Your search keyword '"McBride, William H"' showing total 42 results

1. 1-[(4-Nitrophenyl)sulfonyl]-4-phenylpiperazine increases the number of Peyer’s patch-associated regenerating crypts in the small intestines after radiation injury

Author

Bhat, Kruttika, Duhachek-Muggy, Sara, Ramanathan, Renuka, Saki, Mohammad, Alli, Claudia, Medina, Paul, Damoiseaux, Robert, Whitelegge, Julian, McBride, William H., Schaue, Dörthe, Vlashi, Erina, and Pajonk, Frank

Published

2019

2. Biological effectiveness of antiproton annihilation

Author

Holzscheiter, Michael H., Agazaryan, Nzhde, Bassler, Niels, Beyer, Gerd, DeMarco, John J., Doser, Michael, Ichioka, Toshiyasu, Iwamoto, Keisuke S., Knudsen, Helge V., Landua, Rolf, Maggiore, Carl, McBride, William H., Møller, Søren Pape, Petersen, Jorgen, Smathers, James B., Skarsgard, Lloyd D., Solberg, Timothy D., Uggerhøj, Ulrik I., Withers, H.Rodney, Vranjes, Sanja, Wong, Michelle, and Wouters, Bradly G.

Published

2004

3. Biological effectiveness of antiproton annihilation

Author

Maggiore, Carl, Agazaryan, Nzhde, Bassler, Niels, Blackmore, Ewart, Beyer, Gerd, DeMarco, John J., Doser, Michael, Gruhn, Charles R., Holzscheiter, Michael H., Ichioka, Toshiyasu, Iwamoto, Keisuke S., Knudsen, Helge V., Landua, Rolf, McBride, William H., Møller, Søren Pape, Petersen, Jorgen, Smathers, James B., Skarsgard, Lloyd D., Solberg, Timothy D., Uggerhøj, Ulrik I., Withers, H.Rodney, and Wouters, Bradly G.

Published

2004

4. Opposing tumor-cell-intrinsic and -extrinsic roles of the IRF1 transcription factor in antitumor immunity.

Author

Purbey, Prabhat K., Seo, Joowon, Paul, Manash K., Iwamoto, Keisuke S., Daly, Allison E., Feng, An-Chieh, Champhekar, Ameya S., Langerman, Justin, Campbell, Katie M., Schaue, Dörthe, McBride, William H., Dubinett, Steven M., Ribas, Antoni, Smale, Stephen T., and Scumpia, Philip O.

Abstract

Type I interferon (IFN-I) and IFN-γ foster antitumor immunity by facilitating T cell responses. Paradoxically, IFNs may promote T cell exhaustion by activating immune checkpoints. The downstream regulators of these disparate responses are incompletely understood. Here, we describe how interferon regulatory factor 1 (IRF1) orchestrates these opposing effects of IFNs. IRF1 expression in tumor cells blocks Toll-like receptor- and IFN-I-dependent host antitumor immunity by preventing interferon-stimulated gene (ISG) and effector programs in immune cells. In contrast, expression of IRF1 in the host is required for antitumor immunity. Mechanistically, IRF1 binds distinctly or together with STAT1 at promoters of immunosuppressive but not immunostimulatory ISGs in tumor cells. Overexpression of programmed cell death ligand 1 (PD-L1) in Irf1 −/− tumors only partially restores tumor growth, suggesting multifactorial effects of IRF1 on antitumor immunity. Thus, we identify that IRF1 expression in tumor cells opposes host IFN-I- and IRF1-dependent antitumor immunity to facilitate immune escape and tumor growth. [Display omitted] • IRF1 expression in tumor cells or the TME governs tumor progression or regression • Tumor cell IRF1 blocks host IFNAR and TLR activation of antitumor adaptive immunity • Tumor cell IRF1 controls only an immunosuppressive gene program induced by IFN-γ • IRF1 controls distinct IFN-γ-induced genes by binding promoters alone or with STAT1 Proper lymphocyte activation is required for antitumor immunity. Purbey et al. show that, while IRF1 in immune cells is required for antitumor immunity, tumor cell IRF1 suppresses Toll-like receptor- and interferon-induced antitumor lymphocyte activation and regulates select immunosuppressive and MHC genes in interferon-stimulated tumor cells. [ABSTRACT FROM AUTHOR]

Published

2024

5. Preparing for the Future of Radiation Oncology

Author

Buchholz, Thomas A., McBride, William H., and Cox, James D.

Subjects

Health

Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.jacr.2007.04.008 Byline: Thomas A. Buchholz (a), William H. McBride (b), James D. Cox (a) Keywords: Physician-scientist; career development; radiation oncology Abstract: The field of radiation oncology is currently attracting a high number of accomplished MD and PhD graduates who have aspirations of pursuing physician-scientist career paths. This good fortune comes at a time when radiation oncology is in need of professionals interested in contributing to the exciting advances in treatment technologies and molecular oncology and in helping translate advances in these areas into benefits for patients. Although the profession of radiation oncology has done an outstanding job of attracting excellent residents and providing appropriate environments for their continued academic development during residency training, the profession has not fully prepared an infrastructure for accepting these highly qualified individuals into physician-scientist faculty positions. It is very important that radiation oncology develop a more comprehensive strategy to address this need. Doing so will ensure the preservation and growth of the profession. Author Affiliation: (a) The University of Texas M. D. Anderson Cancer Center, Houston, Texas. (b) David Geffen School of Medicine, University of California, Los Angeles, Los Angeles, California.

Published

2007

6. If It Seems Too Good to Be True….

Author

Steinberg, Michael L, McBride, William H, Vlashi, Erina, and Pajonk, Frank

Subjects

*ONCOLOGY, *RADIOTHERAPY

Published

2019

7. Radiation and Inflammation.

Author

Schaue, Dörthe, Micewicz, Ewa D., Ratikan, Josephine A., Xie, Michael W., Genhong Cheng, and McBride, William H.

Abstract

The immune system has the power to modulate the expression of radiation-induced normal and tumor tissue damage. On the one hand, it can contribute to cancer cure, and on the other hand, it can influence acute and late radiation side effects, which in many ways resemble acute and chronic inflammatory disease states. The way radiation-induced inflammation feeds into adaptive antigen-specific immune responses adds another dimension to the tumor-host cross talk during radiation therapy and to possible radiation-driven autoimmune responses. Understanding how radiation affects inflammation and immunity is therefore critical if we are to effectively manipulate these forces for benefit in radiation oncology treatments. [ABSTRACT FROM AUTHOR]

Published

2015

8. National Institutes of Health Funding in Radiation Oncology: A Snapshot

Author

Steinberg, Michael, McBride, William H., Vlashi, Erina, and Pajonk, Frank

Subjects

*CANCER radiotherapy, *ONCOLOGY, *VOCATIONAL guidance, *MEDICAL physics

Abstract

Currently, pay lines for National Institutes of Health (NIH) grants are at a historical low. In this climate of fierce competition, knowledge about the funding situation in a small field like radiation oncology becomes very important for career planning and recruitment of faculty. Unfortunately, these data cannot be easily extracted from the NIH''s database because it does not discriminate between radiology and radiation oncology departments. At the start of fiscal year 2013 we extracted records for 952 individual grants, which were active at the time of analysis from the NIH database. Proposals originating from radiation oncology departments were identified manually. Descriptive statistics were generated using the JMP statistical software package. Our analysis identified 197 grants in radiation oncology. These proposals came from 134 individual investigators in 43 academic institutions. The majority of the grants (118) were awarded to principal investigators at the full professor level, and 122 principal investigators held a PhD degree. In 79% of the grants, the research topic fell into the field of biology, 13% in the field of medical physics. Only 7.6% of the proposals were clinical investigations. Our data suggest that the field of radiation oncology is underfunded by the NIH and that the current level of support does not match the relevance of radiation oncology for cancer patients or the potential of its academic work force. [Copyright &y& Elsevier]

Published

2013

9. Molecular Mechanisms of Late Normal Tissue Injury.

Author

Brush, James, Lipnick, Scott L., Phillips, Tiffany, Sitko, John, McDonald, J. Tyson, and McBride, William H.

