Reconstitution of endosomal proteolysis in a cell-free system. Transfer of immune complexes internalized via Fc receptors to an endosomal proteolytic compartment

The presence of acid proteases in the endosomal compartment of macrophages has been recently demonstrated (Diment, S., Leech, M. S., and Stahl, P. D. (1988) J. Biol. Chem. 263, 6901-6907). This proteolytic activity allows the early degradation of ligands internalized by receptor-mediated endocytosis. To study the early steps that initiate the proteolytic processing of ligands, immune complexes formed with anti-dinitrophenol monoclonal IgG and radiolabeled dinitrophenol-derivatized bovine serum albumin were bound at 4 degrees C to Fc receptors of J774 macrophages. Cells were allowed to internalize immune complexes bound to the plasma membrane for different periods of time at 37 degrees C. Vesicle preparations generated from these cells were incubated in vitro at acidic pH to allow the hydrolysis of ligands located in protease-positive compartments. Ligand hydrolysis was observed after about 5 min of internalization, suggesting that at earlier times immune complexes were located in protease-free vesicles. Upon incubation of cell lysates under conditions that support in vitro endosome-endosome fusion, early protease-free endosomes containing ligand acquire proteolytic activity. Reconstitution of fusion-dependent proteolysis required energy, ions, membrane-associated factors, and cytosol. Cytosol was inactivated by incubation with N-ethylmaleimide. The proteolytic compartment formed upon in vitro incubation colocalized with endosomes in the light region of a Percoll gradient. Reconstitution was also achieved using an endosomal preparation separated from lysosomes in a Percoll gradient. Our results indicate that a fusion step between newly formed endocytic vesicles and a light density, protease-positive compartment triggers the proteolytic processing of ligands internalized by receptor-mediated endocytosis.     

Scavenger receptor class B type I localizes to a late endosomal compartment

Scavenger receptor class B type I (SR-BI) has an established role in mediating the selective uptake of cholesterol from HDL in hepatocytes, steroidogenic cells, and other tissues. SR-BI is present on the plasma membrane but also localizes to stable intracellular compartments of unknown function. Using indirect immunofluorescence and subcellular fractionation, we have investigated the subcellular distribution of SR-BI. We report that red fluorescent protein-tagged mouse SR-BI (RFP-mSR-BI) colocalizes with the late endosomal and lysosomal markers, Rab7, LBPA, and Rab9. In addition, endogenous SR-BI is also found on lysosomes and colocalizes with LAMP-2 in primary hepatocytes. Furthermore, we demonstrate that the trafficking of SR-BI through these compartments is Rab7 dependent. Interestingly, filipin staining indicates accumulation of lysosomal cholesterol in SR-BI-deficient ((-/-)) as compared with wild-type hepatocytes. In addition to its role as a plasma membrane receptor, SR-BI may function in cholesterol trafficking from late endosomes/lysosomes.     

Biosynthesis of O-acyl ethanediol phosphorylcholine in a cell-free system from rat liver.

1-$\text{0}$-Hexadecanoyl [U-¹⁴C]ethanediol can serve as substrate in the formation of 1-$\text{0}$-hexadecanoyl ethanediol 2-phosphorylcholine by particulate cell-free preparations from rat liver. Catalytic activity is largely associated with the microsomal fraction. The reaction requires CDPcholine and Mg⁺⁺. Phosphatidylcholine cannot substitute for CDPcholine, but Mn⁺⁺ is almost as effective as Mg⁺⁺. Ca⁺⁺ inhibits the reaction. The acyl ethanediol phosphorylcholine produced was identified by repeated cochromotography with authentic diol phospholipid to constant specific radioactivity, and by enzymatic and chemical degradations.     

Amino acid incorporation in a cell-free system derived from rat liver studied with the aid of selenodiglutathione

Selenodiglutathione (GSSeSG), a potent inhibitor of elongation factor 2 (EF2) has been used to study amino acid incorporation in a rat liver cell-free system. While translocation of the ribosomes was inhibited by GSSeSG, ribosomes with a free acceptor site were still capable of incorporating one amino acid residue. From this the average number of amino acids incorporated per ribosomes was calculated to be 2--5. In this respect virtually no difference has been observed between ribosomes present on small or large aggregates. The time required for one translocation by all active ribosomes, and the time required for the incorporation of one amino acid (starting with aminoacyl-tRNA or amino acids) has also been determined. By incubation under conditions for amino acid incorporation, part of the ribosomes were completely inactivated whereas the rest remained as active as at the start of the incubation.     

