Human Bak Induces Cell Death in <i>Schizosaccharomyces pombe</i> with Morphological Changes Similar to Those with Apoptosis in Mammalian Cells

Ink, B.; Zörnig, Martin; Baum, Buzz; Hajibagheri, Nasser; James, Claerwen; Chittenden, Thomas; Evan, Gérard I.

doi:10.1128/mcb.17.5.2468

Cited by 130 publications

(120 citation statements)

References 44 publications

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“…Here, we successfully performed a functional analysis of five canine Bcl-2 family members in this model organism, namely the pro-apoptotic members Bak and Bax and the anti-apoptotic members Bcl-w, BclxL and Mcl-1. As previously described for the human and/or murine orthologs (Ink et al, 1997;Tao et al, 1997;Ligr et al, 1998), expression of canine Bak and Bax showed a lethal effect in yeast. Moreover, this effect was abrogated on co-expression of the anti-apoptotic members Bcl-xL, Mcl-1 and Bcl-w as previously demonstrated for large part of their human orthologs in yeast (Tao et al, 1997;Beaumont et al, 2013).…”

Section: Discussionsupporting

confidence: 61%

Sequence and partial functional analysis of canine Bcl-2 family proteins

Brot

Schade

Croci

et al. 2016

Research in Veterinary Science

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Dogs present with spontaneous neoplasms biologically similar to human cancers. Apoptotic pathways are deregulated during cancer genesis and progression and are important for therapy.We have assessed the degree of conservation of a set of canine Bcl-2 family members with the human and murine orthologs. To this end, seven complete canine open reading frames were cloned in this family, four of which are novel for the dog, their sequences were analyzed, and their functional interactions were studied in yeasts. We found a high degree of overall and domain sequence homology between canine and human proteins. It was slightly higher than between murine and human proteins. Functional interactions between canine pro-apoptotic Bax and Bak and anti-apoptotic Bcl-xL, Bcl-w, and Mcl-1 were recapitulated in yeasts. Our data provide support for the notion that systems based on canine-derived proteins might faithfully reproduce Bcl-2 family member interactions known from other species and establish the yeast as a useful tool for functional studies.

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Section: Discussionsupporting

confidence: 61%

Sequence and partial functional analysis of canine Bcl-2 family proteins

Brot

Schade

Croci

et al. 2016

Research in Veterinary Science

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“…152 Yeast can be killed by various means such as oxidative stress, metabolic block, irradiation and other toxic substances, but cell death does not resemble apoptosis and there is no endogenous expression of known apoptosis regulators of the CED-3/caspase, CED-4 or Bcl-2/Bax families. Nevertheless, forced overexpression of Bax, Bak or CED-4 provokes vacuolarization and focal chromatin c o n d en s at i o n a s s ee n i n m am m al i an a po p t osis, 28,150,151,154,155 indicating these death factors can indeed provoke a caspase-independent form of apoptosis via components that are already present in a unicellular organism. To identify these components, a mammalian expression cDNA library has recently been screened for clones that rescue yeast from Bax-mediated cell death.…”

Section: Execution Of Caspase-independent Apoptosis: Scissor Instead mentioning

confidence: 99%

Apoptosis without caspases: an inefficient molecular guillotine?

1999

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Since the discovery that the cysteine protease CED-3 was essential for developmental death in the nematode C. elegans, the search has been on to identify homologous proteases governing mammalian apoptosis. Fourteen of these proteases, now called caspases, have been found to date, and studies with natural or chemical inhibitors, and more recently knock-out mice, confirmed the involvement of at least a subset of these proteases in various forms of mammalian apoptosis. However, there has been recent evidence that some apoptotic morphologies, such as cell shrinkage, membrane blebbing and nuclear condensation, are not blocked by caspase inhibitors and that the cells continue to die in a protracted and inefficient manner. This has led to the notion that caspases are not required for all aspects of apoptosis in mammals. Here we review the current knowledge about caspase-independent apoptosis, discuss the strengths and weaknesses of the reasoning that led to its proposition and provide insights into its possible regulation and physiological significance.

