Abstract
The transmembrane protein, transferrin receptor (TfR), is found in a soluble form in human serum and in the medium of cell lines grown in tissue culture. The soluble form is generated by proteolytic cleavage between Arg-100 and Leu-101. We used two mutant human TfRs expressed in Chinese hamster ovary (CHO) cells lacking endogenous transferrin receptor to characterize the protease that cleaves the TfR and determine its location in the cell. The T104D mutant TfR lacks the O-linked carbohydrate at position 104, and is more susceptible to proteolytic cleavage at Arg-100 than the wildtype human TfR in these cells. We find that the protease is not a component of the serum in the growth medium, and it is not secreted by the cells. Cleavage does not occur during biosynthesis of the TfR, and occurs after the TfR has reached the cell surface. Expression of the T104D TfR in a temperature-sensitive acidification defective CHO cell line, G.7.1, shows that cleavage of the TfR is not dependent on acidification of endosomes. The C20A23 TfR is an endocytosis deficient mutant lacking an internalization signal. This mutant TfR, which is mainly localized to the cell surface, is cleaved less efficiently than the wild-type TfR, indicating that the protease is localized to an intracellular compartment.
Highlights
From the Department of Cell Biology a n d Anatomy, Oregon Health Sciences University, Portland, Oregon 97201
TfRa expressed in Chinese hamster ovary (CHO) cells integral membrane proteinor is tightly associated with memictl0lioazsye-ecpcplnaikeotnttiihitnbkoheglneauedmipencncrtoataoodhmnrtoeTbeppgfcaoeoerRshnlonelyi.otenTdetnuhorhtstaaleyhttotTretefiacs1canlet0ehts4acfecDpvleeeroeslmarseslvsiiW rutn.tauihteogmarTenAefenifcntrR1ieagnd0p-ta41tntt,o0hhdr0aeaTnttdfotgdihRestrcthaomehlnewaraocmtrptrkhaherisnceomsttethueiewetresasd--isliedu-mwablGaocrrhice,aeleagntcnaleeaitnszpec,bea,edbablcwellhecstahoaori(uefc1tschht3elre)eeccasaracvutuueeigdnlsdgleegestmsswhutieeirnttmfhThtabtebafhcarRtreensae(atpnh8dlhei,eooz1pran2prbt)eraio.oopoldtnafeeCertsacahhtsrteeieiertoaT,(anipsmfnseRhbio.nHaArobrTLlfosf6HolRa0,nLZfmcdcr6ilvayee0kclarltoivcsisve)aotilganiclstes--e and it is not secreted by the cells
- 66 of protease that cleaves the TfR in CHO cells
Summary
Samples was chosen tgoive TfR bands of approximately equal intensity by immunoblot Cells were countaedt days 3 and 6 and separate dishes Cleavage of the TfR could occur at several sites within the were lysed in NET-Tx. TfR was immunoprecipitated from the equivalent of 4 x lo5cells and analyzed on immunoblots of polyacrylamide gels. Were incubated i1nml of HyQ CCMB medium for 0,0.5,1,2, or 4 h, a t which time they were placed at 4 “C, washed twice with PBS, and processed for surface and internal TfR detection as described above. Fresh medium with or without inhibitor was added to the cells and the chase procedure was ment tobe active, for example, cathepsin B [27] and cathepsin D [28].To determine whether theprotease that cleaves the TfR repeated. The positions of"C molecular weight markers are indicated in kDa
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