Permeability changes and effect of chemotherapy in brain adjacent to tumor in an experimental model of metastatic brain tumor from breast cancer

Permeability changes and effect of chemotherapy in brain adjacent to tumor in an experimental model of metastatic brain tumor from breast cancer

Abstract Background Brain tumor vasculature can be significantly compromised and leakier than that of normal brain blood vessels. Little is known if there are vascular permeability alterations in the brain adjacent to tumor (BAT). Changes in BAT permeability may also lead to increased drug permeatio...

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Main Authors: Afroz S. Mohammad, Chris E. Adkins, Neal Shah, Rawaa Aljammal, Jessica I. G. Griffith, Rachel M. Tallman, Katherine L. Jarrell, Paul R. Lockman
Format: Article
Language:English
Published: BMC 2018-12-01
Series:BMC Cancer
Subjects:
Brain metastases
Fluorescent microscopy
Autoradiography
Astrocytosis
Chemotherapy
Online Access:http://link.springer.com/article/10.1186/s12885-018-5115-x
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spelling doaj-de416521042f42179c8a72744bd02d0a2020-11-25T01:21:26ZengBMCBMC Cancer1471-24072018-12-0118111010.1186/s12885-018-5115-xPermeability changes and effect of chemotherapy in brain adjacent to tumor in an experimental model of metastatic brain tumor from breast cancerAfroz S. Mohammad0Chris E. Adkins1Neal Shah2Rawaa Aljammal3Jessica I. G. Griffith4Rachel M. Tallman5Katherine L. Jarrell6Paul R. Lockman7Department of Pharmaceutical Sciences, West Virginia University Health Sciences Center, School of PharmacyDepartment of Pharmaceutical Sciences, West Virginia University Health Sciences Center, School of PharmacyDepartment of Pharmaceutical Sciences, West Virginia University Health Sciences Center, School of PharmacyDepartment of Pharmaceutical Sciences, West Virginia University Health Sciences Center, School of PharmacyDepartment of Pharmaceutical Sciences, West Virginia University Health Sciences Center, School of PharmacyDepartment of Pharmaceutical Sciences, West Virginia University Health Sciences Center, School of PharmacyDepartment of Pharmaceutical Sciences, West Virginia University Health Sciences Center, School of PharmacyDepartment of Pharmaceutical Sciences, West Virginia University Health Sciences Center, School of PharmacyAbstract Background Brain tumor vasculature can be significantly compromised and leakier than that of normal brain blood vessels. Little is known if there are vascular permeability alterations in the brain adjacent to tumor (BAT). Changes in BAT permeability may also lead to increased drug permeation in the BAT, which may exert toxicity on cells of the central nervous system. Herein, we studied permeation changes in BAT using quantitative fluorescent microscopy and autoradiography, while the effect of chemotherapy within the BAT region was determined by staining for activated astrocytes. Methods Human metastatic breast cancer cells (MDA-MB-231Br) were injected into left ventricle of female NuNu mice. Metastases were allowed to grow for 28 days, after which animals were injected fluorescent tracers Texas Red (625 Da) or Texas Red dextran (3 kDa) or a chemotherapeutic agent 14C-paclitaxel. The accumulation of tracers and 14C-paclitaxel in BAT were determined by using quantitative fluorescent microscopy and autoradiography respectively. The effect of chemotherapy in BAT was determined by staining for activated astrocytes. Results The mean permeability of texas Red (625 Da) within BAT region increased 1.0 to 2.5-fold when compared to normal brain, whereas, Texas Red dextran (3 kDa) demonstrated mean permeability increase ranging from 1.0 to 1.8-fold compared to normal brain. The Kin values in the BAT for both Texas Red (625 Da) and Texas Red dextran (3 kDa) were found to be 4.32 ± 0.2 × 105 mL/s/g and 1.6 ± 1.4 × 105 mL/s/g respectively and found to be significantly higher than the normal brain. We also found that there is significant increase in accumulation of 14C-Paclitaxel in BAT compared to the normal brain. We also observed animals treated with chemotherapy (paclitaxel (10 mg/kg), erubilin (1.5 mg/kg) and docetaxel (10 mg/kg)) showed activated astrocytes in BAT. Conclusions Our data showed increased permeation of fluorescent tracers and 14C-paclitaxel in the BAT. This increased permeation lead to elevated levels of activated astrocytes in BAT region in the animals treated with chemotherapy.http://link.springer.com/article/10.1186/s12885-018-5115-xBrain metastasesFluorescent microscopyAutoradiographyAstrocytosisChemotherapy
