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      Call for Papers: Epidemiology and Health Impacts of Neuroendocrine Tumors

      Submit here before August 30, 2024

      About Neuroendocrinology: 3.2 Impact Factor I 8.3 CiteScore I 1.009 Scimago Journal & Country Rank (SJR)

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      EGFR/TGFα and TGFβ/CTGF Signaling in Neuroendocrine Neoplasia: Theoretical Therapeutic Targets

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          Abstract

          Neuroendocrine neoplasms (NENs) are a heterogeneous family of malignancies whose proliferation is partially dependent on growth factors secreted by the microenvironment and the tumor itself. Growth factors which were demonstrated to be important in experimental models of NENs include EGF (epidermal growth factor), TGF (transforming growth factor) α, TGFβ and CTGF (connective tissue growth factor). EGF and TGFα bind to the EGF receptor to stimulate an intact RAS/RAF/MAPK pathway, leading to the transcription of genes associated with cell proliferation, invasion and metastasis. Theoretically, TGFα stimulation can be inhibited at several points of the MAPK pathway, but success is limited to NEN models and is not evident in the clinical setting. TGFβ<sub>1</sub> stimulates TGFβ receptors (TGFβRI and TGFβRII) resulting in inhibition of neuroendocrine cell growth through SMAD-mediated activation of the growth inhibitor P21<sup>WAF1/CIP1</sup>. Although some NENs are inhibited by TGFβ<sub>1</sub>, paradoxical growth is seen in experimental models of gastric and small intestinal (SI) NENs. Therapeutic targeting of TGFβ<sub>1</sub> in NENs is therefore complicated by uncertainty of the effect of TGFβ<sub>1</sub> secretion on the direction of proliferative regulation. CTGF expression is associated with more malignant clinical phenotypes in a variety of cancers, including NENs. CTGF promotes growth in gastric and SI-NEN models, and is implicated as a mediator of local and distant fibrosis caused by NENs of enterochromaffin cell origin. CTGF inhibitors are available, but their anti-proliferative effect has not been tested in NENs. In summary, growth factors are essential for NEN proliferation, and although interventions targeting these proteins are effective in experimental models, only limited clinical efficacy has been identified.

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          Sunitinib malate for the treatment of pancreatic neuroendocrine tumors.

          Eric Raymond, Laetitia Dahan, Jean-Luc Raoul (2011)
          The multitargeted tyrosine kinase inhibitor sunitinib has shown activity against pancreatic neuroendocrine tumors in preclinical models and phase 1 and 2 trials. We conducted a multinational, randomized, double-blind, placebo-controlled phase 3 trial of sunitinib in patients with advanced, well-differentiated pancreatic neuroendocrine tumors. All patients had Response Evaluation Criteria in Solid Tumors-defined disease progression documented within 12 months before baseline. A total of 171 patients were randomly assigned (in a 1:1 ratio) to receive best supportive care with either sunitinib at a dose of 37.5 mg per day or placebo. The primary end point was progression-free survival; secondary end points included the objective response rate, overall survival, and safety. The study was discontinued early, after the independent data and safety monitoring committee observed more serious adverse events and deaths in the placebo group as well as a difference in progression-free survival favoring sunitinib. Median progression-free survival was 11.4 months in the sunitinib group as compared with 5.5 months in the placebo group (hazard ratio for progression or death, 0.42; 95% confidence interval [CI], 0.26 to 0.66; P<0.001). A Cox proportional-hazards analysis of progression-free survival according to baseline characteristics favored sunitinib in all subgroups studied. The objective response rate was 9.3% in the sunitinib group versus 0% in the placebo group. At the data cutoff point, 9 deaths were reported in the sunitinib group (10%) versus 21 deaths in the placebo group (25%) (hazard ratio for death, 0.41; 95% CI, 0.19 to 0.89; P=0.02). The most frequent adverse events in the sunitinib group were diarrhea, nausea, vomiting, asthenia, and fatigue. Continuous daily administration of sunitinib at a dose of 37.5 mg improved progression-free survival, overall survival, and the objective response rate as compared with placebo among patients with advanced pancreatic neuroendocrine tumors. (Funded by Pfizer; ClinicalTrials.gov number, NCT00428597.).
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            Roles of TGFbeta in metastasis.

            David Padua, Joan Massagué (2009)
            The TGFbeta signaling pathway is conserved from flies to humans and has been shown to regulate such diverse processes as cell proliferation, differentiation, motility, adhesion, organization, and programmed cell death. Both in vitro and in vivo experiments suggest that TGFbeta can utilize these varied programs to promote cancer metastasis through its effects on the tumor microenvironment, enhanced invasive properties, and inhibition of immune cell function. Recent clinical evidence demonstrating a link between TGFbeta signaling and cancer progression is fostering interest in this signaling pathway as a therapeutic target. Anti-TGFbeta therapies are currently being developed and tested in pre-clinical studies. However, targeting TGFbeta carries a substantial risk as this pathway is implicated in multiple homeostatic processes and is also known to have tumor-suppressor functions. Additionally, clinical and experimental results show that TGFbeta has diverse and often conflicting roles in tumor progression even within the same tumor types. The development of TGFbeta inhibitors for clinical use will require a deeper understanding of TGFbeta signaling, its consequences, and the contexts in which it acts.
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              PIK3CA mutations and copy number gains in human lung cancers.