Abstract

Irradiation perturbs the homeostatic network linking parenchymal, mesenchymal, and vascular cells within tissues. Normal communication between cells through soluble, matrix, and cell-associated ligands and receptors is altered so as to set in motion a seemingly inexorable series of events aimed at tissue regeneration and healing. In late responding normal tissues where cell death is not compensated for by rapid regeneration, this process unfortunately often culminates in symptomatic complications of radiation exposure. Cytokines and their receptors are prominent in driving the cascade of molecular responses using the balance between seemingly mutually antagonistic molecules to control and direct the healing processes. There is strong evidence from preclinical models for the importance of cytokine-driven pathways in late radiation damage and growing evidence in humans for their relevance to radiation-induced disease. This review aims to show some general aspects of the molecular torrents that drive responses in irradiated tissues before and during the development of late effects. It attempts to collate some of the findings from preclinical models of late lung, central nervous system, skin, and intestinal damage and from clinical studies in the belief that understanding how irradiation perturbs the cellular communication networks will allow rationale intervention for mitigating late radiation tissue damage and carcinogenesis. [Copyright &y& Elsevier]

Published

2007

10. Induction of c- fos and junB mRNA following in vivo brain irradiation

Author

Hong, Ji-Hong, Chiang, Chi-Shiun, Sun, Ji-Rong, Withers, H.Rodney, and McBride, William H

Published

1997

11. Analysis of anaerobic coryneform cell wall antigens by radioimmunoassay

Author

Dawes, Joan and McBride, William H.

Published

1975

12. Radiation enhances tumor necrosis factor α production by murine brain cells

Author

Chiang, Chi-Shiun and McBride, William H.

Published

1991

13. 5-Aminoimidazole-4-Carboxamide Riboside Enhances Effect of Ionizing Radiation in PC3 Prostate Cancer Cells

Author

Isebaert, Sofie F., Swinnen, Johannes V., McBride, William H., Begg, Adrian C., and Haustermans, Karin M.

Subjects

*CARBOXAMIDES, *DOSE-response relationship in ionizing radiation, *PROSTATE cancer, *CANCER cell growth, *ADENOSINE monophosphate, *PROTEIN kinases, *DNA repair

Abstract

Purpose: The nucleoside 5-aminoimidazole-4-carboxamide riboside (AICAR) is a low-energy mimetic and adenosine monophosphate (AMP)-activated protein kinase (AMPK) agonist that can affect the phenotype of malignant cells by diminishing their anabolism. It does this by being converted to 5-aminoimidazole-4-carboxamide ribotide (ZMP), an AMP analog. We combined this promising antineoplastic agent with ionizing radiation in an attempt to increase its efficacy. Methods and Materials: The effect of AICAR on cell proliferation, cell viability, apoptosis, reactive oxygen species production, radiosensitivity, and AMPK activation was determined in the human prostate cancer cell line PC3. To elucidate the radiosensitizing mechanism, clonogenic survival assays in the presence of a drug agonist or antagonist or with small interfering RNA targeting AMPK were done, as well as measurements of ZMP production and double strand break repair. Moreover, immunoblot analysis of the radiation response signaling pathways after AICAR treatment was performed. Results: The incubation of human PC3 prostate cancer cells with AICAR-activated AMPK inhibited cell proliferation, decreased viability, increased apoptosis, and generated reactive oxygen species in a dose- and time-dependent manner. None of these endpoints gave more than additive effects when radiation was added. Radiosensitization was observed but only after 72 hours of treatment with 250 μM AICAR, suggesting that it was independent of AMPK activation. This finding was confirmed by small interfering RNA knockdown of AMPK. The mechanism of radiosensitization was associated with imbalanced deoxynucleotide pools owing to ZMP accumulation after AICAR administration that interfered with DNA repair. Conclusions: Our findings on the favorable interaction between low doses of AICAR and ionizing radiation in PC3 cells could open new perspectives for the clinical use of this or similar compounds. However, additional research is still required to establish the ZMP pathway as being of general applicability. [Copyright &y& Elsevier]

Published

2011

14. Insulin-Like Growth Factor–Type 1 Receptor Inhibitor NVP-AEW541 Enhances Radiosensitivity of PTEN Wild-Type but Not PTEN-Deficient Human Prostate Cancer Cells

Author

Isebaert, Sofie F., Swinnen, Johannes V., McBride, William H., and Haustermans, Karin M.

Subjects

*SOMATOMEDIN, *PROSTATE cancer, *CANCER cell proliferation, *CANCER radiotherapy, *PHYSIOLOGICAL effects of ionizing radiation, *GENETIC regulation, *ENZYME inhibitors, *CLINICAL trials

Abstract

Purpose: During the past decade, many clinical trials with both monoclonal antibodies and small molecules that target the insulin-like growth factor–type 1 receptor (IGF-1R) have been launched. Despite the important role of IGF-1R signaling in radioresistance, studies of such agents in combination with radiotherapy are lagging behind. Therefore, the aim of this study was to investigate the effect of the small molecule IGF-1R kinase inhibitor NVP-AEW541 on the intrinsic radioresistance of prostate cancer cells. Methods and Materials: The effect of NVP-AEW541 on cell proliferation, cell viability, IGF-1R signaling, radiosensitivity, cell cycle distribution, and double strand break repair was determined in three human prostate cancer cell lines (PC3, DU145, 22Rv1). Moreover, the importance of the PTEN pathway status was explored by means of transfection experiments with constitutively active Akt or inactive kinase-dead Akt. Results: NVP-AEW541 inhibited cell proliferation and decreased cell viability in a time-and dose-dependent manner in all three cell lines. Radiosensitization was observed in the PTEN wild-type cell lines DU145 and 22Rv1 but not in the PTEN-deficient PC3 cell line. NVP-AEW541–induced radiosensitization coincided with downregulation of phospho-Akt levels and high levels of residual double strand breaks. The importance of PTEN status in the radiosensitization effect was confirmed by transfection experiments with constitutively active Akt or inactive kinase-dead Akt. Conclusions: NVP-AEW541 enhances the effect of ionizing radiation in PTEN wild-type, but not in PTEN-deficient, prostate cancer cells. Proper patient selection based on the PTEN status of the tumor will be critical to the achievement of optimal results in clinical trials in which the combination of radiotherapy and this IGF-1R inhibitor is being explored. [ABSTRACT FROM AUTHOR]

Published

2011

15. The Proteasome Inhibitor MG-132 Protects Hypoxic SiHa Cervical Carcinoma Cells after Cyclic Hypoxia/Reoxygenation from Ionizing Radiation.

Author

Pajonk, Frank, Grumann, Thorsten, and McBride, William H.

Subjects

*HYPOXEMIA, *TUMORS, *RADIOTHERAPY, *CERVICAL cancer, *CANCER cells, *IONIZING radiation, *CANCER treatment

Abstract

INTRODUCTION: Transient hypoxia and subsequent reoxygenation are common phenomena in solid tumors that greatly influence the outcome of radiation therapy. This study was designed to determine how varying cycles of hypoxia/reoxygenation affect the response of cervical carcinoma cells irradiated under oxic and hypoxic conditions and whether this could be modulated by proteasome inhibition. MATERIALS AND METHODS: Plateau-phase SiHa cervical carcinoma cells in culture were exposed to varying numbers of 30-minute cycles of hypoxia/reoxygenation directly before irradiation under oxic or hypoxic conditions. 26S Proteasome activity was blocked by addition of MG-132. Clonogenic survival was measured by a colony-forming assay. RESULTS: Under oxic conditions, repeated cycles of hypoxia/reoxygenation decreased the clonogenic survival of SiHa cells. This effect was even more pronounced after the inhibition of 26S proteasome complex. In contrast, under hypoxic conditions, SiHa cells were radioresistant, as expected, but this was increased by proteasome inhibition. CONCLUSIONS: Proteasome inhibition radiosensitizes oxygenated tumor cells but may also protect tumor cells from ionizing radiation under certain hypoxic conditions. [ABSTRACT FROM AUTHOR]

Published

2006

16. Combining radiotherapy and immunotherapy: A revived partnership

Author

Demaria, Sandra, Bhardwaj, Nina, McBride, William H., and Formenti, Silvia C.

