The endoplasmic reticulum gateway to apoptosis by Bcl-XL modulation of the InsP3R

White, Carl; Li, Chi; Yang, Jun; Petrenko, Nataliya; Madesh, Muniswamy; Thompson, Craig B.; Foskett, J. Kevin

doi:10.1038/ncb1302

Cited by 392 publications

(463 citation statements)

References 32 publications

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“…Recombinant expression (or addition to the patch pipette) of Bax prevented the effect of Bcl-X L , both in terms of its binding to the IP3R and of capacity of modifying the sensitivity to IP3. 79 The results differ from a previous paper by the Distelhorst group that showed that Bcl-2 reduces the opening probability of IP3Rs inserted into lipid bilayers. 53 As to the mechanism, the Foskett-Thompson paper proposes a direct modulatory role on IP3R (through protein-protein interaction between the two proteins) rather than a phosphorylation event, based on the timing after Bcl-X L addition and the experimental conditions employed (nonpermissive for phosphorylation).…”

Section: Direct Molecular Interaction With Er Channelsmentioning

(Expert classified)

“…80 Finally, the Foskett-Thompson paper, by looking at sensitivity to apoptosis of DT40 cells in which all three IP3R isoforms had been deleted, shows that basal activation of the IP3R not only partially depletes the Ca 2 þ store but also provides a 'survival' signal per se (possibly by activating mitochondrial metabolism), given that the KO cells are more sensitive to apoptotic challenges than the wild-type cells. 79 Also in this case, given the robust evidence for the role of mitochondrial Ca 2 þ uptake in facilitating PTP opening and proapoptotic mitochondrial changes, it seems fair to conclude that Bcl-2 globally reprogrammes ER Ca 2 þ release and mitochondrial Ca 2 þ loading, as necessary for optimally activating apoptosis (in terms of metabolic requirements as well as prompt release of caspase cofactors into the cytosol).…”

Section: Direct Molecular Interaction With Er Channelsmentioning

confidence: 91%

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Bcl-2 and Ca2+ homeostasis in the endoplasmic reticulum

2006

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Recent data have revealed an unexpected role of Bcl-2 in modulating the steady-state levels and agonist-dependent fluxes of Ca 2 þ ions. Direct monitoring of endoplasmic reticulum (ER) Ca 2 þ concentration with recombinant probes reveals a lower state of filling in Bcl-2-overexpressing cells and a higher leak rate from the organelle. The broader set of indirect data using cytosolic probes reveals a more complex scenario, as in many cases no difference was detected in the Ca 2 þ content of the intracellular pools. At the same time, Ca 2 þ signals have been shown to affect important checkpoints of the apoptotic process, such as mitochondria, thus tuning the sensitivity of cells to various challenges. In this contribution, we will review (i) the data on the effect of Bcl-2 on [Ca 2 þ ] er , (ii) the functional significance of the Ca 2 þ -signalling alteration and (iii) the current insight into the possible mechanisms of this effect.

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Section: Direct Molecular Interaction With Er Channelsmentioning

(Expert classified)

Section: Direct Molecular Interaction With Er Channelsmentioning

confidence: 91%

Bcl-2 and Ca2+ homeostasis in the endoplasmic reticulum

2006

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“…In a second role, Bcl-XL by its association with VDAC, has been shown to regulate flow of ATP/ADP in and out of mitochondria (Vander Heiden et al, 1999). Additionally, Bcl-XL was shown to bind the inositol 1,3,5-triosephosphate receptor in the endoplasmic reticulum resulting in increased cellular apoptotic resistance and enhanced mitochondrial bioenergetics (White et al, 2005). Consequently, there is now a clear relationship established between the cellular energetics and anti-apoptosis proteins in the mitochondria and other cellular compartments including the endoplasmic reticulum.…”

Section: Intertwining Apoptosis and Metabolismmentioning

confidence: 99%

“…The central metabolic role of the mitochondria was initially considered distinct from its contribution to apoptosis. While the functionality of the apoptotic proteins still holds true, it is now evident that these proteins also play roles in the metabolic processes of the mitochondria (see Majors et al, 2007 for a review; White et al, 2005). Furthermore, apoptosis pathway proteins in other organelles within the cell may modulate both apoptosis and metabolism.…”

Section: Introductionmentioning

confidence: 99%

Expression of anti‐apoptosis genes alters lactate metabolism of Chinese Hamster Ovary cells in culture

Dorai

Kyung

Ellis

et al. 2009

Biotech & Bioengineering

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ABSTRACT:In an effort to develop robust Chinese Hamster Ovary host cell lines, a variety of anti-apoptotic genes were over-expressed, either singly or in combination, followed by screening of transfectants for improved cell growth, extended longevity, reduced caspase 3/7 activity, and enhanced mitochondrial membrane potential (MMP). Two particular cell lines, one containing two anti-apoptotic genes, E1B-19K and Aven (EA167), and another containing three, E1B-19K, Aven, and a mutant of XIAP (EAX197), exhibited a reduction in caspase 3 activity of at least 60% and a 170% enhancement in mitochondrial membrane potential compared to controls when treated with staurosporine. In batch cell growth experiments, the peak viable cell densities and viabilities were higher resulting in a 186% increase in integrated viable cell densities. Analyses of metabolite utilization and formation of waste products indicated that the apoptotic resistant cell lines depleted all the lactate when grown in commercially available CD-CHO medium while significant levels (>1.8 g/L) accumulated in the host cell lines. When the lactate level was replenished daily in the apoptotic resistant cell lines, the cell lines consumed lactate and the culture longevity was extended up to four additional days compared to control cell lines. Furthermore, the anti-apoptosis cell lines also accumulated lower levels of ammonia. The ability of the apoptotic resistant cell lines to consume lactate was exploited by cultivating them in a ''high'' glucose medium containing 15 g/L (60 mM glucose) in which apoptotic resistant cell lines exhibited lower maximum lactate (1.8 g/L) compared to control cell lines which accumulated concentrations of lactate (2.2 g/L) that appeared to be deleterious for growth. The shaker flask titer of a therapeutic antibody product expressed in an apoptotic resistant cell line in ''high'' glucose medium reached 690 mg/ L compared to 390 mg/L for a cell line derived from a control host cell line. These results represent to our knowledge the first example in the literature in which manipulation of the apoptosis pathway has altered the nutrient consumption profile of mammalian cells in culture; findings that underscore the interdependence of the apoptotic cellular machinery and metabolism and provide greater flexibility to mammalian bioreactor process development.

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“…A number of studies have demonstrated that members of the BCL-2 family reside not only in the OMM but also in the ER where they have opposing actions in regulating the transfer of ER Ca 2 þ to mitochondria; antiapoptotic members reduce ER Ca 2 þ and pro-apoptotic members promote Ca 2 þ mobilization from the ER to mitochondria during apoptosis, perhaps by regulating of the activity of the ER inositol trisphosphate receptor. [43][44][45] Thus, the action of the PT and BCL-2 family members may be harmonized through the ability of BCL-2 proteins to regulate the levels of ER Ca 2 þ , the key trigger of the mitochondrial PT.…”

Section: An Integrated Modelmentioning

confidence: 99%