Mutational Analysis of the Caenorhabditis elegans Cell-Death Gene ced-3

Mutational Analysis of the Caenorhabditis elegans Cell-Death Gene ced-3

Shai Shaham^a, Peter W. Reddien^a, Brian Davies^a, and H. Robert Horvitz^a
^a Howard Hughes Medical Institute, Department of Biology, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139

Corresponding author: H. Robert Horvitz, Howard Hughes Medical Institute, Department of Biology, Room 68-425, Massachusetts Institute of Technology, 77 Massachusetts Ave., Cambridge, MA 02139.

Communicating editor: R. K. HERMAN

Mutations in the gene ced-3, which encodes a protease similarto interleukin-1ß converting enzyme and related proteinstermed caspases, prevent programmed cell death in the nematodeCaenorhabditis elegans. We used site-directed mutagenesis todemonstrate that both the presumptive active-site cysteine ofthe CED-3 protease and the aspartate residues at sites of processingof the CED-3 proprotein are required for programmed cell deathin vivo. We characterized the phenotypes caused by and the molecularlesions of 52 ced-3 alleles. These alleles can be ordered ina graded phenotypic series. Of the 30 amino acid sites alteredby ced-3 missense mutations, 29 are conserved with at leastone other caspase, suggesting that these residues define sitesimportant for the functions of all caspases. Animals homozygousfor the ced-3(n2452) allele, which is deleted for the regionof the ced-3 gene that encodes the protease domain, seemed tobe incompletely blocked in programmed cell death, suggestingthat some programmed cell death can occur independently of CED-3protease activity.

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