2020
DOI: 10.15252/embr.201949117
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Hexokinase 2 displacement from mitochondria‐associated membranes prompts Ca 2+ ‐dependent death of cancer cells

Abstract: Cancer cells undergo changes in metabolic and survival pathways that increase their malignancy. Isoform 2 of the glycolytic enzyme hexokinase (HK2) enhances both glucose metabolism and resistance to death stimuli in many neoplastic cell types. Here, we observe that HK2 locates at mitochondria-endoplasmic reticulum (ER) contact sites called MAMs (mitochondria-associated membranes). HK2 displacement from MAMs with a selective peptide triggers mitochondrial Ca 2+ overload caused by Ca 2+ release from ER via inosi… Show more

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Cited by 83 publications
(72 citation statements)
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“…While no difference was found in cells bathed in mKRB containing CaCl 2 (1 mM) (CTRL = 100 ± 7%, n = 26; ORAI2 = 112 ± 6%, n = 31, p = 0.11), ORAI2 overexpression almost doubled the resting Ca 2+ level of cells bathed in KCl-mKRB, containing high CaCl 2 (10 mM) (CTRL = 100 ± 13%, n = 31; ORAI2 = 176 ± 14.0%, n = 32, p < 0.001). However, due to the intrinsic low sensitivity of cytAEQ in reporting resting Ca 2+ levels, this issue was also investigated with nuclear-targeted GCaMP6 (H2B-GCaMP6), a probe with higher Ca 2+ affinity with respect to cytAEQ and a very large dynamic range (K d = 375 nM) [ 65 ], whose signal is synchronized with the cytosolic one [ 66 ]. In mKRB containing CaCl 2 (1 mM), ORAI2 overexpression caused a large increase in basal Ca 2+ levels ( Figure S6A ), as estimated by the ratio change occurring at rest upon addition of EGTA ( ΔR = R Ca −R EGTA ), being equal to 0.7 ± 0.2 and 12.4 ± 1.7 for CTRL and ORAI2 expressing cells, respectively ( p < 0.001).…”
Section: Resultsmentioning
confidence: 99%
“…While no difference was found in cells bathed in mKRB containing CaCl 2 (1 mM) (CTRL = 100 ± 7%, n = 26; ORAI2 = 112 ± 6%, n = 31, p = 0.11), ORAI2 overexpression almost doubled the resting Ca 2+ level of cells bathed in KCl-mKRB, containing high CaCl 2 (10 mM) (CTRL = 100 ± 13%, n = 31; ORAI2 = 176 ± 14.0%, n = 32, p < 0.001). However, due to the intrinsic low sensitivity of cytAEQ in reporting resting Ca 2+ levels, this issue was also investigated with nuclear-targeted GCaMP6 (H2B-GCaMP6), a probe with higher Ca 2+ affinity with respect to cytAEQ and a very large dynamic range (K d = 375 nM) [ 65 ], whose signal is synchronized with the cytosolic one [ 66 ]. In mKRB containing CaCl 2 (1 mM), ORAI2 overexpression caused a large increase in basal Ca 2+ levels ( Figure S6A ), as estimated by the ratio change occurring at rest upon addition of EGTA ( ΔR = R Ca −R EGTA ), being equal to 0.7 ± 0.2 and 12.4 ± 1.7 for CTRL and ORAI2 expressing cells, respectively ( p < 0.001).…”
Section: Resultsmentioning
confidence: 99%
“…Such molecules include antimycotic drug clotrimazole [83], pyruvate analogue 3-bromopyruvate [84], and the plant stress hormone methyl jasmonate, which all induce detachment of HK from VDAC and stimulate apoptosis [85]. In addition, a selective peptide was shown to dislocate HK from MAMs in colon and breast cancer cells, and consequently to induce mitochondria Ca 2+ overload [86]. With respect to ANT, its association with VDAC is disrupted by arsenites, ionidamine, and steroid analogs [87].…”
Section: Mercs Modulator Class I: Targeting Mercs Structural Componentsmentioning
confidence: 99%
“…The relationship between glycolysis and Ca 2+ is complex. In addition to the ATP-dependent regulation of Ca 2+ pumps, the physical association of glycolytic intermediates with Ca 2+ transporters modulates Ca 2+ homeostasis, while changes in the subcellular localization of glycolytic enzymes influence cell fate by impacting Ca 2+ homeostasis (Ciscato et al, 2020). Future investigations should focus on the cellular compartmentalization of metabolic intermediates as demonstrated for Ca 2+ .…”
Section: Resultsmentioning
confidence: 99%
“…In several cancer cells, the specific localization of the glycolytic enzyme hexokinase-2 (HK2) at mitochondria-ER contact sites [called mitochondria-associated ER membranes (MAMs)] prevents mitochondrial Ca 2+ overload, permeability transition pore (mPTP) opening and cell death by preventing ER Ca 2+ release through IP3R (Ciscato et al, 2020; Figure 1A). HK2 can also bind VDAC in the outer mitochondrial membrane (OMM) (Azoulay-Zohar et al, 2004;Shoshan-Barmatz et al, 2009).…”
Section: Calcium -Glucose Metabolism Interplay Ca 2+ Regulation and Gmentioning
confidence: 99%