Your search keyword '"antiangiogenesis"' showing total 10 results

1. Anti-vascular endothelial growth factor treatment normalizes tuberculosis granuloma vasculature and improves small molecule delivery.

Author

Datta, Meenal, Via, Laura E., Kamoun, Walid S., Chong Liu, Wei Chen, Seano, Giorgio, Weiner, Danielle M., Schimel, Daniel, England, Kathleen, Martin, John D., Xing Gao, Lei Xu, Barry III, Clifton E., and Jain, Rakesh K.

Subjects

*TUBERCULOSIS, *BEVACIZUMAB, *GRANULOMA, *CANCER, *CHRONIC granulomatous disease

Abstract

Tuberculosis (TB) causes almost 2 million deaths annually, and an increasing number of patients are resistant to existing therapies. Patients who have TB require lengthy chemotherapy, possibly because of poor penetration of antibiotics into granulomas where the bacilli reside. Granulomas are morphologically similar to solid cancerous tumors in that they contain hypoxic microenvironments and can be highly fibrotic. Here, we show that TB-infected rabbits have impaired small molecule distribution into these disease sites due to a functionally abnormal vasculature, with a low-molecular-weight tracer accumulating only in peripheral regions of granulomatous lesions. Granuloma-associated vessels are morphologically and spatially heterogeneous, with poor vessel pericyte coverage in both human and experimental rabbit TB granulomas. Moreover, we found enhanced VEGF expression in both species. In tumors, antiangiogenic, specifically anti-VEGF, treatments can "normalize" their vasculature, reducing hypoxia and creating a window of opportunity for concurrent chemotherapy; thus, we investigated vessel normalization in rabbit TB granulomas. Treatment of TB-infected rabbits with the anti-VEGF antibody bevacizumab significantly decreased the total number of vessels while normalizing those vessels that remained. As a result, hypoxic fractions of these granulomas were reduced and small molecule tracer delivery was increased. These findings demonstrate that bevacizumab treatment promotes vascular normalization, improves small molecule delivery, and decreases hypoxia in TB granulomas, thereby providing a potential avenue to improve delivery and efficacy of current treatment regimens. [ABSTRACT FROM AUTHOR]

Published

2015

2. Tumorigenicity of hypoxic respiring cancer cells revealed by a hypoxia-cell cycle dual reporter.

Author

Le, Anne, Stine, Zachary E., Nguyen, Christopher, Afzal, Junaid, Sun, Peng, Hamaker, Max, Siegel, Nicholas M., Gouw, Arvin M., Kang, Byung-hak, Yu, Shu-Han, Cochran, Rory L., Sailor, Kurt A., Song, Hongjun, and Dang, Chi V.

Subjects

*CANCER cells, *TUMORS, *PHOSPHORYLATION, *CYTOLOGY, *CELLULAR pathology

Abstract

Although aerobic glycolysis provides an advantage in the hypoxic tumor microenvironment, some cancer cells can also respire via oxidative phosphorylation. These respiring ("non-Warburg") cells were previously thought not to play a key role in tumorigenesis and thus fell from favor in the literature. We sought to determine whether subpopulations of hypoxic cancer cells have different metabolic phenotypes and gene-expression profiles that could influence tumorigenicity and therapeutic response, and we there-fore developed a dual fluorescent protein reporter, HypoxCR, that detects hypoxic [hypoxia-inducible factor (HIF) active] and/ or cycling cells. Using HEK293T cells as a model, we identified four distinct hypoxic cell populations by flow cytometry. The non-HIF/ noncycling cell population expressed a unique set of genes in-volved in mitochondrial function. Relative to the other subpopulations, these hypoxic "non-Warburg" cells had highest oxygen consumption rates and mitochondrial capacity consistent with increased mitochondrial respiration. We found that these respiring cells were unexpectedly tumorigenic, suggesting that continued respiration under limiting oxygen conditions may be required for tumorigenicity. [ABSTRACT FROM AUTHOR]

Published

2014

3. Multifaceted oncolytic virus therapy for glioblastoma in an immunocompetent cancer stem cell model.

Author

Cheema, Tooba A., Wakimoto, Hiroaki, Fecci, Peter E., Jianfang Ning, Kuroda, Toshihiko, Jeyaretna, Deva S., Martuza, Robert L., and Rabkin, Samuel D.

