Carl W. Schmid scite author profile

Proteasomes are the main proteases responsible for cytosolic protein degradation and the production of major histocompatibility complex class I ligands. Incorporation of the interferon γ–inducible subunits low molecular weight protein (LMP)-2, LMP-7, and multicatalytic endopeptidase complex–like (MECL)-1 leads to the formation of immunoproteasomes which have been associated with more efficient class I antigen processing. Although differences in cleavage specificities of constitutive and immunoproteasomes have been observed frequently, cleavage motifs have not been described previously.We now report that cells expressing immunoproteasomes display a different peptide repertoire changing the overall cytotoxic T cell–specificity as indicated by the observation that LMP-7−/− mice react against cells of LMP-7 wild-type mice. Moreover, using the 436 amino acid protein enolase-1 as an unmodified model substrate in combination with a quantitative approach, we analyzed a large collection of peptides generated by either set of proteasomes. Inspection of the amino acids flanking proteasomal cleavage sites allowed the description of two different cleavage motifs. These motifs finally explain recent findings describing differential processing of epitopes by constitutive and immunoproteasomes and are important to the understanding of peripheral T cell tolerization/activation as well as for effective vaccine development.

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Repetitive Sequences in Eukaryotic DNA and their Expression

Jelinek¹,

Schmid²

1982

Annu. Rev. Biochem.

575

273

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The Alu Family of Dispersed Repetitive Sequences

Schmid¹,

Jelinek²

1982

Science

582

264

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A family of related sequences that includes approximately 500,000 members is the most prominent short dispersed repeat family in primate and rodent DNA's. The primate sequence is approximately 300 base pairs in length and is composed of two imperfectly repeated monomer units, whereas the rodent repeat consists of only a single monomer. Properties of this repeat sequence, its flanking sequences in chromosomal DNA, and RNA's transcribed from it suggest that it may be a mobile DNA element inserted at hundreds of thousands of different chromosomal locations.

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Base sequence studies of 300 nucleotide renatured repeated human DNA clones

Deininger

Jolly

Rubin

et al. 1981

Journal of Molecular Biology

595

241

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Cell stress and translational inhibitors transiently increase the abundance of mammalian SINE transcripts

Liu¹,

Chu²,

Choudary³

et al. 1995

Nucleic Acids Research

275

232

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The abundance of Alu RNA is transiently increased by heat shock in human cell lines. This effect is specific to Alu repeats among Pol III transcribed genes, since the abundance of 7SL, 7SK, 5S and U6 RNAs is essentially unaffected by heat shock. The rapid induction of Alu expression precedes the heat shock induction of mRNAs for the ubiquitin and HSP 70 heat shock genes. Heat shock mimetics also transiently induce Alu expression indicating that increased Alu expression is a general cell-stress response. Cycloheximide treatment rapidly and transiently increases the abundance of Alu RNA. Again, compared with other genes transcribed by Pol III, this increase is specific to Alu. However, as distinguished from the cell stress response, cycloheximide does not induce expression of HSP 70 and ubiquitin mRNAs. Puromycin also increases Alu expression, suggesting that this response is generally caused by translational inhibition. The response of mammalian SINEs to cell stress and translational inhibition is not limited to SINEs which are Alu homologues. Heat shock and cycloheximide each transiently induce Pol III directed expression of B1 and B2 RNAs in mouse cells and C-element RNA in rabbit cells. Together, these three species exemplify the known SINE composition of placental mammals, suggesting that mammalian SINEs are similarly regulated and may serve a common function.

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Pyrimidine-specific chemical reactions useful for DNA sequencing

1980

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Standardized nomenclature for Alu repeats

et al. 1996

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Does SINE evolution preclude Alu function?

Schmid

1998

Nucleic Acids Research

206

186

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The evolution, mobility and deleterious genetic effects of human Alus are fairly well understood. The complexity of regulated transcriptional expression of Alus is becoming apparent and insight into the mechanism of retrotransposition is emerging. Unresolved questions concern why mobile, highly repetitive short interspersed elements (SINEs) have been tolerated throughout evolution and why and how families of such sequences are periodically replaced. Either certain SINEs are more successful genomic parasites or positive selection drives their relative success and genomic maintenance. A complete understanding of the evolutionary dynamics and significance of SINEs requires determining whether or not they have a function(s). Recent evidence suggests two possibilities, one concerning DNA and the other RNA. Dispersed Alus exhibit remarkable tissue-specific differences in the level of their 5-methylcytosine content. Differences in Alu methylation in the male and female germlines suggest that Alu DNA may be involved in either the unique chromatin organization of sperm or signaling events in the early embryo. Alu RNA is increased by cellular insults and stimulates protein synthesis by inhibiting PKR, the eIF2 kinase that is regulated by double-stranded RNA. PKR serves other roles potentially linking Alu RNA to a variety of vital cell functions. Since Alus have appeared only recently within the primate lineage, this proposal provokes the challenging question of how Alu RNA could have possibly assumed a significant role in cell physiology.

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Carl W. Schmid

Discrete Cleavage Motifs of Constitutive and Immunoproteasomes Revealed by Quantitative Analysis of Cleavage Products

Repetitive Sequences in Eukaryotic DNA and their Expression

The Alu Family of Dispersed Repetitive Sequences

Base sequence studies of 300 nucleotide renatured repeated human DNA clones

Cell stress and translational inhibitors transiently increase the abundance of mammalian SINE transcripts

Pyrimidine-specific chemical reactions useful for DNA sequencing

Standardized nomenclature for Alu repeats

Does SINE evolution preclude Alu function?

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