To address the role of different proteases in degradation of antigen destined for MHC class II‐restricted presentation, we generated cathepsin‐deficient mice carrying a transgenic B cell receptor (BCR) specific for hen egg lysozyme (HEL). We demonstrate that degradation of HEL in B lymphocytes is highly processive and does not result in discrete processing intermediates. Moreover, degradation of HEL does not require initial unlocking of the antigen by any of the cathepsins tested. Using mass spectrometry and microsequencing, we show that all major cathepsins (CatS, CatL, CatB, and CatD) digest HEL in vitro with considerable redundancy, although some preferential cleavages are evident. These observations have a functional correlate: when triggered by cathepsin S‐deficient antigen‐presenting cells, T cells that recognize different HEL epitopes fail to present two HEL‐derived epitopes, while a third epitope is presented independently of the activity of cysteine proteases. We conclude that the proteolytic processing machinery is redundant, and that several proteases can substitute for each other to degrade a given antigen. However, a certain degree of proteolytic specificity is demonstrable for the generation of particular epitopes, notably by CatS.
The QCR8 gene of the yeast K1uyveromyces lactis is transcriptionally regulated by the carbon source in the growth medium. Deletion analysis of the KlQCR8 promoter shows that an element located between -144 bp and -113 bp specifically controls induction of QCR8 gene expression on non-fermentable carbon sources. Specific and differential protein-binding to the activating sequence was observed with extracts from glucose- and ethanol/glycerol-grown cells. Induction of the reporter gene and protein-binding was dependent on the presence of a functional KlCAT8 gene, suggesting that, in K. lactis, K1Cat8p acts in the transcriptional regulation of respiratory function. The activating element contains no other known regulatory sites but two elements required for RNA holoenzyme functioning, raising the intriguing possibility of carbon source-dependent regulation by a subunit of the RNA polymerase holoenzyme in K. lactis.
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