Subjects

*IONIZING radiation, *CANCER patients, *CANCER treatment, *IMMUNOTHERAPY, *THERAPEUTIC use of cytokines, *TUMOR treatment, *CANCER vaccines, *ANTIGENS, *CELLULAR immunity, *COMBINED modality therapy, *DENDRITIC cells, *IMMUNE system, *IMMUNOLOGY technique, *MICE, *RESEARCH funding, *T cells, *TUMOR antigens, *TUMORS, *PHYSIOLOGICAL effects of radiation, *VACCINES

Abstract

Ionizing radiation therapy (RT) is an important local modality for the treatment of cancer. The current rationale for its use is based largely on the ability of RT to kill the cancer cells by a direct cytotoxic effect. Nevertheless, considerable evidence indicates that RT effects extend beyond the mere elimination of the more radiosensitive fraction of cancer cells present within a tumor at the time of radiation exposure. For instance, a large body of evidence is accumulating on the ability of RT to modify the tumor microenvironment and generate inflammation. This might have far-reaching consequences regarding the response of a patient to treatment, especially if radiation-induced tumor cell kill were to translate into the generation of effective antitumor immunity. Although much remains to be learned about how radiation can impact tumor immunogenicity, data from preclinical studies provide the proof of principle that different immunotherapeutic strategies can be combined with RT to enhance antitumor effects. Conversely, RT could be a useful tool to combine with immunotherapy. This article will briefly summarize what is known about the impact of RT on tumor immunity, including tumor-associated antigens, antigen-presenting cells, and effector mechanisms. In addition, the experimental evidence supporting the contention that RT can be used as a tool to induce antitumor immunity is discussed, and a new approach to radioimmunotherapy of cancer is proposed. [Copyright &y& Elsevier]

Published

2005

17. A Fork in the Road: Choosing the Path of Relevance.

Author

Wallner, Paul E., Steinberg, Michael L., McBride, William H., Hahn, Stephen M., and Zietman, Anthony L.

Subjects

*CANCER radiotherapy, *CANCER treatment, *MEDICAL publishing, *PUBLISHED articles, *PUBLISHING

Published

2015

18. Position of lipidation influences anticancer activity of Smac analogs.

Author

Micewicz, Ewa D., Nguyen, Christine, Micewicz, Alina, Waring, Alan J., McBride, William H., and Ruchala, Piotr

Subjects

*ISOPRENYLATION, *PROTEIN-protein interactions, *CELL lines, *CANCER cells, *SMALL groups, *CONJUGATED polymers

Abstract

A small group of lipid-conjugated Smac mimetics was synthesized to probe the influence of the position of lipidation on overall anti-cancer activity. Specifically, new compounds were modified with lipid(s) in position 3 and C-terminus. Previously described position 2 lipidated analog M11 was also synthesized. The resulting mini library of Smacs lipidated in positions 2, 3 and C-terminus was screened extensively in vitro against a total number of 50 diverse cancer cell lines revealing that both the position of lipidation as well as the type of lipid, influence their anti-cancer activity and cancer type specificity. Moreover, when used in combination therapy with inhibitor of menin–MLL1 protein interactions, position 2 modified analog SM2 showed strong synergistic anti-cancer properties. The most promising lipid-conjugated analogs SM2 and SM6, showed favorable pharmacokinetics and in vivo activity while administered subcutaneously in the preclinical mouse model. Collectively, our findings suggest that lipid modification of Smacs may be a viable approach in the development of anti-cancer therapeutic leads. [ABSTRACT FROM AUTHOR]

Published

2019

19. Changes in Imaging and Cognition in Juvenile Rats After Whole-Brain Irradiation.

Author

Brown, Robert J., Jun, Brandon J., Cushman, Jesse D., Nguyen, Christine, Beighley, Adam H., Blanchard, Johnny, Iwamoto, Kei, Schaue, Dorthe, Harris, Neil G., Jentsch, James D., Bluml, Stefan, and McBride, William H.

Subjects

*IRRADIATION, *PHOTODESORPTION, *CHILDHOOD cancer, *DIFFUSION tensor imaging, *ANISOTROPY, *ANIMALS, *COGNITION disorders, *DOSE-response relationship (Radiation), *MAGNETIC resonance imaging, *RADIATION doses, *RADIOTHERAPY, *RATS, *RESEARCH funding, *TELENCEPHALON

Abstract

Purpose: In pediatric cancer survivors treated with whole-brain irradiation (WBI), long-term cognitive deficits and morbidity develop that are poorly understood and for which there is no treatment. We describe similar cognitive defects in juvenile WBI rats and correlate them with alterations in diffusion tensor imaging and magnetic resonance spectroscopy (MRS) during brain development.Methods and Materials: Juvenile Fischer rats received clinically relevant fractionated doses of WBI or a high-dose exposure. Diffusion tensor imaging and MRS were performed at the time of WBI and during the subacute (3-month) and late (6-month) phases, before behavioral testing.Results: Fractional anisotropy in the splenium of the corpus callosum increased steadily over the study period, reflecting brain development. WBI did not alter the subacute response, but thereafter there was no further increase in fractional anisotropy, especially in the high-dose group. Similarly, the ratios of various MRS metabolites to creatine increased over the study period, and in general, the most significant changes after WBI were during the late phase and with the higher dose. The most dramatic changes observed were in glutamine-creatine ratios that failed to increase normally between 3 and 6 months after either radiation dose. WBI did not affect the ambulatory response to novel open field testing in the subacute phase, but locomotor habituation was impaired and anxiety-like behaviors increased. As for cognitive measures, the most dramatic impairments were in novel object recognition late after either dose of WBI.Conclusions: The developing brains of juvenile rats given clinically relevant fractionated doses of WBI show few abnormalities in the subacute phase but marked late cognitive alterations that may be linked with perturbed MRS signals measured in the corpus callosum. This pathomimetic phenotype of clinically relevant cranial irradiation effects may be useful for modeling, mechanistic evaluations, and testing of mitigation approaches. [ABSTRACT FROM AUTHOR]

Published

2016

20. Plasticity of Myeloid Cells during Oral Barrier Wound Healing and the Development of Bisphosphonate-related Osteonecrosis of the Jaw.

Author

Yujie Sun, Kawaljit Kaur, Keiichi Kanayama, Kenzo Morinaga, Park, Sil, Akishige Hokugo, Kozlowska, Anna, McBride, William H., Jun Li, Jewett, Anahid, and Ichiro Nishimura

Subjects

*WOUND healing, *DIPHOSPHONATES, *OSTEONECROSIS, *BONE marrow, *ZOLEDRONIC acid, *CYTOKINES, *CHEMOKINES

Abstract

Injury to the barrier tissue initiates a rapid distribution of myeloid immune cells from bone marrow, which guide sound wound healing. Bisphosphonates, a widely used anti-bone resorptive drug with minimal systemic side effects, have been linked to an abnormal wound healing in the oral barrier tissue leading to, in some cases, osteonecrosis of the jaw (ONJ). Here we report that the development of ONJ may involve abnormal phenotypic plasticity of Ly6G +/Gr1 + myeloid cells in the oral barrier tissue undergoing tooth extraction wound healing. A bolus intravenous zoledronate (ZOL) injection to female C57Bl/6 mice followed by maxillary first molar extraction resulted in the development of ONJ-like lesion during the second week of wound healing. The multiplex assay of dissociated oral barrier cells exhibited the secretion of cytokines and chemokines, which was significantly modulated in ZOL mice. Tooth extraction-induced distribution of Ly6G+/Gr1+ cells in the oral barrier tissue increased in ZOLmice at week 2. ONJ-like lesion in ZOLmice contained Ly6G+/Gr1+cells with abnormal size and morphology as well as different flow cytometric staining intensity. When anti-Ly6G (Gr1) antibody was intraperitoneally injected for 5 days during the second week of tooth extraction, CD11b+GR1hi cells in bone marrow and Ly6G+ cells in the oral barrier tissue were depleted, and the development of ONJ-like lesion was significantly attenuated. This study suggests that local modulation of myeloid cell plasticity in the oral barrier tissue may provide the basis for pathogenesis and thus therapeutic as well as preventive strategy of ONJ. [ABSTRACT FROM AUTHOR]

