Pseudopterosin and <i>O</i>-Methyltylophorinidine Suppress Cell Growth in a 3D Spheroid Co-Culture Model of Pancreatic Ductal Adenocarcinoma

Pseudopterosin and <i>O</i>-Methyltylophorinidine Suppress Cell Growth in a 3D Spheroid Co-Culture Model of Pancreatic Ductal Adenocarcinoma

Current therapies for treating pancreatic ductal adenocarcinoma (PDAC) are largely ineffective, with the desmoplastic environment established within these tumors being considered a central issue. We established a 3D spheroid co-culture in vitro model using a PDAC cell line (either PANC-1 or Capan-2)...

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Main Authors: Bailu Xie, Jan Hänsel, Vanessa Mundorf, Janina Betz, Irene Reimche, Mert Erkan, Ibrahim Büdeyri, Anne Gesell, Russell G. Kerr, Ni Putu Ariantari, Haiqian Yu, Peter Proksch, Nicole Teusch, Randall J. Mrsny
Format: Article
Language:English
Published: MDPI AG 2020-06-01
Series:Bioengineering
Subjects:
3D co-culture
spheroid
stellate cells
PDAC
pancreatic ductal adenocarcinoma
tumor microenvironment
Online Access:https://www.mdpi.com/2306-5354/7/2/57
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spelling doaj-aee05bbd4668452992caa19650fc000f2020-11-25T02:46:57ZengMDPI AGBioengineering2306-53542020-06-017575710.3390/bioengineering7020057Pseudopterosin and <i>O</i>-Methyltylophorinidine Suppress Cell Growth in a 3D Spheroid Co-Culture Model of Pancreatic Ductal AdenocarcinomaBailu Xie0Jan Hänsel1Vanessa Mundorf2Janina Betz3Irene Reimche4Mert Erkan5Ibrahim Büdeyri6Anne Gesell7Russell G. Kerr8Ni Putu Ariantari9Haiqian Yu10Peter Proksch11Nicole Teusch12Randall J. Mrsny13Department of Pharmacy and Pharmacology, University of Bath, Bath BA2 7AY, UKDepartment of Biomedical Sciences, Institute of Health Research and Education, University of Osnabrück, 49074 Osnabrück, GermanyTechnische Hochschule Köln, University of Technology, Arts and Sciences, 50678 Köln, GermanyTechnische Hochschule Köln, University of Technology, Arts and Sciences, 50678 Köln, GermanyDepartment of Biomedical Sciences, Institute of Health Research and Education, University of Osnabrück, 49074 Osnabrück, GermanyDepartment of Surgery, School of Medicine, Koç University, Sarıyer/İstanbul 34450, TurkeyKoç University Research Center for Translational Medicine, 34450 Istanbul, TurkeyMaterial and Chemical Characterization Facility, University of Bath, Bath BA2 7AY, UKDepartment of Chemistry, and Department of Biomedical Sciences, Atlantic Veterinary College, University of Prince Edward Island, Charlottetown, PE C1A 4P3, CanadaInstitute of Pharmaceutical Biology and Biotechnology, Heinrich-Heine University Düsseldorf, 40225 Düsseldorf, GermanyInstitute of Pharmaceutical Biology and Biotechnology, Heinrich-Heine University Düsseldorf, 40225 Düsseldorf, GermanyInstitute of Pharmaceutical Biology and Biotechnology, Heinrich-Heine University Düsseldorf, 40225 Düsseldorf, GermanyDepartment of Biomedical Sciences, Institute of Health Research and Education, University of Osnabrück, 49074 Osnabrück, GermanyDepartment of Pharmacy and Pharmacology, University of Bath, Bath BA2 7AY, UKCurrent therapies for treating pancreatic ductal adenocarcinoma (PDAC) are largely ineffective, with the desmoplastic environment established within these tumors being considered a central issue. We established a 3D spheroid co-culture in vitro model using a PDAC cell line (either PANC-1 or Capan-2), combined with stellate cells freshly isolated from pancreatic tumors (PSC) or hepatic lesions (HSC), and human type I collagen to analyze the efficiency of the chemotherapeutic gemcitabine (GEM) as well as two novel drug candidates derived from natural products: pseudopterosin (PsA-D) and <i>O</i>-methyltylophorinidine (TYLO). Traditional 2D in vitro testing of these agents for cytotoxicity on PANC-1 demonstrated IC<sub>50</sub> values of 4.6 (±0.47) nM, 34.02 (±1.35) µM, and 1.99 (± 0.13) µM for Tylo, PsA-D, and GEM, respectively; these values were comparable for Capan-2: 5.58 (±1.74) nM, 33.94 (±1.02) µM, and 0.41 (±0.06) µM for Tylo, PsA-D, and GEM, respectively. Importantly, by assessing the extent of viable cells within 3D co-culture spheroids of PANC-1 with PSC or HSC, we could demonstrate a significant lack of efficacy for GEM, while TYLO remained active and PsA-D showed slightly reduced efficacy: GEM in PANC-1/PSC (IC<sub>50</sub> = >100 µM) or PANC-1/HSC (IC<sub>50</sub> = >100 µM) spheroids, TYLO in PANC-1/PSC (IC<sub>50</sub> = 3.57 ± 1.30 nM) or PANC-1/HSC (IC<sub>50</sub> = 6.39 ± 2.28 nM) spheroids, and to PsA-D in PANC-1/PSC (IC<sub>50</sub> = 54.42 ± 12.79 µM) or PANC-1/HSC (IC<sub>50</sub> = 51.75 ± 0.60 µM). Microscopic 3D rendering supported these cytotoxicity outcomes, showing little or no morphological spheroid structure change during this period of rapid cell death. Our results support the use of this 3D spheroid co-culture in vitro model having a desmoplastic microenvironment for the identification of possible novel chemotherapeutic drug candidates for PDAC, such as TYLO and PsA-D.https://www.mdpi.com/2306-5354/7/2/573D co-culturespheroidstellate cellsPDACpancreatic ductal adenocarcinomatumor microenvironment
