The present study demonstrates differential regulation of three members of the TNF family, lymphotoxin (LT), LT-beta, and TNF-alpha, by activated murine T cell clones. We report for the first time that murine T cells transcribe LT-beta mRNA in the absence of any activating signal. Activation through the TCR by anti-CD3 did not increase the accumulation of LT-beta mRNA but did increase the accumulation of two species of TNF-alpha mRNA and three species of LT mRNA. We determined that anti-CD3-activated T cells differ in their regulation of LT, LT-beta, and TNF-alpha at the transcriptional and post-transcriptional levels. Anti-CD3 activation resulted in substantial increases in the extent of transcription of the TNF-alpha and LT genes, although with different rates. LT mRNA accumulation was also post-transcriptionally regulated by anti-CD3. In anti-CD3-activated T cells, the t1/2 of LT mRNA was three to four times longer than that of TNF-alpha mRNA. LT-beta mRNA decayed at a rate similar to that of LT mRNA. We also noted a dramatic difference in the cycloheximide sensitivity of LT, LT-beta, and TNF-alpha mRNAs. Cycloheximide superinduced the accumulation of LT mRNA, but not that of TNF-alpha and LT-beta mRNA, post-transcriptionally. Thus, this study demonstrates dramatic differences in the molecular mechanisms of regulation of LT, LT-beta, and TNF-alpha. It also indicates that LT production is probably the rate-limiting step in the formation of the LT-LT-beta complex. These differences suggest that the reason for the redundancy of LT, LT-beta, and TNF-alpha is their differential regulation rather than their functions.
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