Cargando…
The differential effects of metronomic gemcitabine and antiangiogenic treatment in patient-derived xenografts of pancreatic cancer: treatment effects on metabolism, vascular function, cell proliferation, and tumor growth
BACKGROUND: Metronomic chemotherapy has shown promising activity against solid tumors and is believed to act in an antiangiogenic manner. The current study describes and quantifies the therapeutic efficacy, and mode of activity, of metronomic gemcitabine and a dedicated antiangiogenic agent (DC101)...
| Autores principales: | , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Springer Netherlands
2016
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4819514/ https://www.ncbi.nlm.nih.gov/pubmed/26961182 http://dx.doi.org/10.1007/s10456-016-9503-z |
| _version_ | 1782425215010078720 |
|---|---|
| author | Yapp, Donald T. Wong, May Q. Kyle, Alastair H. Valdez, Shannon M. Tso, Jenny Yung, Andrew Kozlowski, Piotr Owen, David A. Buczkowski, Andrzej K. Chung, Stephen W. Scudamore, Charles H. Minchinton, Andrew I. Ng, Sylvia S. W. |
| author_facet | Yapp, Donald T. Wong, May Q. Kyle, Alastair H. Valdez, Shannon M. Tso, Jenny Yung, Andrew Kozlowski, Piotr Owen, David A. Buczkowski, Andrzej K. Chung, Stephen W. Scudamore, Charles H. Minchinton, Andrew I. Ng, Sylvia S. W. |
| author_sort | Yapp, Donald T. |
| collection | PubMed |
| description | BACKGROUND: Metronomic chemotherapy has shown promising activity against solid tumors and is believed to act in an antiangiogenic manner. The current study describes and quantifies the therapeutic efficacy, and mode of activity, of metronomic gemcitabine and a dedicated antiangiogenic agent (DC101) in patient-derived xenografts of pancreatic cancer. METHODS: Two primary human pancreatic cancer xenograft lines were dosed metronomically with gemcitabine or DC101 weekly. Changes in tumor growth, vascular function, and metabolism over time were measured with magnetic resonance imaging, positron emission tomography, and immunofluorescence microscopy to determine the anti-tumor effects of the respective treatments. RESULTS: Tumors treated with metronomic gemcitabine were 10-fold smaller than those in the control and DC101 groups. Metronomic gemcitabine, but not DC101, reduced the tumors’ avidity for glucose, proliferation, and apoptosis. Metronomic gemcitabine-treated tumors had higher perfusion rates and uniformly distributed blood flow within the tumor, whereas perfusion rates in DC101-treated tumors were lower and confined to the periphery. DC101 treatment reduced the tumor’s vascular density, but did not change their function. In contrast, metronomic gemcitabine increased vessel density, improved tumor perfusion transiently, and decreased hypoxia. CONCLUSION: The aggregate data suggest that metronomic gemcitabine treatment affects both tumor vasculature and tumor cells continuously, and the overall effect is to significantly slow tumor growth. The observed increase in tumor perfusion induced by metronomic gemcitabine may be used as a therapeutic window for the administration of a second drug or radiation therapy. Non-invasive imaging could be used to detect early changes in tumor physiology before reductions in tumor volume were evident. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1007/s10456-016-9503-z) contains supplementary material, which is available to authorized users. |
| format | Online Article Text |
| id | pubmed-4819514 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2016 |
| publisher | Springer Netherlands |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-48195142016-04-10 The differential effects of metronomic gemcitabine and antiangiogenic treatment in patient-derived xenografts of pancreatic cancer: treatment effects on metabolism, vascular function, cell proliferation, and tumor growth Yapp, Donald T. Wong, May Q. Kyle, Alastair H. Valdez, Shannon M. Tso, Jenny Yung, Andrew Kozlowski, Piotr Owen, David A. Buczkowski, Andrzej K. Chung, Stephen W. Scudamore, Charles H. Minchinton, Andrew I. Ng, Sylvia S. W. Angiogenesis Original Paper BACKGROUND: Metronomic chemotherapy has shown promising activity against solid tumors and is believed to act in an antiangiogenic manner. The current study describes and quantifies the therapeutic efficacy, and mode of activity, of metronomic gemcitabine and a dedicated antiangiogenic agent (DC101) in patient-derived xenografts of pancreatic cancer. METHODS: Two primary human pancreatic cancer xenograft lines were dosed metronomically with gemcitabine or DC101 weekly. Changes in tumor growth, vascular function, and metabolism over time were measured with magnetic resonance imaging, positron emission tomography, and immunofluorescence microscopy to determine the anti-tumor effects of the respective treatments. RESULTS: Tumors treated with metronomic gemcitabine were 10-fold smaller than those in the control and DC101 groups. Metronomic gemcitabine, but not DC101, reduced the tumors’ avidity for glucose, proliferation, and apoptosis. Metronomic gemcitabine-treated tumors had higher perfusion rates and uniformly distributed blood flow within the tumor, whereas perfusion rates in DC101-treated tumors were lower and confined to the periphery. DC101 treatment reduced the tumor’s vascular density, but did not change their function. In contrast, metronomic gemcitabine increased vessel density, improved tumor perfusion transiently, and decreased hypoxia. CONCLUSION: The aggregate data suggest that metronomic gemcitabine treatment affects both tumor vasculature and tumor cells continuously, and the overall effect is to significantly slow tumor growth. The observed increase in tumor perfusion induced by metronomic gemcitabine may be used as a therapeutic window for the administration of a second drug or radiation therapy. Non-invasive imaging could be used to detect early changes in tumor physiology before reductions in tumor volume were evident. