Programmed cell death (PCD) is a conserved cellular process during animal development. In Caenorhabditis elegans (C. elegans), transcriptional up-regulation of egl-1/BH-3-only gene promotes most somatic cell deaths, but tail-spike cell uses an alternative mechanism to initiate PCD where PAL-1, a transcription factor, binds to ced-3 promoter and re-initiates ced-3 transcription to promote tail-spike cell death, demonstrating that cell death onset could be egl-1-independent. Yet, little is understood about the temporal control mechanism of cell death in the absence of egl-1. Previously, our lab found that BLMP-1, a zinc finger transcriptional repressor, is required for the tail-spike death. The expression of BLMP-1 in tail-spike cell was observed just before its death, indicating that the timing of blmp-1 expression is tightly controlled and important for tail-spike cell death. To understand the role of blmp-1 in PCD, we looked for its downstream effectors. Our genetic analysis revealed that the abnormal survival of tail-spike cell in the blmp-1 mutant required ced-9/bcl-2. In addition, using dGFP transcriptional reporter in ced-3(n717) mutants as a death defective background which allow tail-spike cell to survive, we found that ced-9 is expressed in tail-spike cells just before its death. Moreover, ced-9 transcription persists in the tail spike cell in ced-3(n717); blmp-1(RNAi). These data indicated that ced-9 was repressed by blmp-1. While two paired box (Pax) transcription factors, pax-2 and egl-38, promote ced-9 transcription to protect cell from death in germline cells, we found that they were not involved in blmp-1-mediated tail-spike cell death, raising the possibility that blmp-1 may regulate ced-9 transcription directly. In support of this, the ced-9 promoter contains a potential BLMP-1 binding site. We employed electrophoretic mobility shift assay(EMSA) to test if BLMP-1 is able to bind to ced-9 promoter, we found that BLMP-1 Zn finger protein is able to bind to ced-9 promoter to mediate tail-spike cell death. DRE-1, the F-box protein of SCF (Skp1-Cullin-F-box protein) ubiquitin ligase complex, is previously identified to promote the tail-spike death through ced-9. Our epistasis analysis suggested that dre-1 acts in parallel of blmp-1 to promote the tail-spike cell. Taken together, we have characterized the position of blmp-1 in the core program cell death pathway. Our results provide a temporal regulatory mechanism of PCD through ced-9.