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Protein kinase C inhibitors override ZEB1-induced chemoresistance in HCC

Protein kinase C inhibitors override ZEB1-induced chemoresistance in HCC
Protein kinase C inhibitors override ZEB1-induced chemoresistance in HCC

Epithelial-mesenchymal transition (EMT) is a process by which tumour cells lose epithelial characteristics, become mesenchymal and highly motile. EMT pathways also induce stem cell features and resistance to apoptosis. Identifying and targeting this pool of tumour cells is a major challenge. Protein kinase C (PKC) inhibition has been shown to eliminate breast cancer stem cells but has never been assessed in hepatocellular cancer (HCC). We investigated ZEB family of EMT inducer expression as a biomarker for metastatic HCC and evaluated the efficacy of PKC inhibitors for HCC treatment. We showed that ZEB1 positivity predicted patient survival in multiple cohorts and also validated as an independent biomarker of HCC metastasis. ZEB1-expressing HCC cell lines became resistant to conventional chemotherapeutic agents and were enriched in CD44high/CD24low cell population. ZEB1- or TGFβ-induced EMT increased PKCα abundance. Probing public databases ascertained a positive association of ZEB1 and PKCα expression in human HCC tumours. Inhibition of PKCα activity by small molecule inhibitors or by PKCA knockdown reduced viability of mesenchymal HCC cells in vitro and in vivo. Our results suggest that ZEB1 expression predicts survival and metastatic potential of HCC. Chemoresistant/mesenchymal HCC cells become addicted to PKC pathway and display sensitivity to PKC inhibitors such as UCN-01. Stratifying patients according to ZEB1 and combining UCN-01 with conventional chemotherapy may be an advantageous chemotherapeutic strategy.

2041-4889
Sreekumar, Rahul
8b93c7c3-060d-465c-8142-2037dd68768a
Emaduddin, Muhammad
1c4f1035-e6f8-44e9-89c5-5ccb4ef72d1b
Al-Saihati, Hajir
9d4239e9-6da5-412e-8cff-7aa125c0d438
Moutasim, Karwan
af7dd711-f6df-44f7-8c57-052bf15303af
Chan, James
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Spampinato, Marcello
e583d696-37a1-40a2-b3b2-8baa926dabaa
Bhome, Rahul
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Yuen, Ho Ming
b1df4c57-0c2a-44ac-ab40-22b88e8effe8
Mescoli, Claudia
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Vitale, Alessandro
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Cillo, Umberto
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Rugge, Massimo
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Primrose, John
d85f3b28-24c6-475f-955b-ec457a3f9185
Hilal, Mohammad Abu
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Thirdborough, Stephen
161784fb-c8e3-4beb-86b1-cd8bc8ddf8de
Tulchinsky, Eugene
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Thomas, Gareth
2ff54aa9-a766-416b-91ee-cf1c5be74106
Mirnezami, Alex
b3c7aee7-46a4-404c-bfe3-f72388e0bc94
Sayan, A Emre
d1dbbcad-9c53-47c1-8b7e-1b45cc56e077
Sreekumar, Rahul
8b93c7c3-060d-465c-8142-2037dd68768a
Emaduddin, Muhammad
1c4f1035-e6f8-44e9-89c5-5ccb4ef72d1b
Al-Saihati, Hajir
9d4239e9-6da5-412e-8cff-7aa125c0d438
Moutasim, Karwan
af7dd711-f6df-44f7-8c57-052bf15303af
Chan, James
2d501ded-7d51-41f5-a65b-215a9c11768d
Spampinato, Marcello
e583d696-37a1-40a2-b3b2-8baa926dabaa
Bhome, Rahul
d7b1e0d3-5925-460a-871d-5f52f69c649b
Yuen, Ho Ming
b1df4c57-0c2a-44ac-ab40-22b88e8effe8
Mescoli, Claudia
247e8d57-83c6-452a-860f-f48e41ba4771
Vitale, Alessandro
5db0a266-49f4-4faa-8135-5c0767edbb44
Cillo, Umberto
3b5d8132-098f-4e0c-8507-51f35311d119
Rugge, Massimo
c1de6d80-cb46-476f-83b9-9407d5201763
Primrose, John
d85f3b28-24c6-475f-955b-ec457a3f9185
Hilal, Mohammad Abu
384e1c60-8519-4eed-8e92-91775aad4c47
Thirdborough, Stephen
161784fb-c8e3-4beb-86b1-cd8bc8ddf8de
Tulchinsky, Eugene
f0b81c60-c1cd-480b-936b-56bcd383e419
Thomas, Gareth
2ff54aa9-a766-416b-91ee-cf1c5be74106
Mirnezami, Alex
b3c7aee7-46a4-404c-bfe3-f72388e0bc94
Sayan, A Emre
d1dbbcad-9c53-47c1-8b7e-1b45cc56e077