Published

2016

21. Lipid-conjugated Smac analogues.

Author

Micewicz, Ewa D., Ratikan, Josephine A., Waring, Alan J., Whitelegge, Julian P., McBride, William H., and Ruchala, Piotr

Subjects

*LIPID analysis, *BIOCONJUGATES, *DRUG synthesis, *MONOMERS, *DIMERIZATION, *BREAST cancer

Abstract

A small library of monovalent and bivalent Smac mimics was synthesized based on 2 types of monomers, with general structure NMeAla-Xaa-Pro-BHA (Xaa = Cys or Lys). Position 2 of the compounds was utilized to dimerize both types of monomers employing various bis-reactive linkers, as well as to modify selected compounds with lipids. The resulting library was screened in vitro against metastatic human breast cancer cell line MDA-MB-231, and the two most active compounds selected for in vivo studies. The most active lipid-conjugated analogue M11 , showed in vivo activity while administered both subcutaneously and orally. Collectively, our findings suggest that lipidation may be a viable approach in the development of new Smac-based therapeutic leads. [ABSTRACT FROM AUTHOR]

Published

2015

22. Small lipidated anti-obesity compounds derived from neuromedin U.

Author

Micewicz, Ewa D., Bahattab, Omar S.O., Willars, Gary B., Waring, Alan J., Navab, Mohamad, Whitelegge, Julian P., McBride, William H., and Ruchala, Piotr

Subjects

*OBESITY, *NEUROMEDIN U, *NEUROPEPTIDES, *NERVE tissue proteins, *NEUROTRANSMITTERS

Abstract

A small library of truncated/lipid-conjugated neuromedin U (NmU) analogs was synthesized and tested in vitro using an intracellular calcium signaling assay. The selected, most active analogs were then tested in vivo , and showed potent anorexigenic effects in a diet-induced obese (DIO) mouse model. The most promising compound, NM4-C 16 was effective in a once-weekly-dose regimen. Collectively, our findings suggest that short, lipidated analogs of NmU are suitable leads for the development of novel anti-obesity therapeutics. [ABSTRACT FROM AUTHOR]

Published

2015

23. Novel dimeric Smac analogs as prospective anticancer agents.

Author

Micewicz, Ewa D., Luong, Hai T., Jung, Chun-Ling, Waring, Alan J., McBride, William H., and Ruchala, Piotr

Subjects

*ANTINEOPLASTIC agents, *MOLECULAR structure, *BREAST cancer, *CANCER cells, *ALKYLATION, *CLINICAL drug trials

Abstract

Abstract: A small library of monovalent Smac mimics with general structure NMeAla-Tle-(4R)-4-Benzyl-Pro-Xaa-cysteamide, was synthesized (Xaa=hydrophobic residue). The library was screened in vitro against human breast cancer cell lines MCF-7 and MDA-MB-231, and two most active compounds oligomerized via S-alkylation giving bivalent and trivalent derivatives. The most active bivalent analogue SMAC17-2X was tested in vivo and in physiological conditions (mouse model) it exerted a potent anticancer effect resulting in ∼23.4days of tumor growth delay at 7.5mg/kg dose. Collectively, our findings suggest that bivalent Smac analogs obtained via S-alkylation protocol may be a suitable platform for the development of new anticancer therapeutics. [Copyright &y& Elsevier]

Published

2014

24. Current Status and Recommendations for the Future of Research, Teaching, and Testing in the Biological Sciences of Radiation Oncology: Report of the American Society for Radiation Oncology Cancer Biology/Radiation Biology Task Force, Executive Summary.

Author

Wallner, Paul E., Anscher, Mitchell S., Barker, Christopher A., Bassetti, Michael, Bristow, Robert G., Cha, Yong I., Dicker, Adam P., Formenti, Silvia C., Graves, Edward E., Hahn, Stephen M., Hei, Tom K., Kimmelman, Alec C., Kirsch, David G., Kozak, Kevin R., Lawrence, Theodore S., Marples, Brian, McBride, William H., Mikkelsen, Ross B., Park, Catherine C., and Weidhaas, Joanne B.

Subjects

*CANCER radiotherapy, *MEDICAL specialties & specialists, *TASK forces, *LIFE sciences, *THERAPEUTICS

Abstract

In early 2011, a dialogue was initiated within the Board of Directors (BOD) of the American Society for Radiation Oncology (ASTRO) regarding the future of the basic sciences of the specialty, primarily focused on the current state and potential future direction of basic research within radiation oncology. After consideration of the complexity of the issues involved and the precise nature of the undertaking, in August 2011, the BOD empanelled a Cancer Biology/Radiation Biology Task Force (TF). The TF was charged with developing an accurate snapshot of the current state of basic (preclinical) research in radiation oncology from the perspective of relevance to the modern clinical practice of radiation oncology as well as the education of our trainees and attending physicians in the biological sciences. The TF was further charged with making suggestions as to critical areas of biological basic research investigation that might be most likely to maintain and build further the scientific foundation and vitality of radiation oncology as an independent and vibrant medical specialty. It was not within the scope of service of the TF to consider the quality of ongoing research efforts within the broader radiation oncology space, to presume to consider their future potential, or to discourage in any way the investigators committed to areas of interest other than those targeted. The TF charge specifically precluded consideration of research issues related to technology, physics, or clinical investigations. This document represents an Executive Summary of the Task Force report. [Copyright &y& Elsevier]

Published

2014

25. Marrow-Derived Stromal Cell Delivery on Fibrin Microbeads Can Correct Radiation-Induced Wound-Healing Deficits.

Author

Xie, Michael W, Gorodetsky, Raphael, Micevicz, Ewa D, Mackenzie, Natalia C, Gaberman, Elena, Levdansky, Lilia, and Mcbride, William H

Subjects

*EFFECT of radiation on skin, *WOUND healing, *MESENCHYMAL stem cell adhesion, *MAJOR histocompatibility complex, *HAIR follicle physiology, *GRANULOCYTE colony stimulating factor receptor

Abstract

Skin that is exposed to radiation has an impaired ability to heal wounds. This is especially true for whole-body irradiation, where even moderate nonlethal doses can result in wound-healing deficits. Our previous attempts to administer dermal cells locally to wounds to correct radiation-induced deficits were hampered by poor cell retention. Here we improve the outcome by using biodegradable fibrin microbeads (FMBs) to isolate a population of mesenchymal marrow-derived stromal cells (MSCs) from murine bone marrow by their specific binding to the fibrin matrix, culture them to high density in vitro, and deliver them as MSCs on FMBs at the wound site. MSCs are retained locally, proliferate in site, and assist wounds in gaining tensile strength in whole-body irradiated mice with or without additional skin-only exposure. MSC-FMBs were effective in two different mouse strains but were ineffective across a major histocompatability barrier. Remarkably, irradiated mice whose wounds were treated with MSC-FMBs showed enhanced hair regrowth, suggesting indirect effect on the correction of radiation-induced follicular damage. Further studies showed that additional wound-healing benefit could be gained by administration of granulocyte colony-stimulating factor and AMD3100. Collagen strips coated with haptides and MSCs were also highly effective in correcting radiation-induced wound-healing deficits. [ABSTRACT FROM AUTHOR]

Published

2013

26. Spinal cord tolerance to single-session uniform irradiation in pigs: Implications for a dose-volume effect

Author

Medin, Paul M., Foster, Ryan D., van der Kogel, Albert J., Sayre, James W., McBride, William H., and Solberg, Timothy D.

