The proteasome activator 11 S REG (PA28) and class I antigen presentation.

There are two immune responses in vertebrates: humoral immunity is mediated by circulating antibodies, whereas cytotoxic T lymphocytes (CTL) confer cellular immunity. CTL lyse infected cells upon recognition of cell-surface MHC Class I molecules complexed with foreign peptides. The displayed peptides are produced in the cytosol by degradation of host proteins or proteins from intracellular pathogens that might be present. Proteasomes are cylindrical multisubunit proteases that generate many of the peptides eventually transferred to the cell surface for immune surveillance. In mammalian proteasomes, six active sites face a central chamber. As this chamber is sealed off from the enzyme's surface, there must be mechanisms to promote entry of substrates. Two protein complexes have been found to bind the ends of the proteasome and activate it. One of the activators is the 19 S regulatory complex of the 26 S proteasome; the other activator is '11 S REG' [Dubiel, Pratt, Ferrell and Rechsteiner (1992) J. Biol. Chem. 267, 22369-22377] or 'PA28' [Ma, Slaughter and DeMartino (1992) J. Biol. Chem. 267, 10515-10523]. During the past 7 years, our understanding of the structure of REG molecules has increased significantly, but much less is known about their biological functions. There are three REG subunits, namely alpha, beta and gamma. Recombinant REGalpha forms a ring-shaped heptamer of known crystal structure. 11 S REG is a heteroheptamer of alpha and beta subunits. REGgamma is also presumably a heptameric ring, and it is found in the nuclei of the nematode work Caenorhabditis elegans and higher organisms, where it may couple proteasomes to other nuclear components. REGalpha and REGbeta, which are abundant in vertebrate immune tissues, are located mostly in the cytoplasm. Synthesis of REG alpha and beta subunits is induced by interferon-gamma, and this has led to the prevalent hypothesis that REG alpha/beta hetero-oligomers play an important role in Class I antigen presentation. In the present review we focus on the structural properties of REG molecules and on the evidence that REGalpha/beta functions in the Class I immune response.

Human lymphoblast and erythrocyte multicatalytic proteases: differential peptidase activities and responses to the 11S regulator.

The multicatalytic protease (MCP) or 20S proteasome was purified from human red blood cells and two lymphoblastoid cell lines, 721.45 which constitutively expresses protease subunits LMP2 and LMP7, and 721.174 in which genes for these subunits are deleted. Each MCP was assayed using a series of fluorogenic peptides. The hydrophobic peptides gGGF-MCA, sRPFHLLVY-MCA and sLY-MCA were particularly good substrates for 721.45 MCP as compared to the enzyme from 721.174 and red blood cells. In addition, hydrolysis of gGGF-MCA and sLY-MCA was activated by human red blood cell and recombinant regulators to a greater extent using MCP from 721.45 lymphoblasts. Thus, LMP2/LMP7 and regulator appear to act synergistically in the enhanced degradation of gGGF-MCA and sLY-MCA by the multicatalytic protease.

Effects of interferon gamma and major histocompatibility complex-encoded subunits on peptidase activities of human multicatalytic proteases.

We have examined several peptidase activities of human multicatalytic protease (MCP) purified from the lymphoblastoid cell line 721.45 and a deletion mutant derivative, 721.174, lacking MCP subunits encoded in the major histocompatibility complex (MHC) class II region. Wild-type lymphoblast MCP hydrolyzed a specific peptide, glutaryl-Gly-Gly-Phe-4-methylcoumaryl-7-amide (-MCA), several times faster than the mutant enzyme did, suggesting that MHC-encoded subunits may provide this activity. Contrary to a recent report [Driscoll, J., Brown, M. G., Finley, D. & Monaco, J J. (1993) Nature (London) 365, 262-264], we did not detect significant aminopeptidase associated with lymphoblast MCPs. Our results also differ markedly from those of Gaczynska et al. [Gaczynska, M., Rock, K. L. & Goldberg, A L. (1993) Nature (London) 365, 264-267], who reported that gamma interferon (IFN-gamma) alters the peptidase activities of lymphoblast MCPs. We found that IFN-gamma did not produce significant differences in the peptidase activities of purified MCPs. Moreover, our measurements of Vmax and Km for succinyl-Leu-Leu-Val-Tyr-MCA hydrolysis differ 600-fold and 15-fold, respectively, from those reported by Gaczynska et al. On balance, the findings presented here do not support the idea that IFN-gamma induces major changes in the peptidase activity of purified MCPs.

A 26 S protease subunit that binds ubiquitin conjugates.

Ubiquitin-mediated proteolysis provides an important mechanism for regulating a variety of cellular processes. Ubiquitin-conjugated proteins are degraded by a 26 S protease that contains more than 30 different subunits. Of these, a single 50-kDa polypeptide, subunit 5, specifically binds ubiquitin-lysozyme conjugates. Binding is inhibited by short polymeric chains of ubiquitin but not by ubiquitin monomers or by lysozyme. In addition, subunit 5 binds free ubiquitin chains with efficient association requiring at least four ubiquitins. Thus, proteins conjugated to polymers of ubiquitin may be selected for degradation by a single subunit of the 26 S protease complex.