Summary
The proteasome constitutes the central proteolytic component of the highly conserved ubiquitin–proteasome system, which is required for the maintenance and regulation of basic cellular processes, including differentiation, proliferation, cell cycling, gene transcription and apoptosis. Here we show that inhibition of proteasomal proteolytic activity by the proteasome inhibitors bortezomib and lactacystin suppresses essential immune functions of human CD4+ T cells activated by allogeneic dendritic cells (DCs). In activated CD4+ T cells, proteasome inhibition induces apoptosis accompanied by rapid accumulation and stabilization of the tumour suppressor protein p53. Activated CD4+ T cells surviving proteasome inhibition undergo inhibition of proliferation by induction of G1 phase cell‐cycle arrest. Induction of G1 arrest is accompanied by the accumulation of cyclin‐dependent kinase inhibitors p21WAF1/CIP1 and p27KIP1 and the disappearance of cyclin A, cyclin D2 and proliferating cell nuclear antigen, proteins known to regulate G1 to S phase cell‐cycle transitions. Expression of the activation‐associated cell surface receptors CD25, CD28, CD120b and CD134 as well as production of interferon‐γ (IFN‐γ), tumour necrosis factor‐α (TNF‐α), interleukin‐4 (IL‐4) and IL‐5 is suppressed in response to proteasome inhibition in CD4+ T cells activated by DCs. Expression of CD25, IFN‐γ, TNF‐α, IL‐4 and IL‐5 is known to be mediated by the transcriptional activity of nuclear factor of activated T cells (NFAT), and we show here that proteasome inhibition suppresses activation and nuclear translocation of NFATc2 in activated CD4+ T cells. Thus, the proteasome is required for essential immune functions of activated CD4+ T cells and can be defined as a molecular target for the suppression of deregulated and unwanted T‐cell‐mediated immune responses.
The proteasome is the main protease for extralysosomal protein degradation in eukaryotic cells, and constitutes a sophisticated high molecular mass proteinase complex underlying a tightly coordinated expression and assembly of multiple subunits and subcomplexes. Here we show that continuous inhibition of proteasomal chymotrypsin-like peptidase activity by the proteasome inhibitor bortezomib induces in human Namalwa Burkitt lymphoma cells increased de novo biogenesis of proteasomes accompanied by increased expression of the proteasome maturation protein POMP, increased expression of 19S-20S-19S proteasomes, and abrogation of expression of beta 1i, beta 2i and beta 5i immunosubunits and PA28 in favor of increased expression of constitutive proteolytic beta1, beta2 and beta 5 subunits and 19S regulatory complexes. These alterations of proteasome expression and subunit composition are accompanied by an increase in proteasomal caspase-like, trypsin-like and chymotrypsin-like peptidase activities, not inhibitable by high doses of bortezomib. Cells harboring these proteasomal alterations display rapid proliferation and cell cycle progression, and acquire resistance to apoptosis induced by proteasome inhibitors, gamma-irradiation and staurosporine. This acquired apoptosis resistance is accompanied by de novo expression of anti-apoptotic Hsp27 protein and the loss of ability to accumulate and stabilize pro-apoptotic p53 protein. Thus, increased expression, altered subunit composition and increased activity of proteasomes constitute a hitherto unknown adaptive and autoregulatory feedback mechanism to allow cells to survive the lethal challenge of proteasome inhibition and to establish a hyperproliferative and apoptosis-resistant phenotype.
A dose of only 0.75 x 10(6) CD34+ cells per kg guarantees hematopoietic recovery within a reasonable number of days. To initiate a leukapheresis from which enough progenitor cells may confidently be obtained, a minimum of 5 CD34+ cells per microL in PB is required.
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