Abstract
To study the mechanism involved in mannose-6-phosphate (Man-6-P) independent lysosomal proenzyme membrane association, we used a reversible cross-linker to probe radiolabeled human HepG2 cells permeabilized with saponin in the presence of Man-6-P. After immunoprecipitation of the extracted and cross-linked cells with anti-cathepsin D antibody, followed by complete reduction of the immunoprecipitates and SDS-polyacrylamide gel electrophoresis analysis, we found that procathepsin D was specifically and transiently associated, independent of Man-6-P, with two co-synthesized glycoproteins having molecular masses of 68 and 72 kDa. Pulse-chase and cell fractionation experiments showed that the Man-6-P independent association of procathepsin D with the 68-kDa protein started in the rough endoplasmic reticulum, continued in the Golgi, but had no association with either membrane. The Man-6-P independent association of procathepsin D with the 72-kDa protein and the membrane was found in compartments all the way from the Golgi to the dense lysosome, where processing of procathepsin D is believed to occur and where procathepsin D dissociated from the 72-kDa protein and the membrane. Endo H digestion of the 72-kDa protein showed that this protein was partially resistant to Endo H, suggesting that membrane association of the procathepsin D-72-kDa protein complex probably began in a late Golgi compartment. Endo F digestion of the proteins showed both have the same molecular mass around 58 kDa. Using antiserum against human saposin C, we identified the two glycoproteins as forms of prosaposin with different glycosylation. The transient, Man-6-P independent, membrane association of the procathepsin D-prosaposin complex and the presence of this complex in heavy lysosomes indicated that the proteins were transported to the lysosome as a complex. The association of two lysosomal proteins in the endoplasmic reticulum early after synthesis suggested that preassembly of some lysosomal components occurs before the earliest previously identified steps in the sorting pathway.
Highlights
To study the mechanism involvedin mannose-6-phos- acquire a common recognition signal, the Man-6-P recognition phate (Man-6-P) independent lysosomaplroenzyme marker
Our results showed that a portion of procathepsin D interacted with a portion of prosaposin to form a protein complex procathepsin D to MIB-1 in the membraneassociated material immediately after their synthesis in the ER
There was only one major peakof MIB-2containing complex apparatus, where this complex associated with the membrane in fractions 4-6 with the highestsignal in fraction 5 which both in Man-6-P dependent and independent manner (Fig. 1, overlapped with the galactosyltransferase activity, indicating lanes 3 and 4 )
Summary
To study the mechanism involvedin mannose-6-phos- acquire a common recognition signal, the Man-6-P recognition phate (Man-6-P) independent lysosomaplroenzyme marker Lysosomal enzymes bearing this recognition marker membrane associationw, e used a reversible cross-linker are recognized in the trans-Golgi network by two different reto probe radiolabeled humaHnepG2 cells permeabilized ceptors (MPR)' and segregated from the secretory proteins via with saponinin the presence of Man-6-P. EndoH digestion of the 72-kDa synthesized enzymes are secreted instead of being targeted to protein showed that this protein was partially resistant the lysosome due to failure of Man-6-P dependent pathway, to Endo H, suggesting that membrane associationof the resulting in a low level of intracellular lysosomal enzyme acprocathepsin D-72-kDaprotein complex probably began tivity compared to normal control cells.
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