We have shown that TGF-beta plays an important role during the period of developmental cell death in the nervous system. Immunoneutralization of TGF-beta prevents ontogenetic neuron death in vivo. Like neurons, oligodendrocytes are generated in excess and eliminated by apoptosis. It has been shown that oligodendrocyte progenitors and newly formed oligodendrocytes are especially susceptible to apoptosis. We choose the oligodendrocyte precursor cell line OLI-neu to address the question if TGF-beta could play a role for the control of oligodendrocyte proliferation and cell death. Flow cytometric analysis revealed that OLI-neu cells arrested in the G1 phase of the cell cycle underwent apoptosis in response to TGF-beta. TUNEL assays, apoptosis ELISA, and caspase assays substantiated the finding that OLI-neu cells died after TGF-beta treatment. Cell death could be inhibited by application of pan-caspase or caspase 8 and 9 inhibitors, whereas the inhibition of calpain was unaffected. Furthermore, we found a reduction of bcl-X(L) at the protein as well as at the mRNA level, while p27 was upregulated. The Smad cascade was activated while TGF-beta reduced the activity of the p42/p44 MAP kinase pathway. Together, these data show that TGF-beta induced apoptotic cell death in cells of oligodendroglial origin, whereby the signaling cascade involved the downregulation of antiapoptotic signaling such as bcl-X(L) leading to the activation of caspases.
Transforming growth factor-beta (TGF-beta) plays an important role during the period of developmental cell death in the nervous system. Using the oligodendroglial precursor cell line OLI-neu, we have previously established an in vitro system to analyze TGF-beta-mediated cell death on the molecular level. We could show that the Krüppel-like Zn-finger transcription factor TIEG1 was up-regulated after TGF-beta stimulation of OLI-neu cells and mimicked TGF-beta effects in these cells; i.e., overexpression of TIEG1 in OLI-neu cells induced apoptosis as shown by apoptosis ELISA, DNA fragmentation, and caspases-3 activation. The apoptotic pathway seemed to be initiated by repressing the expression of the antiapoptotic protein Bcl-XL. In contrast, the reporter activity of a SMAD consensus promoter was induced, whereas the promoter activity of the inhibitory SMAD7 was reduced, suggesting that SMAD-dependent TGF-beta responses, such as TGF-beta-induced apoptosis, are enhanced in the presence of TIEG1.
As shown previously, transforming growth factor-beta (TGF-beta) plays an important role during the period of developmental cell death in the nervous system. As with neurons, oligodendrocytes are generated in excess and eliminated by apoptosis. The present study was aimed at investigating the possible interaction of TGF-beta with tumor necrosis factor-alpha (TNF-alpha) in the regulation of cell death in oligodendroglial precursor cells and analyzing the underlying signaling mechanisms. We show that both factors induce apoptosis independently, but cooperate when applied together. The investigation of the signaling events revealed an important role of the JNK pathway during induction of apoptosis. TGF-beta seemed to be more efficient at inducing a release in cytochrome c from mitochondria than TNF-alpha. This might be the consequence of decreased Bcl-xL levels observed in cells treated with TGF-beta but not with TNF-alpha. Both factors stimulated caspase-3 activity, which could be inhibited by caspase-8 or caspase-9 inhibitors. Therefore, we conclude that TNF-alpha and TGF-beta affect partially common pathways but also regulate different steps in the apoptotic cascade.
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