Regulation of human and mouse procathepsin E gene expression.

Cathepsin E is an intracellular aspartic proteinase that is considered to have a number of physiological roles including antigen processing. Quantitation of procathepsin E mRNA by LightCyclertrade mark technology indicated that the gene was transcribed in lung but not in kidney of both human and mouse origin. In contrast, the transcript was present in mouse spleen and alveolar macrophages but not in the counterpart tissue/cells from humans. Regulation of human and mouse procathepsin E gene expression was shown not to be influenced by the extent of CpG methylation but depended on the recognition of potential binding motifs in each promoter region by transcription factors such as GATA1, PU1 and YY1, as revealed by functional analysis using a series of promoter/luciferase reporter gene fusion constructs. Thus the extent to which the procathepsin E gene is expressed in a particular cell type may depend on the balance between the effects produced by positive-acting, cell-specific transcription factors such as GATA1 and PU1 and the negative influence of the ubiquitous YY1 factor. In this way, the relative abundance and influence of general and cell-specific transcription factors can govern the production of cathepsin E and thereby account for the sporadic cell and tissue distribution of this enzyme in different species.

Analysis of protein-protein interactions during cytomegalovirus infection.

A key area in the study of infection by cytomegalovirus (CMV), or that of any other virus, is to gain an understanding of the manner in which viral proteins interact with those of the host cell. The most widely used method to identify interactions between viral and cellular proteins in the infected cell is that of co-immunoprecipitation; lysates from infected cells are treated with antibody which recognises, say, a viral protein of interest, and the resulting immune complexes are then screened for the presence of a cellular protein of interest: the presence of the second protein in the immune complexes is indicative of an interaction between the two proteins in vivo. However, such interaction need not necessarily be direct, as immunoprecipitation of a viral protein that could interact with a single component of a multiprotein complex might be expected to co-precipitate all the proteins in that complex. Therefore assays might be said to demonstrate protein-protein associations in the cell, rather than direct interactions. The resolving power of co-immunoprecipitations is also limited in other respects. First, the success of the assay relies heavily on the quality of the immunological reagents used; it is also possible that antibody binding will actually disrupt the interaction to be studied.

CCAAT box-dependent activation of the TATA-less human DNA polymerase alpha promoter by the human cytomegalovirus 72-kilodalton major immediate-early protein.

Human cytomegalovirus (HCMV) immediate-early (IE) proteins are known potent transregulators of viral and cellular gene expression upon HCMV infection. HCMV is known to activate a number of cellular genes intimately associated with the cell cycle and DNA replication by mechanisms involving the viral major IE 86-kDa protein (IE2). We have recently shown that IE2 mediates this activation in a TATA-dependent manner and interacts directly with the TATA-binding protein. However, a number of TATA-less cellular promoters, e.g., DNA polymerase alpha and dihydrofolate reductase, are also activated by HCMV infection. Consequently, we have asked how HCMV mediates this activation. We show that, consistent with its known TATA dependency, IE2 does not activate the DNA polymerase alpha promoter. In contrast, this promoter is strongly activated by the major IE 72-kDa protein (IE1). Whilst deletion of ATF or E2F sites within the DNA polymerase alpha promoter had little effect on IE1-mediated activation, removal of the CCAAT box appeared to abolish high levels of activation by IE1. Consistent with this observation, we also find that IE1 interacts directly with the CCAAT box binding factor CTF1 in vitro and massively augments CTF1-mediated activation of the DNA polymerase alpha promoter in transient transfection assays.

Molecular cloning and heterologous expression of a Klebsiella pneumoniae gene encoding alginate lyase.

The alginate lyase (Aly; guluronate specific)-coding gene of Klebsiella pneumoniae was cloned using the cosmid vector pMMB33, transduced into Escherichia coli and expressed in this host. Four Aly-positive clones with unstable phenotypes were identified out of 700 kanamycin-resistant transductants. A stable derivative of one of the clones was studied further and contained 12.1-kb of insert DNA. The Aly-coding gene (aly), still partially under the control of its native promoter, was localised within a 1.95-kb HindIII fragment by transposon gamma delta mutagenesis and sub-cloning. Most of the Aly produced was secreted into the medium by both the original K. pneumoniae strain (71.7%) and the E. coli recombinant clones (85.1%). The enzyme from both K. pneumoniae and the E. coli clones had a pI of 8.9 and comprised a single 28-kDa polypeptide chain. Other minor bands were also observed on isoelectric focusing and these were attributed to processing intermediates of a single gene product. It is concluded that E. coli can recognise and process the signal peptide of Aly to produce a mature polypeptide that is identical to that synthesised by K. pneumoniae.