Sreekumar, Rahul, Emaduddin, Muhammad, Al-Saihati, Hajir, Moutasim, Karwan, Chan, James, Spampinato, Marcello, Bhome, Rahul, Yuen, Ho Ming, Mescoli, Claudia, Vitale, Alessandro, Cillo, Umberto, Rugge, Massimo, Primrose, John, Hilal, Mohammad Abu, Thirdborough, Stephen, Tulchinsky, Eugene, Thomas, Gareth, Mirnezami, Alex and Sayan, A Emre (2019) Protein kinase C inhibitors override ZEB1-induced chemoresistance in HCC. Cell Death and Disease, 10 (10), [702]. (doi:10.1038/s41419-019-1885-6).

Record type: Article

Abstract

Epithelial-mesenchymal transition (EMT) is a process by which tumour cells lose epithelial characteristics, become mesenchymal and highly motile. EMT pathways also induce stem cell features and resistance to apoptosis. Identifying and targeting this pool of tumour cells is a major challenge. Protein kinase C (PKC) inhibition has been shown to eliminate breast cancer stem cells but has never been assessed in hepatocellular cancer (HCC). We investigated ZEB family of EMT inducer expression as a biomarker for metastatic HCC and evaluated the efficacy of PKC inhibitors for HCC treatment. We showed that ZEB1 positivity predicted patient survival in multiple cohorts and also validated as an independent biomarker of HCC metastasis. ZEB1-expressing HCC cell lines became resistant to conventional chemotherapeutic agents and were enriched in CD44high/CD24low cell population. ZEB1- or TGFβ-induced EMT increased PKCα abundance. Probing public databases ascertained a positive association of ZEB1 and PKCα expression in human HCC tumours. Inhibition of PKCα activity by small molecule inhibitors or by PKCA knockdown reduced viability of mesenchymal HCC cells in vitro and in vivo. Our results suggest that ZEB1 expression predicts survival and metastatic potential of HCC. Chemoresistant/mesenchymal HCC cells become addicted to PKC pathway and display sensitivity to PKC inhibitors such as UCN-01. Stratifying patients according to ZEB1 and combining UCN-01 with conventional chemotherapy may be an advantageous chemotherapeutic strategy.

Text
s41419-019-1885-6 - Version of Record
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Accepted/In Press date: 26 July 2019
Published date: 23 September 2019

Identifiers

Local EPrints ID: 435556
URI: http://eprints.soton.ac.uk/id/eprint/435556
DOI: doi:10.1038/s41419-019-1885-6
ISSN: 2041-4889
PURE UUID: e9c909d0-3b77-45b4-8b9e-b81aa0165e7f
ORCID for Rahul Bhome: ORCID iD orcid.org/0000-0001-7143-4939
ORCID for John Primrose: ORCID iD orcid.org/0000-0002-2069-7605
ORCID for A Emre Sayan: ORCID iD orcid.org/0000-0002-5291-1485

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Date deposited: 11 Nov 2019 17:30
Last modified: 17 Mar 2024 03:31

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Contributors

Author: Rahul Sreekumar
Author: Muhammad Emaduddin
Author: Hajir Al-Saihati
Author: Karwan Moutasim
Author: James Chan
Author: Marcello Spampinato
Author: Rahul Bhome ORCID iD
Author: Ho Ming Yuen
Author: Claudia Mescoli
Author: Alessandro Vitale
Author: Umberto Cillo
Author: Massimo Rugge
Author: John Primrose ORCID iD
Author: Mohammad Abu Hilal
Author: Stephen Thirdborough
Author: Eugene Tulchinsky
Author: Gareth Thomas
Author: Alex Mirnezami
Author: A Emre Sayan ORCID iD

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