent cells, injected cytosolic proteins were recovered largely (54-93%) in a sedimentable (6 X 10(6) gav.-min) fraction from recipient cells irrespective of the method of introduction or of radiolabelling of the injected proteins [( 125I]iodination, reductive methylation with NaB3H4 and backbone labelling with L-[4,5-3H]leucine). The degradation of microinjected cytosolic proteins was in all cases inhibited by the lysosomotropic agent NH4Cl to a greater extent (32-75%) than that observed for endogenous cytosolic (less than or equal to 19%) proteins (labelled with L-[4,5-3H]leucine). In growing cells both endogenous total cell proteins and microinjected proteins were degraded at a slower rate than in confluent cell monolayers. The inhibition by NH4Cl of the degradation of both the endogenous and microinjected proteins is decreased compared with the inhibition observed in confluent monolayers. The results are discussed in terms of the cytoplasmic capacity to segregate microinjected homologous proteins before protein degradation can take place.