Expression of a PKR dominant-negative mutant in myogenic cells interferes with the myogenic process.

In this study, we explored the possibility that PKR, a dsRNA-activated regulatory protein, is an essential component in the differentiation program of myogenic cells in vitro. For this purpose, we used a retroviral expression vector pMV7, harboring the PKR dominant-negative mutant PKRDelta6 (pMV7-p68Delta6). Murine C2C12 myogenic cells were transfected either with pMV7 or with pMV7-p68Delta6. Neomycin-resistant clones from both types were isolated and expanded and the results obtained with the representative clones C2-NEO (transfected with pMV7) and clone 17 and clone 22 (both transfected with pMV7-p68Delta6) are presented. In clone 17 and 22 cells, regardless of IFN treatment, a similar level of the transfected human p68 PKR mutant was detected. This protein was absent in C2-NEO cells. In parallel, in all types of cells, a low basal level of the endogenous murine p65 PKR protein was observed, which was further induced by IFN. However, PKR enzymatic activity was significantly induced by IFN only in C2-NEO cells, while it was hardly detected in both clones 17 and 22, even after IFN treatment. Furthermore, in contrast to C2-NEO cells, only a slight to moderate increase in enzymatic activity was observed in clone 17 and 22 differentiating cells. Next, cells were grown either in growth medium (GM) or differentiation medium (DM), and the progression of the myogenic program was studied. An inhibition in myotube formation in clone 17 versus C2-NEO cells cultivated in DM was clearly observed. Furthermore, while the growth rate and thymidine incorporation were reduced in C2-NEO cells grown in DM, both clone 17 and 22 cells were less affected under the same conditions. Similarly, a delay in the accumulation of the transcription factors MyoD and myogenin, as well as in creatine kinase activity and accumulation of troponin T, was detected in DM-cultivated clone 17 and clone 22 cells. Moreover, a delay in the induction of p21 (WAF1), in down-regulation of cyclin D1 and c-myc, and in the accumulation of the underphosphorylated form of pRb was also observed in clone 17 cells. We conclude that inhibition of endogenous PKR activity by a PKR dominant-negative mutant interferes with the myogenic program of murine C2C12 myogenic cells.

Involvement of PKR in the regulation of myogenesis.

The involvement of the double-stranded RNA-activated protein kinase PKR in the regulation of the myogenic process was investigated. For this purpose, the murine myogenic cell line C2C12 was used. The cells were first cultivated in either growth medium or differentiation medium (DM), and the activation of PKR during differentiation was determined by monitoring its enzymatic activity and by immunoblot analysis. A significant increase in both parameters was detected already at 24 h in DM, whereas in cells grown in growth medium, the increase was evident only after 96 h, when spontaneous differentiation was observed in highly crowded cultures. Consequently, we established the direct effect of PKR activation on the myogenic process. C2C12 cells were transfected with an expression vector harboring a cDNA molecule encoding human PKR fused to the inducible metallothionein promoter. One of the clones (clone 8) expressing high levels of PKR was selected and further analyzed. In the presence of ZnCl2, which activates the promoter, the rate of cell growth of the transfected cells was clearly reduced compared to that of wild-type C2C12 cells transfected with only the neomycin-resistant gene (C2-NEO). In addition, altered morphology with partial fusion was observed. Biochemically, an increase in creatine kinase activity accompanied by an increased rate of expression of the myogenic protein troponin T and the myogenic transcription factors myoD and myogenin was detected in clone 8 cells exposed to ZnCl2. Most importantly, an induction in the level of cyclin-dependent kinase inhibitor p21WAF1 and an increase in the level of the underphosphorylated active form of the tumor suppressor protein pRb concomitant with the down-regulation of cyclin D1 and c-myc were also evident in the transfected clones. These changes were similar to those observed in normal C2C12 cells cultivated in DM. We conclude that PKR is an important regulatory protein participating in the myogenic process.

Ectopic expression of 2-5A synthetase in myeloid cells induces growth arrest and facilitates the appearance of a myeloid differentiation marker.