              Hiromasa Yamamoto, Hisayuki Shigematsu, Masaharu Nomura (2008)
              We investigated the frequency and function of mutations and increased copy number of the PIK3CA gene in lung cancers. PIK3CA mutations are one of the most common gene changes present in human cancers. We analyzed the mutational status of exons 9 and 20 and gene copy number of PIK3CA using 86 non-small cell lung cancer (NSCLC) cell lines, 43 small cell lung cancer (SCLC) cell lines, 3 extrapulmonary small cell cancer (ExPuSC) cell lines, and 691 resected NSCLC tumors and studied the relationship between PIK3CA alterations and mutational status of epidermal growth factor receptor (EGFR) signaling pathway genes (EGFR, KRAS, HER2, and BRAF). We also determined PIK3CA expression and activity and correlated the findings with effects on cell growth. We identified mutations in 4.7% of NSCLC cell lines and 1.6% of tumors of all major histologic types. Mutations in cell lines of small cell origin were limited to two ExPuSC cell lines. PIK3CA copy number gains were more frequent in squamous cell carcinoma (33.1%) than in adenocarcinoma (6.2%) or SCLC lines (4.7%). Mutational status of PIK3CA was not mutually exclusive to EGFR or KRAS. PIK3CA alterations were associated with increased phosphatidylinositol 3-kinase activity and phosphorylated Akt expression. RNA interference-mediated knockdown of PIK3CA inhibited colony formation of cell lines with PIK3CA mutations or gains but was not effective in PIK3CA wild-type cells. PIK3CA mutations or gains are present in a subset of lung cancers and are of functional importance.
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                Author and article information

                Journal
                Journal ID (publisher-id): NEN
                Journal ID (nlm-ta): Neuroendocrinology
                Journal ID (doi): 10.1159/issn.0028-3835
                Title: Neuroendocrinology
                Publisher: S. Karger AG
                ISBN: 978-3-318-02296-4
                ISBN: 978-3-318-02297-1
                ISSN (Print): 0028-3835
                ISSN (Electronic): 1423-0194
                Publication date Subscription-year: 2013
                Publication date (Print): February 2013
                Publication date (Electronic): 15 June 2012
                Volume: 97
                Issue: 1
                Pages: 35-44
                Affiliations
                aGastrointestinal Pathobiology Research Group, Department of Gastroenterological Surgery, Yale University School of Medicine, New Haven, Conn., USA; bUniversity Hospital of General, Visceral and Transplantation Surgery, Heidelberg, Germany
                Author notes
                *Irvin M. Modlin, Department of Gastroenterological Surgery, Yale University School of Medicine, 333 Cedar Street, PO Box 208062, New Haven, CT 06520-8062 (USA), Tel. +1 203 785 5429, E-Mail imodlin@optonline.net
                Article
                Publisher ID: 334891 Pmcid ID: PMC3684083 Other ID: Neuroendocrinology 2013;97:35–44
                DOI: 10.1159/000334891
                PMC ID: PMC3684083
                PubMed ID: 22710195
                SO-VID: 10703ab5-3d57-4d72-a51c-5ac007aa5e8f
                Copyright © © 2012 S. Karger AG, Basel
                License:

                Copyright: All rights reserved. No part of this publication may be translated into other languages, reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying, recording, microcopying, or by any information storage and retrieval system, without permission in writing from the publisher. Drug Dosage: The authors and the publisher have exerted every effort to ensure that drug selection and dosage set forth in this text are in accord with current recommendations and practice at the time of publication. However, in view of ongoing research, changes in government regulations, and the constant flow of information relating to drug therapy and drug reactions, the reader is urged to check the package insert for each drug for any changes in indications and dosage and for added warnings and precautions. This is particularly important when the recommended agent is a new and/or infrequently employed drug. Disclaimer: The statements, opinions and data contained in this publication are solely those of the individual authors and contributors and not of the publishers and the editor(s). The appearance of advertisements or/and product references in the publication is not a warranty, endorsement, or approval of the products or services advertised or of their effectiveness, quality or safety. The publisher and the editor(s) disclaim responsibility for any injury to persons or property resulting from any ideas, methods, instructions or products referred to in the content or advertisements.

                History
                Date received : 12 July 2011
                Date accepted : 06 November 2011
                Page count
                Figures: 4, Tables: 1, Pages: 10
                Categories
                Subject: Growth Factors / Receptors

                ScienceOpen disciplines: Endocrinology & Diabetes,Neurology,Nutrition & Dietetics,Sexual medicine,Internal medicine,Pharmacology & Pharmaceutical medicine
                Keywords: CTGF,Neoplasia,EGFR,TGFβ,Neuroendocrine neoplasms,TGFα
                Data availability:
                ScienceOpen disciplines: Endocrinology & Diabetes, Neurology, Nutrition & Dietetics, Sexual medicine, Internal medicine, Pharmacology & Pharmaceutical medicine
                Keywords: CTGF, Neoplasia, EGFR, TGFβ, Neuroendocrine neoplasms, TGFα

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