Subjects

*GLIOBLASTOMA multiforme, *GLIOMAS, *BRAIN tumors, *CANCER treatment, *CANCER chemotherapy

Abstract

Glioblastoma (World Health Organization grade IV) is an aggressive adult brain tumor that is inevitably fatal despite surgery, radiation, and chemotherapy. Treatment failures are attributed to combinations of cellular heterogeneity, including a subpopulation of often-resistant cancer stem cells, aberrant vasculature, and noteworthy immune suppression. Current preclinical models and treatment strategies do not incorporate or address all these features satisfactorily. Herein, we describe a murine glioblastoma stem cell (GSC) model that recapitulates tumor heterogeneity, invasiveness, vascularity, and immunosuppressive microenvironment in syngeneic immunocompetent mice and should prove useful for a range of therapeutic studies. Using this model, we tested a genetically engineered oncolytic herpes simplex virus that is armed with an immunomodulatory cytokine, interleukin 12 (G47Δ,-mIL12). G47Δ-mILl2 infects and replicates similarly to its unarmed oncolytic herpes simplex virus counterpart in mouse 005 GSCs in vitro, whereas in vivo, it significantly enhances survival in syngeneic mice bearing intracerebral 005 tumors. Mechanistically, G47Δ-mlL12 targets not only GSC5 but also increases IFN-γ release, inhibits angiogenesis, and reduces the number of regulatory T cells in the tumor. The increased efficacy is dependent upon T cells, but not natural killer cells. Taken together, our findings demonstrate that G47Δ-mlL12 provides a multifaceted approach to targeting GSCs, tumor microenvironment, and the immune system, with resultant therapeutic benefit in a stringent glioblastoma model. [ABSTRACT FROM AUTHOR]

Published

2013

4. Molecular mechanism of pancreatic tumor metastasis inhibition by Gd@C82(OH)22 and its implication for de novo design of nanomedicine.

Author

Seung-gu Kang, Guoqiang Zhou, Ping Yang, Ying Liu, Baoyun Sun, Tien Huynh, Huan Meng, Lina Zhao, Gengmei Xing, Chunying Chen, Yuliang Zhao, and Ruhong Zhou

Subjects

*PANCREATIC tumors, *METASTASIS, *MOLECULAR biology, *NANOMEDICINE, *DRUG design, *ADENOCARCINOMA, *CANCER-related mortality

Abstract

Pancreatic adenocarcinoma is the most lethal of the solid tumors and the fourth-leading cause of cancer-related death in North America. Matrix metalloproteinases (MMPs) have long been targeted as a potential anticancer therapy because of their seminal role in angiogenesis and extracellular matrix (ECM) degradation of tumor survival and invasion. However, the inhibition specificity to MMPs and the molecular-level understanding of the inhibition mechanism remain largely unresolved. Here, we found that endo-hedral metallofullerenol Gd@C82(OH)22 can successfully inhibit the neoplastic activity with experiments at animal, tissue, and cellular levels. Gd@C82(OH)22 effectively blocks tumor growth in human pancreatic cancer xenografts in a nude mouse model. Enzyme activity assays also show Gd@C82(OH)22 not only suppresses the expression of MMPs but also significantly reduces their activities. We then applied large-scale molecular-dynamics simulations to illustrate the molecular mechanism by studying the Gd@C82(OH)22-MMP-9 interactions in atomic detail. Our data demonstrated that Gd@C82(OH)22 inhibits MMP-9 mainly via an exocite interaction, whereas the well-known zinc catalytic site only plays a minimal role. Steered by nonspecific electrostatic, hydrophobic, and specific hydrogen-bonding interactions, Gd®C82(OH)22 exhibits specific binding modes near the ligand-specificity loop S1′, thereby inhibiting MMP-9 activity. Both the suppression of MMP expression and specific binding mode make Gd@C82(OH)22 a potentially more effective nanomedicine for pancreatic cancer than traditional medicines, which usually target the proteolytic sites directly but fail in selective inhibition. Our findings provide insights for de novo design of nanomedicines for fatal diseases such as pancreatic cancer. [ABSTRACT FROM AUTHOR]

Published

2012

5. Cysteine-rich intestinal protein 2 (CRIP2) acts as a repressor of N F-κB-mediated proangiogenic cytokine transcription to suppress tumorigenesis and angiogenesis.