Subjects

*SPINAL cord, *LABORATORY swine, *CANCER radiotherapy, *ANIMAL models of cancer, *RADIATION doses, *COMPARATIVE studies, *IMMUNOLOGICAL tolerance

Abstract

Abstract: Background and purpose: This study was performed to test the hypothesis that spinal cord radiosensitivity is significantly modified by uniform versus laterally non-uniform dose distributions. Materials and methods: A uniform dose distribution was delivered to a 4.5–7.0cm length of cervical spinal cord in 22 mature Yucatan minipigs for comparison with a companion study in which a laterally non-uniform dose was given [1]. Pigs were allocated into four dose groups with mean maximum spinal cord doses of 17.5±0.1Gy (n =7), 19.5±0.2Gy (n =6), 22.0±0.1Gy (n =5), and 24.1±0.2Gy (n =4). The study endpoint was motor neurologic deficit determined by a change in gait within one year. Spinal cord sections were stained with a Luxol fast blue/periodic acid Schiff combination. Results: Dose–response curves for uniform versus non-uniform spinal cord irradiation were nearly identical with ED50’s (95% confidence interval) of 20.2Gy (19.1–25.8) and 20.0Gy (18.3–21.7), respectively. No neurologic change was observed for either dose distribution when the maximum spinal cord dose was ⩽17.8Gy while all animals experienced deficits at doses ⩾21.8Gy. Conclusion: No dose-volume effect was observed in pigs for the dose distributions studied and the endpoint of motor neurologic deficit; however, partial spinal cord irradiation resulted in less debilitating neurologic morbidity and histopathology. [Copyright &y& Elsevier]

Published

2013

27. Maximizing Tumor Immunity With Fractionated Radiation

Author

Schaue, Dörthe, Ratikan, Josephine A., Iwamoto, Keisuke S., and McBride, William H.

Subjects

*CANCER radiotherapy, *RADIATION doses, *CELLULAR signal transduction, *CANCER cells, *TUMOR growth, *LABORATORY mice, *TUMOR antigens, *ENZYME-linked immunosorbent assay, *IMMUNE response, *CELL death

Abstract

Purpose: Technologic advances have led to increased clinical use of higher-sized fractions of radiation dose and higher total doses. How these modify the pathways involved in tumor cell death, normal tissue response, and signaling to the immune system has been inadequately explored. Here we ask how radiation dose and fraction size affect antitumor immunity, the suppression thereof, and how this might relate to tumor control. Methods and Materials: Mice bearing B16-OVA murine melanoma were treated with up to 15 Gy radiation given in various-size fractions, and tumor growth followed. The tumor-specific immune response in the spleen was assessed by interferon-γ enzyme-linked immunospot (ELISPOT) assay with ovalbumin (OVA) as the surrogate tumor antigen and the contribution of regulatory T cells (Tregs) determined by the proportion of CD4+CD25hiFoxp3+ T cells. Results: After single doses, tumor control increased with the size of radiation dose, as did the number of tumor-reactive T cells. This was offset at the highest dose by an increase in Treg representation. Fractionated treatment with medium-size radiation doses of 7.5 Gy/fraction gave the best tumor control and tumor immunity while maintaining low Treg numbers. Conclusions: Radiation can be an immune adjuvant, but the response varies with the size of dose per fraction. The ultimate challenge is to optimally integrate cancer immunotherapy into radiation therapy. [Copyright &y& Elsevier]

Published

2012

28. Spinal Cord Tolerance to Reirradiation With Single-Fraction Radiosurgery: A Swine Model

Author

Medin, Paul M., Foster, Ryan D., van der Kogel, Albert J., Sayre, James W., McBride, William H., and Solberg, Timothy D.

Subjects

*SPINAL cord radiography, *RADIOSURGERY, *LABORATORY swine, *MEDICAL statistics, *HISTOLOGY, *PARALYSIS, *DOSE-response relationship (Radiation)

Abstract

Purpose: This study was performed to determine swine spinal cord tolerance to single-fraction, partial-volume irradiation 1 year after receiving uniform irradiation to 30 Gy in 10 fractions. Methods and Materials: A 10-cm length of spinal cord (C3–T1) was uniformly irradiated to 30 Gy in 10 consecutive fractions and reirradiated 1 year later with a single radiosurgery dose centered within the previously irradiated segment. Radiosurgery was delivered to a cylindrical volume approximately 5 cm in length and 2 cm in diameter, which was positioned laterally to the cervical spinal cord, resulting in a dose distribution with the 90%, 50%, and 10% isodose lines traversing the ipsilateral, central, and contralateral spinal cord, respectively. Twenty-three pigs were stratified into six dose groups with mean maximum spinal cord doses of 14.9 ± 0.1 Gy (n = 2), 17.1 ± 0.3 Gy (n = 3), 19.0 ± 0.1 Gy (n = 5), 21.2 ± 0.1 Gy (n = 5), 23.4 ± 0.2 Gy (n = 5), and 25.4 ± 0.4 Gy (n = 3). The mean percentage of spinal cord volumes receiving ≥10 Gy for the same groups were 34% ± 1%, 40% ± 1%, 46% ± 3%, 52% ± 1%, 56 ± 3%, and 57% ± 1%. The study endpoint was motor neurologic deficit as determined by a change in gait during a 1- year follow-up period. Results: A steep dose-response curve was observed with a 50% incidence of paralysis (ED50) for the maximum point dose of 19.7 Gy (95% confidence interval, 17.4–21.4). With two exceptions, histology was unremarkable in animals with normal neurologic status, while all animals with motor deficits showed some degree of demyelination and focal white matter necrosis on the irradiated side, with relative sparing of gray matter. Histologic comparison with a companion study of de novo irradiated animals revealed that retreatment responders had more extensive tissue damage, including infarction of gray matter, only at prescription doses >20 Gy. Conclusion: Pigs receiving spinal radiosurgery 1 year after receiving 30 Gy in 10 fractions were not at significantly higher risk of developing motor deficits than pigs that received radiosurgery alone. [Copyright &y& Elsevier]

Published

2012

29. Radiation Enhances Regulatory T Cell Representation

Author

Kachikwu, Evelyn L., Iwamoto, Keisuke S., Liao, Yu-Pei, DeMarco, John J., Agazaryan, Nzhde, Economou, James S., McBride, William H., and Schaue, Dörthe

Subjects

*RADIOTHERAPY, *T cells, *IMMUNOTHERAPY, *ANTINEOPLASTIC agents, *PHYSIOLOGICAL effects of radiation, *IMMUNOREGULATION, *CD antigens

Abstract

Purpose: Immunotherapy could be a useful adjunct to standard cytotoxic therapies such as radiation in patients with micrometastatic disease, although successful integration of immunotherapy into treatment protocols will require further understanding of how standard therapies affect the generation of antitumor immune responses. This study was undertaken to evaluate the impact of radiation therapy (RT) on immunosuppressive T regulatory (Treg) cells. Methods and Materials: Treg cells were identified as a CD4+CD25hiFoxp3+ lymphocyte subset, and their fate was followed in a murine TRAMP C1 model of prostate cancer in mice with and without RT. Results: CD4+CD25hiFoxp3+ Treg cells increased in immune organs after local leg or whole-body radiation. A large part, but not all, of this increase after leg-only irradiation could be ascribed to radiation scatter and Treg cells being intrinsically more radiation resistant than other lymphocyte subpopulations, resulting in their selection. Their functional activity on a per-cell basis was not affected by radiation exposure. Similar findings were made with mice receiving local RT to murine prostate tumors growing in the leg. The importance of the Treg cell population in the response to RT was shown by systemic elimination of Treg cells, which greatly enhanced radiation-induced tumor regression. Conclusions: We conclude that Treg cells are more resistant to radiation than other lymphocytes, resulting in their preferential increase. Treg cells may form an important homeostatic mechanism for tissues injured by radiation, and in a tumor context, they may assist in immune evasion during therapy. Targeting this population may allow enhancement of radiotherapeutic benefit through immune modulation. [ABSTRACT FROM AUTHOR]

Published

2011

30. Radioprotective Effects of Bmi-1 Involve Epigenetic Silencing of Oxidase Genes and Enhanced DNA Repair in Normal Human Keratinocytes.