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“…Transfection of yeast cells (Saccharomyces cerevisiae or Schizosaccharomyces pombe), whose entire genome is sequenced and lacks Bcl-2-like proteins, has shown that Bax and Bak clearly have a killer activity which can be neutralized by simultaneous expression of Bcl-2 or Bcl-X L (Table 4) (Ink et al, 1997;Jurgensmeier et al, 1997;Manon et al, 1997;Sato et al, 1994;Torgler et al, 1997;Zha et al, 1996a). Physical interaction between Bcl-2 and Bax is not required for the Bcl-2-mediated inhibition of Bax-induced apoptosis (Zha and Reed, 1997).…”

Section: Group Of E Ects Observation Referencesmentioning

confidence: 99%

“…Note that certain Bcl-2 homology regions (BH1 through BH4, in solid) or C-terminal hydrophobic membrane insertion sequences (tinted) are missing in determined members of the family. Some structural features (a domains) and functions determined by cristallographic or mutational analysis are indicated (Longo et al, 1997) Bcl-X L ; Mcl-1; A1 Prevent Bax/Bak-mediated killing (Manon et al, 1997;Sato et al, 1994;Tao et al, 1997) S. Pombe Bax Cell killing with chromatin condensation and vacuolization (Jurgensmeier et al, 1997) Bak Slow growth phenotype and killing with chromatic condensation and lamin dissolution (Ink et al, 1997;Jurgensmeier et al, 1997;Torgler et al, 1997) Bcl-X L , Bcl-2 Prevent Bax/Bak-mediated e ects (Jurgensmeier et al, 1997;Ink et al, 1997;Torgler et al, 1997) CED-4 Causes chromatin condenstaion and death CED-9 Prevents CED-4-induced death lular distribution of di erent members of the Bcl-2 family can depend on the cell type as well as on the family member. Thus, Bcl-2, Bcl-X L , Bax, and the Epstein ± Barr virus gene product BHRF tend to be particularly abundant in the outer mitochondrial membrane (Cory, 1995;Gonzalez-Garcia et al, 1994;Krajewski et al, 1993;Reed, 1994;Riparbelli et al, 1995;Yang and Korsmeyer, 1996;Zha et al, 1996a).…”

Section: Predominant Localization To Intracellular Membranesmentioning

confidence: 99%

Subcellular and submitochondrial mode of action of Bcl-2-like oncoproteins

et al. 1998

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Bcl-2 is the prototype of a class of oncogenes which regulates apoptosis. Bcl-2-related gene products with either death-promoting and death-inhibitory activity are critically involved in numerous disease states and thus constitute prime targets for therapeutic interventions. The relative amount of death agonists and antagonists from the Bcl-2 family constitutes a regulatory rheostat whose function is determined, at least in part, by selective protein-protein interactions. Bcl-2 and its homologs insert into intracellular membranes including mitochondria, the endoplasmatic reticulum and the nuclear envelope. Many of the molecular genetic, ultrastructural, crystallographic and functional studies suggest that Bcl-2-related molecules exert their apoptosis-regulatory e ects via regulating mitochondrial alterations preceding the activation of apoptogenic proteases and nucleases. Via a direct e ect on mitochondrial membranes, Bcl-2 prevents all hallmarks of the early stage of apoptosis including disruption of the inner mitochondrial transmembrane potential and the release of apoptogenic protease activators from mitochondria. The mitochondrial permeability transition (PT) pore, also called mitochondrial megachannel or multiple conductance channel, is a multiprotein complex formed at the contact site between the mitochondrial inner and outer membranes, exactly at the same localization at which Bax, Bcl-2, and Bcl-X L are particularly abundant. The PT pore participates in the regulation of matrix Ca 2+ , pH, DC m , and volume and functions as a Ca 2+ -, voltage-, pH-, and redox-gated channel with several levels of conductance and little if any ion selectivity. Experiments involving the puri®ed PT pore complex indicate that Bax, Bcl-2, and Bcl-X L exert at least part of their apoptosis-regulatory function by facilitating (Bax) or inhibiting (Bcl-2, Bcl-X L ) PT pore opening. These ®ndings clarify the principal (but not exclusive) mechanism of Bcl-2-mediated cytoprotection.

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Human Bak Induces Cell Death in Schizosaccharomyces pombe with Morphological Changes Similar to Those with Apoptosis in Mammalian Cells

Cited by 130 publications

References 44 publications

Sequence and partial functional analysis of canine Bcl-2 family proteins

Sequence and partial functional analysis of canine Bcl-2 family proteins

Apoptosis without caspases: an inefficient molecular guillotine?

Subcellular and submitochondrial mode of action of Bcl-2-like oncoproteins

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