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      Apaf1 (CED-4 Homolog) Regulates Programmed Cell Death in Mammalian Development

      Author(s): ,   , , ,
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      Journal: Cell
      Publisher: Elsevier BV

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          Abstract

          The cytosolic protein APAF1, human homolog of C. elegans CED-4, participates in the CASPASE 9 (CASP9)-dependent activation of CASP3 in the general apoptotic pathway. We have generated by gene trap a null allele of the murine Apaf1. Homozygous mutants die at embryonic day 16.5. Their phenotype includes severe craniofacial malformations, brain overgrowth, persistence of the interdigital webs, and dramatic alterations of the lens and retina. Homozygous embryonic fibroblasts exhibit reduced response to various apoptotic stimuli. In situ immunodetection shows that the absence of Apaf1 protein prevents the activation of Casp3 in vivo. In agreement with the reported function of CED-4 in C. elegans, this phenotype can be correlated with a defect of apoptosis. Our findings suggest that Apaf1 is essential for Casp3 activation in embryonic brain and is a key regulator of developmental programmed cell death in mammals.

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          Apaf-1, a human protein homologous to C. elegans CED-4, participates in cytochrome c-dependent activation of caspase-3.

          Hua Zou, William Henzel, Xuesong Liu (1997)
          We report here the purification and cDNA cloning of Apaf-1, a novel 130 kd protein from HeLa cell cytosol that participates in the cytochrome c-dependent activation of caspase-3. The NH2-terminal 85 amino acids of Apaf-1 show 21% identity and 53% similarity to the NH2-terminal prodomain of the Caenorhabditis elegans caspase, CED-3. This is followed by 320 amino acids that show 22% identity and 48% similarity to CED-4, a protein that is believed to initiate apoptosis in C. elegans. The COOH-terminal region of Apaf-1 comprises multiple WD repeats, which are proposed to mediate protein-protein interactions. Cytochrome c binds to Apaf-1, an event that may trigger the activation of caspase-3, leading to apoptosis.
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            Programmed cell death in animal development.

            Michael Jacobson, Miguel Weil, Martin Raff (1997)
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              The ancient regulatory-protein family of WD-repeat proteins.

              E J Neer, C J Schmidt, R Nambudripad (1994)
              WD proteins are made up of highly conserved repeating units usually ending with Trp-Asp (WD). They are found in all eukaryotes but not in prokaryotes. They regulate cellular functions, such as cell division, cell-fate determination, gene transcription, transmembrane signalling, mRNA modification and vesicle fusion. Here we define the common features of the repeating units, and criteria for grouping such proteins into functional subfamilies.
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                Author and article information

                Journal
                Title: Cell
                Abbreviated Title: Cell
                Publisher: Elsevier BV
                ISSN (Print): 00928674
                Publication date Created: September 1998
                Publication date (Print): September 1998
                Volume: 94
                Issue: 6
                Pages: 727-737
                Article
                DOI: 10.1016/S0092-8674(00)81732-8
                PubMed ID: 9753320
                SO-VID: 2a980f47-bb41-406a-ac44-c35027ae79ba
                Copyright © © 1998
                License:

                https://www.elsevier.com/tdm/userlicense/1.0/

                http://creativecommons.org/licenses/by-nc-nd/4.0/

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