The GGAs (Golgi-localizing, ␥-adaptin ear homology domain, ARFbinding proteins) are a family of proteins implicated in protein trafficking from the Golgi to endosomes͞lysosomes. These proteins have modular structures with an N-terminal VHS (VPS-27, Hrs, and STAM) domain followed by a GAT (GGA and TOM1) domain, a connecting hinge segment, and a C-terminal GAE (␥-adaptin ear) domain. Isolated VHS domains have been shown to bind specifically to acidic cluster (AC)-dileucine motifs present in the cytoplasmic tails of the mannose 6-phosphate receptors. Here we report that full-length cytoplasmic GGA1 and GGA3 but not GGA2 bind the cation-independent mannose 6-phosphate receptor very poorly because of autoinhibition. This inhibition is caused by the binding of an AC-LL sequence present in the hinge segment to the ligand-binding site in the VHS domain. The inhibition depends on the phosphorylation of a serine located three residues upstream of the AC-LL motif. The serine is phosphorylated by casein kinase 2 in in vitro assays. Substitution of the GGA1 inhibitory sequence into the analogous location in GGA2, which lacks the AC-LL motif, results in autoinhibition of the latter protein. These data indicate that the activity of GGA1 and GGA3 is regulated by cycles of phosphorylation͞dephosphorylation.
The GGAs (Golgi-localizing, ␥-adaptin ear homology domain, ARF-binding) are a multidomain family of proteins implicated in protein trafficking between the Golgi and endosomes. Recent evidence has established that the cation-independent (CI) and cation-dependent (CD) mannose 6-phosphate receptors (MPRs) bind specifically to the VHS domains of the GGAs through acidic cluster-dileucine motifs at the carboxyl ends of their cytoplasmic tails. However, the CD-MPR binds the VHS domains more weakly than the CI-MPR. Alignment of the C-terminal residues of the two receptors revealed a number of non-conservative differences in the acidic cluster-dileucine motifs and the flanking residues. Mutation of these residues in the CD-MPR cytoplasmic tail to the corresponding residues in the CI-MPR conferred either full binding (H63D mutant), intermediate binding (R60S), or unchanged binding (E56F/S57H) to the GGAs as determined by in vitro glutathione S-transferase pulldown assays. Furthermore, the C-terminal methionine of the CD-MPR, but not the C-terminal valine of the CI-MPR, inhibited GGA binding. Addition of four alanines to the C-terminal valine of the CI-MPR also severely reduced GGA binding, demonstrating the importance of the spacing of the acidic cluster-dileucine motif relative to the C terminus for optimal GGA interaction. Mouse L cells stably expressing CD-MPRs with mutations that enhance GGA binding sorted cathepsin D more efficiently than wild-type CD-MPR. These studies provide an explanation for the observed differences in the relative affinities of the two MPRs for the GGA proteins. Furthermore, they indicate that the GGAs participate in lysosomal enzyme sorting mediated by the CD-MPR.
An investigation is described of the expression of the cysteine proteinase cathepsin L during placental development. In addition, whether cathepsin L expression is linked to c-rasHa expression in development, as it is in metastatic cells, is examined. Large amounts of cathepsin L and its transcript are present in the mouse placenta, more than six times more than in adult kidney and liver. Throughout gestation, cathepsin L and its transcript are located in the giant cells and spongiotrophoblasts of the placenta. Several forms of different mobility on denaturing gels are found in the placenta. Their apparent molecular weights, as determined from the gels, are 43,000, 39,000, 29,000, and 20,000. The 39-kDa form is procathepsin L. The 29-kDa and 20-kDa forms are lysosomal cathepsin Ls. The 39-kDa procathepsin L and the 20-kDa mature cathepsin L are the most abundant species in the placenta and are present in about equal amounts throughout gestation. At any time during gestation, placental minces synthesize and secrete only procathepsin L. The amniotic fluid of the fetus contains the 43-kDa form of cathepsin L and procathepsin L, but no detectable amounts of mature cathepsin L. By contrast, serum from nonpregnant or pregnant mice contains three forms of cathepsin L (i.e., the 43-kDa form, procathepsin L, and mature cathepsin L). Cathepsin L and the rasHa oncogene are expressed in two coincident waves corresponding to periods during which the placenta is invasive and just before parturition. The presence of large amounts of cathepsin L in the placenta suggests that the proteinase has a significant function there. Expression of cathepsin L in the placenta is potentially under the control of the ras gene product p21; both are under developmental control.
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