Author

Kwok Leung Cheung, Arthur, Ko, Josephine M. Y., Hong Lok Lung, Kwok Wah Chan, Stanbridge, Eric J., Zabarovsky, Eugene, Tokino, Takashi, Kashima, Lisa, Suzuki, Toshiharu, Lai-Wan Kwong, Dora, Chua, Daniel, Sai Wah Tsao, and Li Lung, Maria

Subjects

*PROTEIN analysis, *CYSTEINE proteinases, *GENETIC transcription, *GENETIC code, *PROMOTERS (Genetics), *NEOVASCULARIZATION

Abstract

Chromosome 14 was transferred into tumorigenic nasopharyngeal carcinoma and esophageal carcinoma cell lines by a microcell-mediated chromosome transfer approach. Functional complementation of defects present in the cancer cells suppressed tumor formation. A candidate tumor-suppressor gene, cysteine-rich intestinal protein 2 (CRIP2), located in the hot spot for chromosomal loss at 14q32.3, was identified as an important candidate gene capable of functionally suppressing tumor formation. Previous studies have shown that CRIP2 is associated with development. To date, no report has provided functional evidence supporting a role for CRIP2 in tumor development. The present study provides unequivocal evidence that CRIP2 can functionally suppress tumorigenesis. CRIP2 is significantly down-regulated in nasopharyngeal carcinoma cell lines and tumors. CRIP2 reexpression functionally suppresses in vivo tumorigenesis and angiogenesis; these effects are induced by its transcription-repressor capability. It interacts with the NF-κB/p65 to inhibit its DNA-binding ability to the promoter regions of the major proangiogenesis cytokines critical for tumor progression, including IL6, IL8, and VEGF. In conclusion, we provide compelling evidence that CRIP2 acts as a transcription repressor of the NF-κB-mediated proangiogenic cytokine expression and thus functionally inhibits tumor formation and angiogenesis. [ABSTRACT FROM AUTHOR]

Published

2011

6. Scaling rules for diffusive drug delivery in tumor and normal tissues.

Author

Baish, James W., Stylianopoulos, Triantafyllos, Lanning, Ryan M., Kamoun, Walid S., Fukumura, Dai, Munn, Lance L., and Jain, Rakesh K.

Subjects

*DOSAGE forms of drugs, *NANOPARTICLES, *BLOOD vessels, *GEOMETRY, *TISSUES

Abstract

Delivery of blood-borne molecules and nanoparticles from the vasculature to cells in the tissue differs dramatically between tumor and normal tissues due to differences in their vascular architectures. Here we show that two simple measures of vascular geometry—δmax and λ—readily obtained from vascular images, capture these differences and link vascular structure to delivery in both tissue types. The longest time needed to bring materials to their destination scales with the square of δmax, the maximum distance in the tissue from the nearest blood vessel, whereas λ, a measure of the shape of the spaces between vessels, determines the rate of delivery for shorter times. Our results are useful for evaluating how new therapeutic agents that inhibit or stimulate vascular growth alter the functional efficiency of the vasculature and more broadly for analysis of diffusion in irregularly shaped domains. [ABSTRACT FROM AUTHOR]

Published

2011

7. Endothelial expression of autocrine VEGF upon the uptake of tumor-derived microvesicles containing oncogenic EGFR.

Author

Al-Nedawi, Khalid, Meehan, Brian, Kerbel, Robert S., Allison, Anthony C., and Rak, Janusz

Subjects

*EPIDERMAL growth factor, *NEOVASCULARIZATION inhibitors, *TUMORS, *CANCER cells, *ANNEXINS, *ONCOGENES, *AUTOCRINE mechanisms