Two variants of the human myeloid leukemia cell line HL-60 were used to study the possible involvement of the IFN-induced protein 2-5A synthetase in cell growth arrest and differentiation. The two variants, HL-205 and HL-525, are equally susceptible to differentiation to the granulocyte lineage by exposure to DMSO, but only HL-205 cells acquire the macrophage phenotype following exposure to phorbol esters. The kinetics of 2-5A synthetase activity was established in both variants exposed to either DMSO or phorbol 12-myristate 13-acetate. With DMSO treatment, 2-5A synthetase activity was markedly induced in both variants, although with slightly different kinetics. With phorbol 12-myristate 13-acetate treatment, 2-5A enzymatic activity increased only in HL-205; no activity was detected up to 96 h after treatment in HL-525. The induction of 2-5A synthetase activity is apparently alpha/beta-IFN dependent, because only antibodies directed against a mixture of alpha- and beta-IFN completely abolished the increase in activity detected during differentiation of HL-205 cells. To directly establish the role of 2-5A synthetase in differentiation, HL-205 cells were transfected with an expression vector harboring the cDNA for the 43-kDa isoform of murine 2-5A synthetase fused to the inducible metallothionein promoter. Two clones, clone 6, which yielded a low level of 2-5A synthetase activity in response to ZnCl2 (which activates the promoter), and clone 7, which was a high responder, were further analyzed and compared with the control clone, neo. Reductions in the rates of cell growth and thymidine incorporation were observed with both clone 6 and clone 7 cells exposed to ZnCl2; clone 7 was more responsive. In addition, the level of c-myc-specific RNA transcript was greatly reduced in ZnCl2 or beta-IFN-treated clone 7 cells, whereas the neo cells responded similarly only after beta-IFN treatment. Treatment of clone-neo cells with beta-IFN resulted in conversion of pRb protein from the phosphorylated to the underphosphorylated form within 24 h; ZnCl2 had no effect, even after 72 h. In contrast, the accumulation of the underphosphorylated form of pRb was observed in clone 7 cells treated either with beta-IFN or ZnCl2. Finally, a significant increase in nitro blue tetrazolium-positive cells, an indication of differentiation, was evident with ZnCl2-treated clone 6 and clone 7 cells; no such increase was observed with clone-neo cells under similar conditions. We conclude that ectopic expression of 2-5A synthetase in HL-205 cells results in cell growth arrest and facilitates the appearance of a myeloid differentiation marker.

Inhibition of 2-5A synthetase expression by antisense RNA interferes with interferon-mediated antiviral and antiproliferative effects and induces anchorage-independent cell growth.

It has been shown previously that the IFN-induced enzyme 2-5A synthetase is sufficient to induce antiviral and antiproliferative effects in transfected cells expressing the protein. In this study, the possibility that this enzyme is also essential in generating these biological activities was investigated. For this purpose, a plasmid, pMSas-NEO, was constructed. This plasmid carries an active neomycin-resistant gene. In addition, it contains a metallothionein promoter fused to an inverted 180-bp fragment derived from the 5' end of cDNA encoding the 43-kDa isoform of murine 2-5A synthetase. NIH/3T3 mouse fibroblasts were transfected with the plasmid, about 50 neomycin-resistant clones were isolated, and two, clone 11 and clone 22, were chosen for further studies. One clone transfected only with the neomycin-resistant gene, clone Neo, was used as a control. The results show that in the case of clone 11, the combined treatment of IFN and ZnCl2 reduced significantly the level of the IFN-induced 2-5A synthetase activity, the amount of the 40-, 43-, and 71-kDa 2-5A synthetase isoforms and the level of the 1.7-kb specific RNA transcript. An even stronger effect on these parameters was observed with clone 22 cells. No difference in PKR activity was evident under the same conditions with all three clones tested. Most important, the combined treatment of IFN and ZnCl2 reversed the IFN-mediated antiproliferative and antiviral activities, as determined by the kinetics of cell growth, thymidine incorporation, cloning efficiency, and infection with mengovirus. Strikingly, the growth of colonies in soft agar were observed in both clone 11 (small colonies) and clone 22 (large colonies) cells, particularly following treatment with ZnCl2. We conclude that 2-5A synthetase is an essential component in the IFN-induced biological activities and that interference with its function results in anchorage-independent growth of the transfected cells.