Author

Qinghua Dong, Ju-Eun Oh, Wei Chen, Kim, Roy, Kim, Reuben H., Ki-Hyuk Shin, McBride, William H., No-Hee Park, and Mo K. Kang

Subjects

*IONIZING radiation, *KERATINOCYTES, *DNA repair, *RADIATION-protective agents, *IRRADIATION, *OXIDASES, *GENETIC toxicology

Abstract

Normal human keratinocytes (NHKs) undergo premature senescence following exposure to ionizing radiation (IR). This study investigates the effect of Bmi-1, a polycomb group protein, on radiation-induced senescence response. When exposed to IR, NHK transduced with Bmi-1 (NHK/Bmi-1) showed reduced senescent phenotype and enhanced proliferation compared with control cells (NHK/B0). To investigate the underlying mechanism, we determined the production of reactive oxygen species (ROS), expression of ROS-generating enzymes, and DNA repair activities in cells. ROS level was increased upon irradiation but notably reduced by Bmi-1 transduction. Irradiation led to strong induction of oxidase genes, e.g., Lpo (lactoperoxidase), p22-phox, p47-phox, and Gp91, in NHK/B0 but their expression was almost completely silenced in NHK/Bmi-1. Induction of oxidase genes upon irradiation was linked with loss of trimethylated histone 3 at lysine 27 (H3K27Me3), but NHK/Bmi-1 expressed a higher level of H3K27Me3 compared with NHK/B0. Bmi-1 transduction suppressed IR-associated induction of jumanji domain containing 3 while enhancing the expression of EZH2, thereby preventing the loss of H3K27Me3 in the irradiated cells. Furthermore, NHK/Bmi-1 demonstrated increased repair of IR-induced DNA damage compared with NHK/B0. These results indicate that Bmi-1 elicits radioprotective effects on NHK by mitigating the genotoxicity of IR through epigenetic mechanisms. [ABSTRACT FROM AUTHOR]

Published

2011

31. Spinal Cord Tolerance to Single-Fraction Partial-Volume Irradiation: A Swine Model

Author

Medin, Paul M., Foster, Ryan D., van der Kogel, Albert J., Sayre, James W., McBride, William H., and Solberg, Timothy D.

Subjects

*RADIATION tolerance, *IRRADIATION, *LABORATORY swine, *FOLLOW-up studies (Medicine), *NECROSIS, *RADIOSURGERY, *SPINAL cord surgery, *IONIZING radiation dosage

Abstract

Purpose: To determine the spinal cord tolerance to single-fraction, partial-volume irradiation in swine. Methods and Materials: A 5-cm-long cervical segment was irradiated in 38–47-week-old Yucatan minipigs using a dedicated, image-guided radiosurgery linear accelerator. The radiation was delivered to a cylindrical volume approximately 5 cm in length and 2 cm in diameter that was positioned lateral to the cervical spinal cord, resulting in a dose distribution with the 90%, 50%, and 10% isodose lines traversing the ipsilateral, central, and contralateral spinal cord, respectively. The dose was prescribed to the 90% isodose line. A total of 26 pigs were stratified into eight dose groups of 12–47 Gy. The mean maximum spinal cord dose was 16.9 ± 0.1, 18.9 ± 0.1, 21.0 ± 0.1, 23.0 ± 0.2, and 25.3 ± 0.3 Gy in the 16-, 18-, 20-, 22-, and 24-Gy dose groups, respectively. The mean percentage of spinal cord volumes receiving ≥10 Gy for the same groups were 43% ± 3%, 48% ± 4%, 51% ± 2%, 57% ± 2%, and 59% ± 4%. The study endpoint was motor neurologic deficit determined by a change in gait during a 1-year follow-up period. Results: A steep dose–response curve was observed with a median effective dose for the maximum dose point of 20.0 Gy (95% confidence interval, 18.3–21.7). Excellent agreement was observed between the occurrence of neurologic change and the presence of histologic change. All the minipigs with motor deficits showed some degree of demyelination and focal white matter necrosis on the irradiated side, with relative sparing of the gray matter. The histologic findings were unremarkable in the minipigs with normal neurologic status. Conclusions: Our results have indicated that for a dose distribution with a steep lateral gradient, the pigs had a lower median effective dose for paralysis than has been observed in rats and more closely resembles that for rats, mice, and guinea pigs receiving uniform spinal cord irradiation. [Copyright &y& Elsevier]

Published

2011

32. Double blind randomized phase II study with radiation+5-fluorouracil±celecoxib for resectable rectal cancer

Author

Debucquoy, Annelies, Roels, Sarah, Goethals, Laurence, Libbrecht, Louis, Cutsem, Eric Van, Geboes, Karel, Penninckx, Freddy, D’Hoore, André, McBride, William H., and Haustermans, Karin

Subjects

*FLUOROURACIL, *CELECOXIB, *RECTAL cancer treatment, *CLINICAL trials, *CANCER radiotherapy, *FEASIBILITY studies, *CYCLOOXYGENASE 2 inhibitors, *PHARMACODYNAMICS

Abstract

Abstract: Purpose: To assess the feasibility and efficacy of the COX-2 inhibitor celecoxib in conjunction with preoperative chemoradiation for patients with locally advanced rectal cancer in a double blind randomized phase II study. Materials and methods: Thirty-five patients of the initially planned 80 patients with locally advanced rectal cancer were treated with preoperative radiation (45Gy; 1.8Gy/fraction, 5days/week) combined with 5-fluorouracil (continuous infusion, 225mg/m2/day) and celecoxib (2×400mg/day) or placebo. Pathological response and toxicity of study treatment were evaluated, as well as expression of COX-2 and Ki67 in tumor tissue and IL-6 in plasma as possible molecular correlates and predictors of response to treatment. Results: Patients treated with celecoxib tended to show a better response (61%) when compared to those treated with placebo (35%), although not significant (p= 0.13). T-downstaging and N-downstaging were also slightly higher with celecoxib. Plasma IL-6 levels and intratumoral COX2 or Ki67 were altered by chemoradiation, but were not further altered by celecoxib treatment and therefore not useful for prediction of treatment benefit. Celecoxib therapy in conjunction with chemoradiation was not associated with additional toxicity and seemed to help mitigate therapy-related pain. Conclusions: Addition of celecoxib to preoperative chemoradiation is feasible for patients with locally advanced rectal cancer. To study the individual effect of COX-2 inhibitors on pathological response phase III studies are required. [Copyright &y& Elsevier]

Published

2009

33. SOCS3 regulates p21 expression and cell cycle arrest in response to DNA damage

Author

Sitko, John C., Yeh, Brian, Kim, Moonhong, Zhou, Hong, Takaesu, Giichi, Yoshimura, Akihiko, McBride, William H., Jewett, Anahid, Jamieson, Christina A.M., and Cacalano, Nicholas A.