collection DOAJ
language English
format Article
sources DOAJ
author Afroz S. Mohammad
Chris E. Adkins
Neal Shah
Rawaa Aljammal
Jessica I. G. Griffith
Rachel M. Tallman
Katherine L. Jarrell
Paul R. Lockman
spellingShingle Afroz S. Mohammad
Chris E. Adkins
Neal Shah
Rawaa Aljammal
Jessica I. G. Griffith
Rachel M. Tallman
Katherine L. Jarrell
Paul R. Lockman
Permeability changes and effect of chemotherapy in brain adjacent to tumor in an experimental model of metastatic brain tumor from breast cancer
BMC Cancer
Brain metastases
Fluorescent microscopy
Autoradiography
Astrocytosis
Chemotherapy
author_facet Afroz S. Mohammad
Chris E. Adkins
Neal Shah
Rawaa Aljammal
Jessica I. G. Griffith
Rachel M. Tallman
Katherine L. Jarrell
Paul R. Lockman
author_sort Afroz S. Mohammad
title Permeability changes and effect of chemotherapy in brain adjacent to tumor in an experimental model of metastatic brain tumor from breast cancer
title_short Permeability changes and effect of chemotherapy in brain adjacent to tumor in an experimental model of metastatic brain tumor from breast cancer
title_full Permeability changes and effect of chemotherapy in brain adjacent to tumor in an experimental model of metastatic brain tumor from breast cancer
title_fullStr Permeability changes and effect of chemotherapy in brain adjacent to tumor in an experimental model of metastatic brain tumor from breast cancer
title_full_unstemmed Permeability changes and effect of chemotherapy in brain adjacent to tumor in an experimental model of metastatic brain tumor from breast cancer
title_sort permeability changes and effect of chemotherapy in brain adjacent to tumor in an experimental model of metastatic brain tumor from breast cancer
publisher BMC
series BMC Cancer
issn 1471-2407
publishDate 2018-12-01
description Abstract Background Brain tumor vasculature can be significantly compromised and leakier than that of normal brain blood vessels. Little is known if there are vascular permeability alterations in the brain adjacent to tumor (BAT). Changes in BAT permeability may also lead to increased drug permeation in the BAT, which may exert toxicity on cells of the central nervous system. Herein, we studied permeation changes in BAT using quantitative fluorescent microscopy and autoradiography, while the effect of chemotherapy within the BAT region was determined by staining for activated astrocytes. Methods Human metastatic breast cancer cells (MDA-MB-231Br) were injected into left ventricle of female NuNu mice. Metastases were allowed to grow for 28 days, after which animals were injected fluorescent tracers Texas Red (625 Da) or Texas Red dextran (3 kDa) or a chemotherapeutic agent 14C-paclitaxel. The accumulation of tracers and 14C-paclitaxel in BAT were determined by using quantitative fluorescent microscopy and autoradiography respectively. The effect of chemotherapy in BAT was determined by staining for activated astrocytes. Results The mean permeability of texas Red (625 Da) within BAT region increased 1.0 to 2.5-fold when compared to normal brain, whereas, Texas Red dextran (3 kDa) demonstrated mean permeability increase ranging from 1.0 to 1.8-fold compared to normal brain. The Kin values in the BAT for both Texas Red (625 Da) and Texas Red dextran (3 kDa) were found to be 4.32 ± 0.2 × 105 mL/s/g and 1.6 ± 1.4 × 105 mL/s/g respectively and found to be significantly higher than the normal brain. We also found that there is significant increase in accumulation of 14C-Paclitaxel in BAT compared to the normal brain. We also observed animals treated with chemotherapy (paclitaxel (10 mg/kg), erubilin (1.5 mg/kg) and docetaxel (10 mg/kg)) showed activated astrocytes in BAT. Conclusions Our data showed increased permeation of fluorescent tracers and 14C-paclitaxel in the BAT. This increased permeation lead to elevated levels of activated astrocytes in BAT region in the animals treated with chemotherapy.
topic Brain metastases
Fluorescent microscopy
Autoradiography
Astrocytosis
Chemotherapy
url http://link.springer.com/article/10.1186/s12885-018-5115-x
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