Genetic impairment of succinate metabolism disrupts bioenergetic sensing in adrenal neuroendocrine cancer

Genetic impairment of succinate metabolism disrupts bioenergetic sensing in adrenal neuroendocrine cancer

Metabolic dysfunction mutations can impair energy sensing and cause cancer. Loss of function of the mitochondrial tricarboxylic acid (TCA) cycle enzyme subunit succinate dehydrogenase B (SDHB) results in various forms of cancer typified by pheochromocytoma (PC). Here we delineate a signaling cascade...

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Veröffentlicht in:Cell reports (Cambridge) 2022-08, Vol.40 (7), p.111218-111218, Article 111218
Hauptverfasser: Gupta, Priyanka, Strange, Keehn, Telange, Rahul, Guo, Ailan, Hatch, Heather, Sobh, Amin, Elie, Jonathan, Carter, Angela M., Totenhagen, John, Tan, Chunfeng, Sonawane, Yogesh A., Neuzil, Jiri, Natarajan, Amarnath, Ovens, Ashley J., Oakhill, Jonathan S., Wiederhold, Thorsten, Pacak, Karel, Ghayee, Hans K., Meijer, Laurent, Reddy, Sushanth, Bibb, James A.
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Adenylate Kinase - metabolism
AMPK
Animals
cancer bioenergetics
Carcinoma, Neuroendocrine
Cdk5
Cyclin-Dependent Kinase 5 - metabolism
Energy Metabolism
Glycogen Synthase Kinase 3 - metabolism
Mice
neuroendocrine tumor
p53
pheochromocytoma
Phosphorylation
PRKAG2
SDHB
senescence
Succinates
Warburg effect
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container_end_page 111218
container_issue 7
container_start_page 111218
container_title Cell reports (Cambridge)
container_volume 40
creator Gupta, Priyanka
Strange, Keehn
Telange, Rahul
Guo, Ailan
Hatch, Heather
Sobh, Amin
Elie, Jonathan
Carter, Angela M.
Totenhagen, John
Tan, Chunfeng
Sonawane, Yogesh A.
Neuzil, Jiri
Natarajan, Amarnath
Ovens, Ashley J.
Oakhill, Jonathan S.
Wiederhold, Thorsten
Pacak, Karel
Ghayee, Hans K.
Meijer, Laurent
Reddy, Sushanth
Bibb, James A.
description Metabolic dysfunction mutations can impair energy sensing and cause cancer. Loss of function of the mitochondrial tricarboxylic acid (TCA) cycle enzyme subunit succinate dehydrogenase B (SDHB) results in various forms of cancer typified by pheochromocytoma (PC). Here we delineate a signaling cascade where the loss of SDHB induces the Warburg effect, triggers dysregulation of [Ca2+]i, and aberrantly activates calpain and protein kinase Cdk5, through conversion of its cofactor from p35 to p25. Consequently, aberrant Cdk5 initiates a phospho-signaling cascade where GSK3 inhibition inactivates energy sensing by AMP kinase through dephosphorylation of the AMP kinase γ subunit, PRKAG2. Overexpression of p25-GFP in mouse adrenal chromaffin cells also elicits this phosphorylation signaling and causes PC. A potent Cdk5 inhibitor, MRT3-007, reverses this phospho-cascade, invoking a senescence-like phenotype. This therapeutic approach halted tumor progression in vivo. Thus, we reveal an important mechanistic feature of metabolic sensing and demonstrate that its dysregulation underlies tumor progression in PC and likely other cancers. [Display omitted] •Dysfunctional SDHB subunit causes aberrant activation of Cdk5 in pheochromocytoma (PC)•Aberrantly activated Cdk5 dysregulates a GSK3/PRKAG2/AMPKα signaling cascade•p25 overexpression in chromaffin cells and consequent aberrant Cdk5 activity causes PC•Cdk5 inhibition activates AMPK/p53 axis to rescue senescence and block PC progression Gupta et al. describe a signaling cascade by which TCA cycle deficiency inactivates bioenergetic sensing to cause adrenal gland cancer. Animal models and drugs targeting the cascade support the discovery, which suggests an additional explanation for Warburg’s description of cancers as uncontrolled cell proliferation despite metabolic impairment.