Subjects

*CELL cycle regulation, *GENETIC regulation, *DNA damage, *GENETIC toxicology, *DNA repair, *MUTAGENS, *CELL communication, *GENE expression

Abstract

Abstract: Genotoxic agents such as ionizing radiation trigger cell cycle arrest at the G1/S and G2/M checkpoints, allowing cells to repair damaged DNA before entry into mitosis. DNA damage-induced G1 arrest involves p53-dependent expression of p21 (Cip1/Waf-1), which inhibits cyclin-dependent kinases and blocks S phase entry. While much of the core DNA damage response has been well-studied, other signaling proteins that intersect with and modulate this response remain uncharacterized. In this study, we identify Suppressor of Cytokine Signaling (SOCS)-3 as an important regulator of radiation-induced G1 arrest. SOCS3-deficient fibroblasts fail to undergo G1 arrest and accumulate in the G2/M phase of the cell cycle. SOCS3 knockout cells phosphorylate p53 and H2AX normally in response to radiation, but fail to upregulate p21 expression. In addition, STAT3 phosphorylation is elevated in SOCS3-deficient cells compared to WT cells. Normal G1 arrest can be restored in SOCS3 KO cells by retroviral transduction of WT SOCS3 or a dominant-negative mutant of STAT3. Our results suggest a novel function for SOCS3 in the control of genome stability by negatively regulating STAT3-dependent radioresistant DNA synthesis, and promoting p53-dependent p21 expression. [Copyright &y& Elsevier]

Published

2008

34. Effects of Recombinant Erythropoietin on Breast Cancer--Initiating Cells.

Author

Phillips, Tiffany M., Kim, Kwanghee, Vlashi, Erina, McBride, William H., and Pajonk, Frank

Subjects

*CANCER cells, *BREAST cancer, *ERYTHROPOIETIN, *HEMATOPOIETIC growth factors, *CELL adhesion molecules

Abstract

BACKGROUND: Cancer anemia causes fatigue and correlates with poor treatment outcome. Erythropoietin has been introduced in an attempt to correct these defects. However, five recent clinical trials reported a negative impact of erythropoietin on survival and/or tumor control, indicating that experimental evaluation of a possible direct effect of erythropoietin on cancer cells is required. Cancer recurrence is thought to rely on the proliferation of cancer initiating cells (CICs). In breast cancer, CICs can be identified by phenotypic markers and their fate is controlled by the Notch pathway. METHODS: In this study, we investigated the effect of erythropoietin on CICs in breast cancer cell lines. Levels of erythropoietin receptor (EpoR), CD24, CD44, Jagged-1 expression, and activation of Notch-1 were assessed by flow cytometry. Self-renewing capacity of CICs was investigated in sphere formation assays. RESULTS: EpoR expression was found on the surface of CICs. Recombinant human Epo (rhEpo) increased the numbers of CICs and self-renewing capacity in a Notch-dependent fashion by induction of Jagged-1. Inhibitors of the Notch pathway and PI3-kinase blocked both effects. CONCLUSIONS: Erythropoietin functionally affects CICs directly. Our observation may explain the negative impact of recombinant Epo on local control and survival of cancer patients with EpoR-positive tumors. [ABSTRACT FROM AUTHOR]

Published

2007

35. Macrophages From Irradiated Tumors Express Higher Levels of iNOS, Arginase-I and COX-2, and Promote Tumor Growth

Author

Tsai, Chien-Sheng, Chen, Fang-Hsin, Wang, Chun-Chieh, Huang, Hsiang-Ling, Jung, Shih-Ming, Wu, Chi-Jung, Lee, Chung-Chi, McBride, William H., Chiang, Chi-Shiun, and Hong, Ji-Hong

Subjects

*PROSTATE cancer, *MACROPHAGES, *TUMOR growth, *CELL lines

Abstract

Purpose: To investigate the effects of single and fractionated doses of radiation on tumors and tumor-associated macrophages (TAMs), and to elucidate the potential of TAMs to influence tumor growth. Methods and Materials: A murine prostate cell line, TRAMP-C1, was grown in C57Bl/6J mice to 4-mm tumor diameter and irradiated with either 25 Gy in a single dose, or 60 Gy in 15 fractions. The tumors were removed at the indicated times and assessed for a variety of markers related to TAM content, activation status, and function. Results: In tumors receiving a single radiation dose, arginase (Arg-I), and cycloxygenase-2 (COX-2) mRNA expression increased as a small transient wave within 24 h and a larger persistent wave starting after 3 days. Inducible nitric oxide synthase (iNOS) mRNA was elevated only after 3 days and continued to increase up to 3 weeks. After fractionated irradiation, Arg-1 and COX-2 mRNA levels increased within 5 days, whereas iNOS was increased only after 10 fractions of irradiation had been given. Increased levels of Arg-I, COX-2, and, to a lesser extent, iNOS protein were found to associate with TAMs 1–2 weeks after tumor irradiation. Function of TAMs were compared by mixing them with TRAMP-C1 cells and injecting them into mice; TRAMP-C1 cells mixed with TAMs from irradiated tumors appeared earlier and grew significantly faster than those mixed with TAMs from unirradiated tumors or TRAMP-C1 alone. Conclusions: Tumor-associated macrophages in the postirradiated tumor microenvironment express higher levels of Arg-1, COX-2, and iNOS, and promote early tumor growth in vivo. [Copyright &y& Elsevier]

Published

2007

36. The biological effectiveness of antiproton irradiation

Author

Holzscheiter, Michael H., Bassler, Niels, Agazaryan, Nzhde, Beyer, Gerd, Blackmore, Ewart, DeMarco, John J., Doser, Michael, Durand, Ralph E., Hartley, Oliver, Iwamoto, Keisuke S., Knudsen, Helge V., Landua, Rolf, Maggiore, Carl, McBride, William H., Møller, Søren Pape, Petersen, Jørgen, Skarsgard, Lloyd D., Smathers, James B., Solberg, Timothy D., and Uggerhøj, Ulrik I.

Subjects

*PHYSIOLOGICAL effects of radiation, *MEDICAL radiology, *RADIATION doses, *ONCOLOGY

Abstract

Abstract: Background and purpose: Antiprotons travel through tissue in a manner similar to that for protons until they reach the end of their range where they annihilate and deposit additional energy. This makes them potentially interesting for radiotherapy. The aim of this study was to conduct the first ever measurements of the biological effectiveness of antiprotons. Materials and methods: V79 cells were suspended in a semi-solid matrix and irradiated with 46.7MeV antiprotons, 48MeV protons, or 60Co γ-rays. Clonogenic survival was determined as a function of depth along the particle beams. Dose and particle fluence response relationships were constructed from data in the plateau and Bragg peak regions of the beams and used to assess the biological effectiveness. Results: Due to uncertainties in antiproton dosimetry we defined a new term, called the biologically effective dose ratio (BEDR), which compares the response in a minimally spread out Bragg peak (SOBP) to that in the plateau as a function of particle fluence. This value was ∼3.75 times larger for antiprotons than for protons. This increase arises due to the increased dose deposited in the Bragg peak by annihilation and because this dose has a higher relative biological effectiveness (RBE). Conclusion: We have produced the first measurements of the biological consequences of antiproton irradiation. These data substantiate theoretical predictions of the biological effects of antiproton annihilation within the Bragg peak, and suggest antiprotons warrant further investigation. [Copyright &y& Elsevier]

Published

2006

37. Hypoxia in human colorectal adenocarcinoma: Comparison between extrinsic and potential intrinsic hypoxia markers

Author

Goethals, Laurence, Debucquoy, Annelies, Perneel, Christiaan, Geboes, Karel, Ectors, Nadine, De Schutter, Harlinde, Penninckx, Freddy, McBride, William H., Begg, Adrian C., and Haustermans, Karin M.

