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Choline-releasing glycerophosphodiesterase EDI3 drives tumor cell migration and metastasis

Choline-releasing glycerophosphodiesterase EDI3 drives tumor cell migration and metastasis
Choline-releasing glycerophosphodiesterase EDI3 drives tumor cell migration and metastasis
Metastasis from primary tumors remains a major problem for tumor therapy. In the search for markers of metastasis and more effective therapies, the tumor metabolome is relevant because of its importance to the malignant phenotype and metastatic capacity of tumor cells. Altered choline metabolism is a hallmark of cancer. More specifically, a decreased glycerophosphocholine (GPC) to phosphocholine
(PC) ratio was reported in breast, ovarian, and prostate cancers. Improved strategies to exploit this altered choline metabolism are therefore required. However, the critical enzyme cleaving GPC to produce choline, the initial step in the pathway controlling the GPC/PC
ratio, remained unknown. In the present work, we have identified the enzyme, here named EDI3 (endometrial differential 3). Purified recombinant EDI3 protein cleaves GPC to form glycerol-3-phosphate and choline. Silencing EDI3 in MCF-7 cells decreased this enzymatic activity, increased the intracellular GPC/PC ratio, and decreased downstream lipid metabolites. Downregulating EDI3 activity inhibited cell migration via disruption of the PKC? signaling pathway, with stable overexpression of EDI3 showing the opposite effect. EDI3 was originally
identified in our screening study comparing mRNA levels in metastasizing and nonmetastasizing endometrial carcinomas. Both Kaplan–Meier and multivariate analyses revealed a negative association between high EDI3 expression and relapse-free survival time in both endometrial (P < 0.001) and ovarian (P = 0.029) cancers. Overall, we have identified EDI3, a key enzyme controlling GPC and choline
metabolism. Because inhibition of EDI3 activity corrects the GPC/PC ratio and decreases the migration capacity of tumor cells, it represents a possible target for therapeutic intervention.
0027-8424
8155-8160
Stewart, Joanna D
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Marchan, Rosemarie
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Lesjak, Michaela S
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Lambert, Joerg
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Hergenroeder, Roland
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Ellis, James K
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Lau, Chung-Ho
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Keun, Hector C
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Schmitz, Gerd
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Schiller, Juergen
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Eibisch, Mandy
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Hedberg, Christian
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Waldmann, Herbert
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Lausch, Ekkehart
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Tanner, Berno
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Sehouli, Jalid
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Sagemueller, Jens
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Staude, Hagen
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Steiner, Eric
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Hengstler, Jan G
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Stewart, Joanna D
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Marchan, Rosemarie
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Lesjak, Michaela S
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Lambert, Joerg
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Hergenroeder, Roland
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Ellis, James K
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Lau, Chung-Ho
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Keun, Hector C
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Schmitz, Gerd
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Schiller, Juergen
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Eibisch, Mandy
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Hedberg, Christian
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Waldmann, Herbert
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Lausch, Ekkehart
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Tanner, Berno
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Sehouli, Jalid
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Sagemueller, Jens
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Staude, Hagen
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Steiner, Eric
42700cfd-f277-4e21-a791-8da9d408448d
Hengstler, Jan G
20cdc036-fae1-4201-9c52-efcef242a955

Stewart, Joanna D, Marchan, Rosemarie, Lesjak, Michaela S, Lambert, Joerg, Hergenroeder, Roland, Ellis, James K, Lau, Chung-Ho, Keun, Hector C, Schmitz, Gerd, Schiller, Juergen, Eibisch, Mandy, Hedberg, Christian, Waldmann, Herbert, Lausch, Ekkehart, Tanner, Berno, Sehouli, Jalid, Sagemueller, Jens, Staude, Hagen, Steiner, Eric and Hengstler, Jan G (2012) Choline-releasing glycerophosphodiesterase EDI3 drives tumor cell migration and metastasis. Proceedings of the National Academy of Sciences, 109 (21), 8155-8160. (doi:10.1073/pnas.1117654109). (PMID:22570503)

Record type: Article

Abstract

Metastasis from primary tumors remains a major problem for tumor therapy. In the search for markers of metastasis and more effective therapies, the tumor metabolome is relevant because of its importance to the malignant phenotype and metastatic capacity of tumor cells. Altered choline metabolism is a hallmark of cancer. More specifically, a decreased glycerophosphocholine (GPC) to phosphocholine
(PC) ratio was reported in breast, ovarian, and prostate cancers. Improved strategies to exploit this altered choline metabolism are therefore required. However, the critical enzyme cleaving GPC to produce choline, the initial step in the pathway controlling the GPC/PC
ratio, remained unknown. In the present work, we have identified the enzyme, here named EDI3 (endometrial differential 3). Purified recombinant EDI3 protein cleaves GPC to form glycerol-3-phosphate and choline. Silencing EDI3 in MCF-7 cells decreased this enzymatic activity, increased the intracellular GPC/PC ratio, and decreased downstream lipid metabolites. Downregulating EDI3 activity inhibited cell migration via disruption of the PKC? signaling pathway, with stable overexpression of EDI3 showing the opposite effect. EDI3 was originally
identified in our screening study comparing mRNA levels in metastasizing and nonmetastasizing endometrial carcinomas. Both Kaplan–Meier and multivariate analyses revealed a negative association between high EDI3 expression and relapse-free survival time in both endometrial (P < 0.001) and ovarian (P = 0.029) cancers. Overall, we have identified EDI3, a key enzyme controlling GPC and choline
metabolism. Because inhibition of EDI3 activity corrects the GPC/PC ratio and decreases the migration capacity of tumor cells, it represents a possible target for therapeutic intervention.

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Published date: 2012
Organisations: Centre for Biological Sciences

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Local EPrints ID: 355895
URI: http://eprints.soton.ac.uk/id/eprint/355895
ISSN: 0027-8424
PURE UUID: 2561b269-b61d-4667-8a03-9024ee04da69
ORCID for Joanna D Stewart: ORCID iD orcid.org/0000-0002-2608-1967

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Date deposited: 04 Sep 2013 16:44
Last modified: 14 Mar 2024 14:40

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Contributors

Author: Joanna D Stewart ORCID iD
Author: Rosemarie Marchan
Author: Michaela S Lesjak
Author: Joerg Lambert
Author: Roland Hergenroeder
Author: James K Ellis
Author: Chung-Ho Lau
Author: Hector C Keun
Author: Gerd Schmitz
Author: Juergen Schiller
Author: Mandy Eibisch
Author: Christian Hedberg
Author: Herbert Waldmann
Author: Ekkehart Lausch
Author: Berno Tanner
Author: Jalid Sehouli
Author: Jens Sagemueller
Author: Hagen Staude
Author: Eric Steiner
Author: Jan G Hengstler

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