Abstract 3210
Background
Pancreatic cancer (PC) is a refractory disease and we have not an effective therapeutic strategy yet. Therefore, the development of a new therapeutic procedure is urgently required. Recently, protein tyrosine phosphatase (PTP) has been attracted as a new therapeutic target for some types of cancers. However, the biological significance of PTP in PC has never been elucidated yet. In the present study, to develop effective therapeutic strategy for refractory PC, the biological significance of PTP non-receptor type 3 (PTPN3) in PC is investigated.
Methods
Three pancreatic ductal adenocarcinoma cell (PDAC) lines were used as target cells. Inhibition or overexpression of PTPN3 was performed using PTPN3 siRNA/shRNA and plasmid, respectively. Protein expression was analyzed by western blot and immunostaining. Proliferation assay was performed by MTT assay. Migration and invasion were estimated by time-lapse imaging and matrigel invasion assay. Mice xenograft experiments were performed using BALB/c nude mice. Twenty-three surgically resected human PC specimens were used for immunostaining.
Results
1) PTPN3 is highly expressed in PC cells compared to that in normal pancreatic duct cells by immunostaining. 2) Inhibition of PTPN3 significantly decreased migration and invasion in PDAC through inhibition of epithelial mesenchymal transition (EMT) and matrix metalloproteinase (MMP)-2 expression. 3) PTPN3 inhibition significantly decreased proliferation in vitro in PDAC. 4) PTPN3 overexpression led to increased proliferation, migration and invasion in PDAC. 5) Tumor volume in mice injected with PTPN3-inhibited PDAC was significantly lower than that in control mice. The expressions of Ki-67 and VEGF in PTPN3-inhibited PDAC were lower than those in control. 6) Signaling from PTPN3 was through PI3K and MAPK signaling pathways. 7) When intensity of PTPN3 expression was divided into 2 groups; weak and strong, intensity of PTPN3 expression was positively correlated with tumor size (T factor) and clinical staging.
Conclusions
These results suggest that PTPN3 contributes to the induction of malignant phenotypes of pancreatic cancer and that PTPN3 could be a new effective and specific therapeutic target for PC.
Clinical trial identification
Editorial acknowledgement
Legal entity responsible for the study
Kyushu University Hospital, Cancer Therapy and Research.
Funding
Has not received any funding.
Disclosure
All authors have declared no conflicts of interest.
Resources from the same session
2273 - High performance of serial tumor biopsies in first in human (FIH) phase I trials.
Presenter: Jun Sato
Session: Poster Display session 1
Resources:
Abstract
5933 - Response rates and lesion-level progression patterns of solid tumor patients in an academic phase 1 program: implications for tumor heterogeneity
Presenter: Christopher Chen
Session: Poster Display session 1
Resources:
Abstract
3569 - Clinical Benefit and Response Rate in Early Phase Clinical Trials: First Report from a Single-Institution Study
Presenter: Antonio Marra
Session: Poster Display session 1
Resources:
Abstract
4139 - Patient (pt) selection for immunotherapeutic early-phase clinical trials (ieCTs): a single Phase I Unit experience
Presenter: Matteo Simonelli
Session: Poster Display session 1
Resources:
Abstract
4451 - Improving patient selection for immuno-oncology phase 1 trials: an external validation of five prognostic scores at Claudius Regaud Institute of Toulouse, Oncopôle (IUCT-O).
Presenter: Ghassan Al Darazi
Session: Poster Display session 1
Resources:
Abstract
1696 - Demonstrating the Changing Trends in Phase 1 Clinical Trials
Presenter: Christina Guo
Session: Poster Display session 1
Resources:
Abstract
3202 - Participation of Women in phase 1 oncology clinical trials
Presenter: Laura Vidal
Session: Poster Display session 1
Resources:
Abstract
4518 - Predictors for early trial discontinuation of patients with cancer participating in phase I clinical trials
Presenter: Joeri Douma
Session: Poster Display session 1
Resources:
Abstract
4368 - Safety of Tumor Treating Fields delivery to the torso: Meta analysis from TTFields clinical trials
Presenter: Federica Grosso
Session: Poster Display session 1
Resources:
Abstract
4615 - Proteomic Profiling Identifies Molecular Basis of Adverse Event to BPM31510 Exposure: Rationale for Comprehensive Molecular Pharmacodynamics (PD) in Phase 1 Clinical Trial Design
Presenter: Vivek Subbiah
Session: Poster Display session 1
Resources:
Abstract