Inhibition of sterol synthesis by citrinin in a cell-free system from rat liver and yeast.

Citrinin, a fungal metabolite known as an antibiotic, strongly inhibited the labeled acetate incorporation into nonsaponifiable lipids by a cell-free system from rat liver but not the labeled mevalonate incorporation. Of the enzymes involved in cholesterol synthesis, two enzymes, acetoacetyl-CoA thiolase (EC 2.3.1.9) and 3-hydroxy-3-methylglutaryl-CoA reductase (EC 1.1.1.34), were specifically inhibited by the antibiotic. The concentration required for 50% inhibition was 0.2 mM for the former enzyme and 0.5 mM for the latter. Essentially the same results were obtained with a cell-free system from yeast although higher concentrations of the antibiotic were required for inhibition.     

Hyaluronic acid synthesis in a cell-free system from rat fibrosarcoma

A transplantable rat fibrosarcoma (in both ascites and solid forms) has been shown to contain and synthesize large amounts of hyaluronic acid. A particulate hyaluronic acid synthesizing system has been isolated from the solid fibrosarcoma and some characteristics of the enzyme system are detailed. The enzyme complex transferred GlcUA or GlcNAc from UDP-GlcUA or UDP-GlcNAc at a rate of approximately 60 nmole/hr/mg protein to extend hyaluronic acid chains by approximately 45,000 daltons.     

Trafficking of lipids from the endoplasmic reticulum to the Golgi apparatus in a cell-free system from rat liver

Trafficking and sorting of lipids during transport from the endoplasmic reticulum to the Golgi apparatus was studied using a cell-free system from rat liver. Transitional elements of the endoplasmic reticulum were prepared from liver slices prelabeled with [14C]- or [3H]acetate as the donor fraction. Non-radioactive Golgi apparatus were immobilized on nitrocellulose as the acceptor. When reconstituted, the radiolabeled donor retained a capacity to transfer labeled lipids to the non-radioactive Golgi apparatus acceptor. Transfer exhibited two kinetically different components. One was stimulated by ATP, facilitated by cytosol and inhibited by guanosine 5'-O-(thiotriphosphate) and N-ethylmaleimide. In parallel with protein transport, the ATP-dependent lipid transfer occurred with a temperature transition at about 20 degrees C. The other was not stimulated by ATP, did not require cytosol, was acceptor unspecific, was unaffected by inhibitors and, while temperature dependent, did not exhibit a sharp temperature transition. The ATP-independent transfer was non-vesicular. In contrast, the ATP-dependent transfer was vesicular. Transition vesicles isolated by preparative free-flow electrophoresis, when used as the donor fraction, transferred lipids to Golgi apparatus acceptor with a 5-6-fold greater efficiency than that exhibited by the unfractionated transitional endoplasmic reticulum. Formation of transition vesicles was ATP-dependent. Transferred lipids were chiefly phosphatidylcholine and cholesterol. Membrane triglycerides, major constituents of the transitional endoplasmic reticulum membranes, were both depleted in the transition vesicle-enriched fractions and not transferred to Golgi apparatus suggestive of lipid sorting prior to or during transition vesicle formation. The characteristics of the ATP plus cytosol-dependent transfer were similar to those for protein transfer mediated by transition vesicles. Thus, the 50-70-nm vesicles derived from transitional endoplasmic reticulum appear to function in the trafficking of both newly synthesized proteins and lipids from the endoplasmic reticulum to the Golgi apparatus.     

Necessity of polyamines for maximum isoleucyl-tRNA formation in a rat liver cell-free system

From a study of the effect of polyamines on aminoacyl-tRNA formation of nine amino acids in a rat liver cell-free system, it is shown that isoleucyl-tRNA formation in the presence of polyamines is much greater than that in presence of Mg²⁺. The data suggest that polyamines may play an important role in protein synthesis by regulating aminoacyl-tRNA formation.