Subjects

*HYPOXEMIA, *ADENOCARCINOMA, *COLON cancer, *TUMORS, *VASCULAR endothelial growth factors, *BIOPSY, *CARBONIC anhydrase

Abstract

Purpose: To detect and quantify hypoxia in colorectal adenocarcinomas by use of pimonidazole and iododeoxyuridine (IdUrd) as extrinsic markers and carbonic anhydrase IX (CA IX), microvessel density (MVD), epidermal growth-factor receptor (EGFR), and vascular endothelial growth factor (VEGF) as intrinsic markers of hypoxia. Methods and Material: Twenty patients with an adenocarcinoma of the left colon and rectum treated by primary surgery were injected with pimonidazole and IdUrd. Serial sections of tumor biopsies were single stained for VEGF, EGFR, Ki67, and double stained for blood vessels in combination with either pimonidazole, IdUrd, or CA IX. Percentage of expression was scored as well as colocalization of pimonidazole with CA IX. Results: The median percentage of hypoxia, as judged by pimonidazole staining, was 16.7% (range, 0–52.4%). The expression of pimonidazole correlated inversely with the total MVD and endothelial cord MVD (R = −0.55, p = 0.01; R = −0.47, p = 0.04). Good colocalization was found between pimonidazole and CA IX in only 30% of tumors, with no correlation overall between pimonidazole and CA IX, VEGF, or EGFR or between the different intrinsic markers. Cells around some vessels (0.08–11%) were negative for IdUrd but positive for Ki 67, which indicated their lack of perfusion at the time of injection. Conclusion: Chronic and acute hypoxic regions are present in colorectal tumors, as shown by pimonidazole and IdUrd staining. Only in a minority of tumors did an association exist between the areas stained by pimonidazole and those positive for CA IX. Pimonidazole also did not correlate with expression of other putative intrinsic hypoxia markers (VEGF, EGFR). [Copyright &y& Elsevier]

Published

2006

38. Compartmental responses after thoracic irradiation of mice: Strain differences

Author

Chiang, Chi-Shiun, Liu, Wei-Chung, Jung, Shih-Ming, Chen, Fang-Hsin, Wu, Chi-Rong, McBride, William H., Lee, Chung-Chi, and Hong, Ji-Hong

Subjects

*IRRADIATION, *CYTOKINES, *MESSENGER RNA, *PNEUMONIA

Abstract

Purpose: To examine and compare the molecular and cellular processes leading to radiation fibrosis and pneumonitis in C57BL/6J and C3H/HeN mice. Methods and Materials: At indicated times after various doses of thoracic irradiation, the cell populations obtained by bronchoalveolar lavage of C57BL/6J mice were differentially analyzed by cytology and assessed by RNase protection (RPA) assay for levels of cytokines and related genes. The molecular responses in bronchial alveolar lavage (BAL) populations were compared with those in whole lung of C57BL/6J mice and with those of C3H/HeN mice. The former strain develops late radiation fibrosis, whereas the latter develop subacute radiation pneumonitis. Results: In C57BL/6J mice, a decrease in the total number of BAL cells was found 1 week after 6, 12, or 20 Gy thoracic irradiation with a subsequent dose-dependent increase up to 6 months. After 12 and 20 Gy, large, foamy macrophages and multinucleated cells became evident in BAL at 3 weeks, only to disappear at 4 months and reappear at 6 months. This biphasic response was mirrored by changes expression of mRNA for proinflammatory cytokines and the Mac-1 macrophage-associated antigen. As with BAL, whole lung tissue also showed biphasic cytokine and Mac-1 mRNA responses, but there were striking temporal differences between the two compartments, with changes in whole lung tissue correlating better than BAL with the onset of fibrosis in this strain. The radiation-induced proinflammatory mRNA responses had strain-dependent and strain-independent components. Thoracic irradiation of C3H/HeN induced similar increases in tumor necrosis factor (TNF)-α, interleukin (IL)-1α/β, and interferon (IFN)-γ mRNA expression in lung as it did in C57BL/6J mice during the “presymptom” phase at 1–2 months. However, immediately preceding and during the pneumonitic time period at 3–4 months, TNF-α and IL-1α/β mRNAs were highly upregulated in C3H/HeN mice, which develop pneumonitis, but not in C57BL/6J mice, which do not. At the onset of radiation fibrosis in C57BL/6J mice (5–6 months), irradiated lungs had increased levels of IL-1α/β and IFN-γ mRNA expression, but the TNF-α response was, notably, still muted. Conclusions: The major molecular and cellular events in lungs of C57BL/6J and C3H/HeN mice, which develop late fibrosis and subacute pneumonitis after thoracic irradiation respectively, take place within the interstitium and are not reflected within BAL populations. The initial proinflammatory responses are similar in the two strains, but later responses reflect the latent time to lesion development. TNF-α expression at 3–4 months may be important in radiation-induced pneumonitis, and its downregulation is important in avoiding this radiation-induced complication. [Copyright &y& Elsevier]

Published

2005

39. Adenoviral interleukin-3 gene-radiation therapy for prostate cancer in mouse model

Author

Oh, Young-Taek, Chen, Daniel W. C., Dougherty, Graeme J., and McBride, William H.

Subjects

*CANCER treatment, *THERAPEUTICS, *CANCER genetics, *GENE therapy

Abstract

Purpose: The radiosensitizing effect of IL-3 gene therapy was evaluated on the syngeneic mouse prostate cancer model.Methods and materials: An adenoviral vector was used to deliver the mIL-3 alpha gene into syngeneic murine prostate (TRAMP-C1) cancer cells growing in a subcutaneous site and the tumor response to irradiation was assessed.Results: Ad-mIL-3 gene therapy showed no tumor growth delay without radiation. However, intratumoral Ad-mIL-3 injection with radiation therapy showed marked tumor growth delay that was significantly greater than that of radiation alone.Conclusions: The combined intratumoral Ad-mIL-3 gene therapy and radiation therapy is a valuable option for further clinical evaluation. [Copyright &y& Elsevier]

Published

2004

40. Effects of radiation on normal tissue: consequences and mechanisms.

Author

Stone HB, Coleman CN, Anscher MS, McBride WH, Stone, Helen B, Coleman, C Norman, Anscher, Mitchell S, and McBride, William H

Abstract

The use of radiation therapy to treat cancer inevitably involves exposure of normal tissues. As a result, patients may experience symptoms associated with damage to normal tissue during the course of therapy for a few weeks after therapy or months or years later. Symptoms may be due to cell death or wound healing initiated within irradiated tissue, and may be precipitated by exposure to further injury or trauma. Many factors contribute to risk and severity of normal tissue reactions; these factors are site specific and vary with time after treatment. Treatments that reduce the risk or severity of damage to normal tissue or that facilitate the healing of radiation injury are being developed. These could greatly improve the quality of life of patients treated for cancer. [ABSTRACT FROM AUTHOR]

Published

2003

41. N-acetyl-L-cysteine inhibits 26S proteasome function: implications for effects on NF-κB activation

Author

Pajonk, Frank, Riess, Katrin, Sommer, Alfred, and McBride, William H.

Subjects

*PROTEOLYTIC enzymes, *IONIZING radiation, *CYTOKINES, *FREE radicals

Abstract

Ionizing radiation shares with cytokines, such as TNF-α, an ability to generate free radicals in cells and activate downstream proinflammatory responses through NF-κB-dependent signal transduction pathways. Support for the role of free radicals in triggering such responses comes from the use of free radical scavengers like N-acetyl-L-cysteine (NAC). The nature of the link between free radical generation and NF-κB activation is, however, unclear. In this study, we explore the possibility that scavenging of free radicals by NAC might not be the mechanism by which it inhibits NF-κB activation, but rather that NAC acts through inhibition of proteasome function. The effect of NAC on the chymotryptic function of the 26s and 20s proteasome complex was measured in extracts from EVC 304 bladder carcinoma cells by assessing degradation of fluorogenic substrates. NAC inhibited 26s but not 20s proteasome activity, suggesting that it interferes with 19s regulatory subunit function. NAC blocked radiation-induced NF-κB activity in ECV 304 cells and RAW 264.7 macrophages, as measured by a gel shift assay, at doses that inhibited proteasome activity. This provides a possible mechanism whereby NAC could block NF-κB activation and affect the expression of other molecules that are dependent on the ubiquitin/proteasome system for their degradation, other than by scavenging free radicals. [Copyright &y& Elsevier]

Published

2002

42. Are We Ready for a Radiological Terrorist Attack Yet? Report From the Centers for Medical Countermeasures Against Radiation Network.

Author

Brenner, David J., Chao, Nelson J., Greenberger, Joel S., Guha, Chandan, McBride, William H., Swartz, Harold M., and Williams, Jacqueline P.

Subjects

*RADIATION injuries, *RADIATION dosimetry, *RADIATION exposure, *ELECTRON paramagnetic resonance, *THERAPEUTICS

Published

2015