Abstract

Activated EGF receptor (EGFR) plays an oncogenic role in several human malignancies. Although the intracellular effects of EGFR are well studied, its ability to induce and modulate tumor angiogenesis is less understood. We found previously that oncogenic EGFR can be shed from cancer cells as cargo of membrane microvesicles (MVs), which can interact with surfaces of other cells. Here we report that MVs produced by human cancer cells harboring activated EGFR (A431, A549, DLD-1) can be taken up by cultured endothelial cells, in which they elicit EGFR-dependent responses, including activation of MAPK and Akt pathways. These responses can be blocked by annexin V and its homodimer, Diannexin, both of which cloak phosphatidylserine residues on the surfaces of MVs. Interestingly, the intercellular EGFR transfer is also accompanied by the onset of VEGF expression in endothelial cells and by autocrine activation of its key signaling receptor (VEGF receptor-2). In A431 human tumor xenografts in mice, angiogenicendothelial cells stain positively for human EGFR and phospho-EGFR, while treatment with Diannexin leads to a reduction of tumor growth rate and microvascular density. Thus, we propose that oncogene-containing tumor cell-derived MVs could act as a unique form of angiogenesis-modulating stimuli and are capable of switching endothelial cells to act in an autocrine mode. [ABSTRACT FROM AUTHOR]

Published

2009

8. Improved tumor vascularization after anti-VEGF therapy with carboplatin and nab-paclitaxel associates with survival in lung cancer.

Author

Heist RS, Duda DG, Sahani DV, Ancukiewicz M, Fidias P, Sequist LV, Temel JS, Shaw AT, Pennell NA, Neal JW, Gandhi L, Lynch TJ, Engelman JA, and Jain RK

Subjects

Albumins administration & dosage, Bevacizumab, Biomarkers, Tumor blood, Carboplatin administration & dosage, Carcinoma, Non-Small-Cell Lung blood supply, Female, Humans, Lung Neoplasms blood supply, Male, Middle Aged, Paclitaxel administration & dosage, Angiogenesis Inhibitors therapeutic use, Antibodies, Monoclonal, Humanized therapeutic use, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Carcinoma, Non-Small-Cell Lung drug therapy, Lung Neoplasms drug therapy, Neovascularization, Pathologic drug therapy, Vascular Endothelial Growth Factor A antagonists & inhibitors

Abstract

Addition of anti-VEGF antibody therapy to standard chemotherapies has improved survival and is an accepted standard of care for advanced non-small cell lung cancer (NSCLC). However, the mechanisms by which anti-VEGF therapy increases survival remain unclear. We evaluated dynamic CT-based vascular parameters and plasma cytokines after bevacizumab alone and after bevacizumab plus chemotherapy with carboplatin and nab-paclitaxel in advanced NSCLC patients to explore potential biomarkers of treatment response and resistance to this regimen. Thirty-six patients were enrolled in this study. The primary end point was 6-mo progression-free survival rate, which was 74% (95% CI: 57, 97). This regimen has a promising overall response rate of 36% and median time to progression of 8.5 (6.0, 38.7) mo and overall survival of 12.2 (9.6, 44.1) mo. We found that anti-VEGF therapy led to a sustained increase in plasma PlGF, a potential pharmacodynamic marker. We also found that higher levels of soluble VEGFR1 measured before starting bevacizumab with chemotherapy were associated with worse survival, supporting its potential role as biomarker of treatment resistance. Our imaging biomarker studies indicate that bevacizumab-based treatment-while reducing blood flow, volume, and permeability in the overall population-may be associated with improved survival in patients with improved tumor vasculature and blood perfusion after treatment. This hypothesis-generating study supports the notion that excessively decreasing vascular permeability and pruning/rarefaction after bevacizumab therapy may negatively impact the outcome of combination therapy in NSCLC patients. This hypothesis warrants further dose-titration studies of bevacizumab to examine the dose effect on tumor vasculature and treatment efficacy.

Published

2015

9. Transcription Factor Fos-Related Antigen 1 Is an Effective Target for a Breast Cancer Vaccine

Author

Luo, Yunping, Zhou, He, Mizutani, Masato, Mizutani, Noriko, Reisfeld, Ralph A., and Xiang, Rong

Published

2003

10. Control of Tumor Growth in Animals by Infusion of an Angiogenesis Inhibitor

Author

Langer, Robert, Conn, Howard, Vacanti, Joseph, Haudenschild, Christian, and Folkman, Judah

Published

1980