collection DOAJ
language English
format Article
sources DOAJ
author Bailu Xie
Jan Hänsel
Vanessa Mundorf
Janina Betz
Irene Reimche
Mert Erkan
Ibrahim Büdeyri
Anne Gesell
Russell G. Kerr
Ni Putu Ariantari
Haiqian Yu
Peter Proksch
Nicole Teusch
Randall J. Mrsny
spellingShingle Bailu Xie
Jan Hänsel
Vanessa Mundorf
Janina Betz
Irene Reimche
Mert Erkan
Ibrahim Büdeyri
Anne Gesell
Russell G. Kerr
Ni Putu Ariantari
Haiqian Yu
Peter Proksch
Nicole Teusch
Randall J. Mrsny
Pseudopterosin and <i>O</i>-Methyltylophorinidine Suppress Cell Growth in a 3D Spheroid Co-Culture Model of Pancreatic Ductal Adenocarcinoma
Bioengineering
3D co-culture
spheroid
stellate cells
PDAC
pancreatic ductal adenocarcinoma
tumor microenvironment
author_facet Bailu Xie
Jan Hänsel
Vanessa Mundorf
Janina Betz
Irene Reimche
Mert Erkan
Ibrahim Büdeyri
Anne Gesell
Russell G. Kerr
Ni Putu Ariantari
Haiqian Yu
Peter Proksch
Nicole Teusch
Randall J. Mrsny
author_sort Bailu Xie
title Pseudopterosin and <i>O</i>-Methyltylophorinidine Suppress Cell Growth in a 3D Spheroid Co-Culture Model of Pancreatic Ductal Adenocarcinoma
title_short Pseudopterosin and <i>O</i>-Methyltylophorinidine Suppress Cell Growth in a 3D Spheroid Co-Culture Model of Pancreatic Ductal Adenocarcinoma
title_full Pseudopterosin and <i>O</i>-Methyltylophorinidine Suppress Cell Growth in a 3D Spheroid Co-Culture Model of Pancreatic Ductal Adenocarcinoma
title_fullStr Pseudopterosin and <i>O</i>-Methyltylophorinidine Suppress Cell Growth in a 3D Spheroid Co-Culture Model of Pancreatic Ductal Adenocarcinoma
title_full_unstemmed Pseudopterosin and <i>O</i>-Methyltylophorinidine Suppress Cell Growth in a 3D Spheroid Co-Culture Model of Pancreatic Ductal Adenocarcinoma
title_sort pseudopterosin and <i>o</i>-methyltylophorinidine suppress cell growth in a 3d spheroid co-culture model of pancreatic ductal adenocarcinoma
publisher MDPI AG
series Bioengineering
issn 2306-5354
publishDate 2020-06-01
description Current therapies for treating pancreatic ductal adenocarcinoma (PDAC) are largely ineffective, with the desmoplastic environment established within these tumors being considered a central issue. We established a 3D spheroid co-culture in vitro model using a PDAC cell line (either PANC-1 or Capan-2), combined with stellate cells freshly isolated from pancreatic tumors (PSC) or hepatic lesions (HSC), and human type I collagen to analyze the efficiency of the chemotherapeutic gemcitabine (GEM) as well as two novel drug candidates derived from natural products: pseudopterosin (PsA-D) and <i>O</i>-methyltylophorinidine (TYLO). Traditional 2D in vitro testing of these agents for cytotoxicity on PANC-1 demonstrated IC<sub>50</sub> values of 4.6 (±0.47) nM, 34.02 (±1.35) µM, and 1.99 (± 0.13) µM for Tylo, PsA-D, and GEM, respectively; these values were comparable for Capan-2: 5.58 (±1.74) nM, 33.94 (±1.02) µM, and 0.41 (±0.06) µM for Tylo, PsA-D, and GEM, respectively. Importantly, by assessing the extent of viable cells within 3D co-culture spheroids of PANC-1 with PSC or HSC, we could demonstrate a significant lack of efficacy for GEM, while TYLO remained active and PsA-D showed slightly reduced efficacy: GEM in PANC-1/PSC (IC<sub>50</sub> = >100 µM) or PANC-1/HSC (IC<sub>50</sub> = >100 µM) spheroids, TYLO in PANC-1/PSC (IC<sub>50</sub> = 3.57 ± 1.30 nM) or PANC-1/HSC (IC<sub>50</sub> = 6.39 ± 2.28 nM) spheroids, and to PsA-D in PANC-1/PSC (IC<sub>50</sub> = 54.42 ± 12.79 µM) or PANC-1/HSC (IC<sub>50</sub> = 51.75 ± 0.60 µM). Microscopic 3D rendering supported these cytotoxicity outcomes, showing little or no morphological spheroid structure change during this period of rapid cell death. Our results support the use of this 3D spheroid co-culture in vitro model having a desmoplastic microenvironment for the identification of possible novel chemotherapeutic drug candidates for PDAC, such as TYLO and PsA-D.
topic 3D co-culture
spheroid
stellate cells
PDAC
pancreatic ductal adenocarcinoma
tumor microenvironment
url https://www.mdpi.com/2306-5354/7/2/57
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