doi_str_mv 10.1016/j.celrep.2022.111218
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Loss of function of the mitochondrial tricarboxylic acid (TCA) cycle enzyme subunit succinate dehydrogenase B (SDHB) results in various forms of cancer typified by pheochromocytoma (PC). Here we delineate a signaling cascade where the loss of SDHB induces the Warburg effect, triggers dysregulation of [Ca2+]i, and aberrantly activates calpain and protein kinase Cdk5, through conversion of its cofactor from p35 to p25. Consequently, aberrant Cdk5 initiates a phospho-signaling cascade where GSK3 inhibition inactivates energy sensing by AMP kinase through dephosphorylation of the AMP kinase γ subunit, PRKAG2. Overexpression of p25-GFP in mouse adrenal chromaffin cells also elicits this phosphorylation signaling and causes PC. A potent Cdk5 inhibitor, MRT3-007, reverses this phospho-cascade, invoking a senescence-like phenotype. This therapeutic approach halted tumor progression in vivo. Thus, we reveal an important mechanistic feature of metabolic sensing and demonstrate that its dysregulation underlies tumor progression in PC and likely other cancers. [Display omitted] •Dysfunctional SDHB subunit causes aberrant activation of Cdk5 in pheochromocytoma (PC)•Aberrantly activated Cdk5 dysregulates a GSK3/PRKAG2/AMPKα signaling cascade•p25 overexpression in chromaffin cells and consequent aberrant Cdk5 activity causes PC•Cdk5 inhibition activates AMPK/p53 axis to rescue senescence and block PC progression Gupta et al. describe a signaling cascade by which TCA cycle deficiency inactivates bioenergetic sensing to cause adrenal gland cancer. 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Loss of function of the mitochondrial tricarboxylic acid (TCA) cycle enzyme subunit succinate dehydrogenase B (SDHB) results in various forms of cancer typified by pheochromocytoma (PC). Here we delineate a signaling cascade where the loss of SDHB induces the Warburg effect, triggers dysregulation of [Ca2+]i, and aberrantly activates calpain and protein kinase Cdk5, through conversion of its cofactor from p35 to p25. Consequently, aberrant Cdk5 initiates a phospho-signaling cascade where GSK3 inhibition inactivates energy sensing by AMP kinase through dephosphorylation of the AMP kinase γ subunit, PRKAG2. Overexpression of p25-GFP in mouse adrenal chromaffin cells also elicits this phosphorylation signaling and causes PC. A potent Cdk5 inhibitor, MRT3-007, reverses this phospho-cascade, invoking a senescence-like phenotype. This therapeutic approach halted tumor progression in vivo. Thus, we reveal an important mechanistic feature of metabolic sensing and demonstrate that its dysregulation underlies tumor progression in PC and likely other cancers. [Display omitted] •Dysfunctional SDHB subunit causes aberrant activation of Cdk5 in pheochromocytoma (PC)•Aberrantly activated Cdk5 dysregulates a GSK3/PRKAG2/AMPKα signaling cascade•p25 overexpression in chromaffin cells and consequent aberrant Cdk5 activity causes PC•Cdk5 inhibition activates AMPK/p53 axis to rescue senescence and block PC progression Gupta et al. describe a signaling cascade by which TCA cycle deficiency inactivates bioenergetic sensing to cause adrenal gland cancer. 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subjects Adenylate Kinase - metabolism
AMPK
Animals
cancer bioenergetics
Carcinoma, Neuroendocrine
Cdk5
Cyclin-Dependent Kinase 5 - metabolism
Energy Metabolism
Glycogen Synthase Kinase 3 - metabolism
Mice
neuroendocrine tumor
p53
pheochromocytoma
Phosphorylation
PRKAG2
SDHB
senescence
Succinates
Warburg effect
title Genetic impairment of succinate metabolism disrupts bioenergetic sensing in adrenal neuroendocrine cancer
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