Function of caspases in regulating apoptosis caused by erythropoietin deprivation in erythroid progenitors.

Erythropoietin (EP) is required by late stage erythroid progenitor cells to prevent apoptosis. In a previous study (Gregoli and Bondurant, 1997, Blood 90:630-640), it was shown that rapid proteolytic conversion of procaspase 3 to the fully activated enzyme occurred when erythroblasts were deprived of EP for as little as 2 h. In the present study, protein and mRNA analyses of erythroblasts indicated the presence of the proenzyme precursors of caspases 1, 2, 3, 5, 6, 7, 8, and 9. The effects of various caspase inhibitors on caspase 3 processing and on apoptosis were examined. These inhibitors were benzyloxycarbonyl (z-) and fluoromethyl-ketone (FMK) derivatives of peptides that serve as substrates for selected caspases. z-VAD-FMK, t-butoxycarbonyl-aspartate-FMK (Boc-D-FMK), and z-IETD-FMK blocked the initial cleavage of procaspase 3, while z-DEVD-FMK, z-VEID-FMK, and z-VDVAD-FMK did not block the initial cleavage but had some effect on blocking apoptosis. The peptide inhibitor z-FA-FMK, which inhibits cathepsins B and L but is not known to inhibit caspases, altered caspase 3 processing to a final 19 kDa large subunit that appeared to retain enzymatic activity. The action of z-FA-FMK in preventing the usual conversion to a 1 7 kDa subunit suggests the possibility that a noncaspase protease may be involved in caspase 3 processing. Studies with the peptide inhibitors and EP were done to determine the short- and long-term effectiveness of the caspase inhibitors in protecting EP-deprived cells from apoptosis. Although several of the inhibitors were effective, z-IETD-FMK was studied most extensively because of its specificity for enzymes which cleave procaspase 3 at aspartate 175 (IETD175). Large percentages of EP-deprived erythroblasts treated with z-IETD-FMK appeared morphologically normal and negative by a DNA strand breakage (TUNEL) assay at 24 h (75%) compared to EP-deprived controls (10%) which were not treated with inhibitor. However, inhibitor-treated erythroid progenitors deprived of EP for 24 h and then resupplied with EP showed only a modest improvement in long-term survival compared to cells which did not receive the caspase inhibitor during the 24 h EP deprivation. Thus, while the manifestations of apoptosis were delayed in most cells by inhibiting caspase activity, the processes initiating the loss of cell viability due to EP deprivation were irreparablein the majority of the cells and eventually led to their deaths.

The roles of Bcl-X(L) and apopain in the control of erythropoiesis by erythropoietin.

Erythropoietin (EP) is required by late-stage erythroid progenitor cells to prevent apoptosis. Several lines of evidence suggest that it is this action of EP that regulates erythrocyte production in vivo. To study the control of apoptosis in mouse and human erythroblasts, the expression of members of the Bcl-2 family of proteins and the expression and activation of the apoptosis-linked cysteine protease Yama/CPP32/apopain were examined. These proteins have been implicated as regulators of apoptosis in several cell models. The Bcl-2 family members analyzed were Bcl-2, Bcl-X, Bax, Bad, Bak, A1, and Mcl-1. Bcl-X expression in proerythroblasts was highly EP-dependent. Bcl-X was strongly increased during the terminal differentiation stages of human and mouse erythroblasts, reaching maximum transcript and protein levels at the time of maximum hemoglobin synthesis. This increase in Bcl-X expression led to an apparent level of approximately 50 times the level in proerythroblasts. In contrast, neither mouse nor human erythroblasts expressed Bcl-2 transcript or protein. Bax and Bad proteins remained relatively constant throughout differentiation, but diminished near the time of enucleation. Bak protein was present in early erythroblasts, but diminished progressively during differentiation. EP deprivation in both mouse and human erythroblasts led to activation of the cysteine protease, apopain, as was indicated by cleavage of the proenzyme into its proteolytically active fragments. Apopain activation was detectable within 2 hours of EP deprivation in mouse erythroblasts. These findings suggest an important role for Bcl-X in late erythroid differentiation and for apopain in apoptosis of erythroblasts caused by deprivation of EP.

Characterization of genes which are transiently expressed during the preaggregative phase of development of Dictyostelium discoideum.

We have identified and characterized three genes, the I genes (I for induced), which are induced during the preaggregative phase of the developmental program of Dictyostelium discoideum. None of these genes are expressed in cells growing vegetatively on bacteria or in axenic broth, and their induction during early development is due to transcriptional activation. Developmental expression of I6, I8, and I11 occurs even in the absence of protein synthesis. Their induction is very rapid and occurs essentially at the onset of development. The expression is transient, peaking between 2 and 4 hr followed by a rapid loss of expression. These characteristics suggest that the induction of I6, I8, and I11 is a primary result of the initiation of development, and thus they represent the first such genes isolated. Although their expression behavior shares these characteristics, examination of their expression under various conditions of development and in a variety of aggregation-deficient mutant strains reveals that the details of the regulation and developmental control of these three genes are distinct.