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1007/s10456-016-9503-z) contains supplementary material, which is available to authorized users. Springer Netherlands 2016-03-09 2016 /pmc/articles/PMC4819514/ /pubmed/26961182 http://dx.doi.org/10.1007/s10456-016-9503-z Text en © The Author(s) 2016 Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. |
| spellingShingle | Original Paper Yapp, Donald T. Wong, May Q. Kyle, Alastair H. Valdez, Shannon M. Tso, Jenny Yung, Andrew Kozlowski, Piotr Owen, David A. Buczkowski, Andrzej K. Chung, Stephen W. Scudamore, Charles H. Minchinton, Andrew I. Ng, Sylvia S. W. The differential effects of metronomic gemcitabine and antiangiogenic treatment in patient-derived xenografts of pancreatic cancer: treatment effects on metabolism, vascular function, cell proliferation, and tumor growth |
| title | The differential effects of metronomic gemcitabine and antiangiogenic treatment in patient-derived xenografts of pancreatic cancer: treatment effects on metabolism, vascular function, cell proliferation, and tumor growth |
| title_full | The differential effects of metronomic gemcitabine and antiangiogenic treatment in patient-derived xenografts of pancreatic cancer: treatment effects on metabolism, vascular function, cell proliferation, and tumor growth |
| title_fullStr | The differential effects of metronomic gemcitabine and antiangiogenic treatment in patient-derived xenografts of pancreatic cancer: treatment effects on metabolism, vascular function, cell proliferation, and tumor growth |
| title_full_unstemmed | The differential effects of metronomic gemcitabine and antiangiogenic treatment in patient-derived xenografts of pancreatic cancer: treatment effects on metabolism, vascular function, cell proliferation, and tumor growth |
| title_short | The differential effects of metronomic gemcitabine and antiangiogenic treatment in patient-derived xenografts of pancreatic cancer: treatment effects on metabolism, vascular function, cell proliferation, and tumor growth |
| title_sort | differential effects of metronomic gemcitabine and antiangiogenic treatment in patient-derived xenografts of pancreatic cancer: treatment effects on metabolism, vascular function, cell proliferation, and tumor growth |
| topic | Original Paper |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4819514/ https://www.ncbi.nlm.nih.gov/pubmed/26961182 http://dx.doi.org/10.1007/s10456-016-9503-z |
| work_keys_str_mv | AT yappdonaldt thedifferentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT wongmayq thedifferentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT kylealastairh thedifferentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT valdezshannonm thedifferentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT tsojenny thedifferentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT yungandrew thedifferentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT kozlowskipiotr thedifferentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT owendavida thedifferentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT buczkowskiandrzejk thedifferentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT chungstephenw thedifferentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT scudamorecharlesh thedifferentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT minchintonandrewi thedifferentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT ngsylviasw thedifferentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT yappdonaldt differentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT wongmayq differentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT kylealastairh differentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT valdezshannonm differentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT tsojenny differentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT yungandrew differentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT kozlowskipiotr differentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT owendavida differentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT buczkowskiandrzejk differentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT chungstephenw differentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT scudamorecharlesh differentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT minchintonandrewi differentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth AT ngsylviasw differentialeffectsofmetronomicgemcitabineandantiangiogenictreatmentinpatientderivedxenograftsofpancreaticcancertreatmenteffectsonmetabolismvascularfunctioncellproliferationandtumorgrowth |