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3. LyP-1 Conjugated Nanoparticles for Magnetic Resonance Imaging of Triple Negative Breast Cancer.

Author

Abulrob, Abedelnasser, Corluka, Slavisa, Blasiak, Barbara, Gino Fallone, B., Ponjevic, Dragana, Matyas, John, and Tomanek, Boguslaw

Subjects
TRIPLE-negative breast cancer, MAGNETIC resonance imaging of cancer, NANOMEDICINE, BIOCONJUGATES, CYCLIC peptides, IRON oxide nanoparticles
Abstract

Purpose: Triple-negative breast cancer (TNBC) does not express estrogen receptor, progesterone receptor, or Her2/neu. Both diagnosis and treatment of TNBC remain a clinical challenge. LyP-1 is a cyclic 9 amino acid peptide that can bind to breast cancer cells. The goal of this study was to design and characterize LyP-1 conjugated to fluorescent iron oxide nanoparticles (LyP-1-Fe3O4-Cy5.5) as a contrast agent for improved and specific magnetic resonance imaging (MRI) in a preclinical model of TNBC.Procedures: The binding of LyP-1-Fe3O4-Cy5.5 to MDA-MB-231 TNBC cells was evaluated and compared to scrambled peptide bio-conjugated to iron oxide nanoparticles (Ctlpep-Fe3O4-Cy5.5) as a negative control. Following the in vitro study, the MDA-MB-231 cells were injected into mammary glands of nude mice. Mice were divided into two groups: control group received Ctlpep- Fe3O4-Cy5.5 and LyP-1 group received LyP-1-Fe3O4-Cy5.5 (tail vein injection at 2 mg/kg of Fe3O4). Mice were imaged with an in vivo fluorescence imager and a 9.4 T MRI system at various time points after contrast agent injection. The T2 relaxation time was measured to observe accumulation of the contrast agent in breast tumor and muscle for both targeted and non-targeted contrast agents.Results: Immunofluorescence revealed dense binding of the LyP-1-Fe3O4-Cy5.5 contrast agent to MDA-MB-231 cells; while little appreciable binding was observed to the scrambled negative control (Ctlpep-Fe3O4-Cy5.5). Optical imaging performed in tumor-bearing mice showed increased fluorescent signal in mammary gland of animals injected by LyP-1-Fe3O4-Cy5.5 but not Ctlpep- Fe3O4-Cy5.5. The results were confirmed ex vivo by the 2.6-fold increase of fluorescent signal from LyP-1-Fe3O4-Cy5.5 in extracted tumors when compared to the negative control. In MR imaging studies, there was a statistically significant (P < 0.01) difference in normalized T2 between healthy breast and tumor tissue at 1, 2, and 24 h post injection of the LyP-1-Fe3O4-Cy5.5. In animals injected with LyP-1-Fe3O4, distinct ring-like structures were observed with clear contrast between the tumor core and rim.Conclusion: The results demonstrate that LyP-1-Fe3O4 significantly improves MRI contrast of TNBC, hence has the potential to be exploited for the specific delivery of cancer therapeutics. [ABSTRACT FROM AUTHOR]

Published
2018
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4. Validating Intravascular Imaging with Serial Optical Coherence Tomography and Confocal Fluorescence Microscopy.

Author

Tardif, Pier-Luc, Bertrand, Marie-Jeanne, Abran, Maxime, Castonguay, Alexandre, Lefebvre, Joël, Stähli, Barbara E., Merlet, Nolwenn, Mihalache-Avram, Teodora, Geoffroy, Pascale, Mecteau, Mélanie, Busseuil, David, Feng Ni, Abulrob, Abedelnasser, Rhéaume, Éric, L'Allier, Philippe, Tardif, Jean-Claude, and Lesage, Frédéric

Subjects
ATHEROSCLEROTIC plaque, CARDIOVASCULAR diseases, INTRAVASCULAR ultrasonography, NEAR infrared spectroscopy, OPTICAL coherence tomography
Abstract

Atherosclerotic cardiovascular diseases are characterized by the formation of a plaque in the arterial wall. Intravascular ultrasound (IVUS) provides high-resolution images allowing delineation of atherosclerotic plaques. When combined with near infrared fluorescence (NIRF), the plaque can also be studied at a molecular level with a large variety of biomarkers. In this work, we present a system enabling automated volumetric histology imaging of excised aortas that can spatially correlate results with combined IVUS/NIRF imaging of lipid-rich atheroma in cholesterol-fed rabbits. Pullbacks in the rabbit aortas were performed with a dual modality IVUS/NIRF catheter developed by our group. Ex vivo three-dimensional (3D) histology was performed combining optical coherence tomography (OCT) and confocal fluorescence microscopy, providing high-resolution anatomical and molecular information, respectively, to validate in vivo findings. The microscope was combined with a serial slicer allowing for the imaging of the whole vessel automatically. Colocalization of in vivo and ex vivo results is demonstrated. Slices can then be recovered to be tested in conventional histology. [ABSTRACT FROM AUTHOR]

Published
2016
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5. Site-specific conjugation of the quencher on peptide's N-terminal for the synthesis of a targeted non-spreading activatable optical probe.

Author

Simard, Bryan, Mironov, Gleb G., Tomanek, Boguslaw, Veggel, Frank C. J. M., and Abulrob, Abedelnasser

Abstract

Optical imaging offers high sensitivity and portability at low cost. The design of 'smart' or 'activatable' probes can decrease the background noise and increase the specificity of the signal. By conjugating a fluorescent dye and a compatible quencher on each side of an enzyme's substrate, the signal remains in its 'off ' state until it reaches the area where a specific enzyme is expressed. However, the signal can leak from that area unless the dye is attached to amolecule able to bind to a specific target also presented in that area. The aimof this study was to (i) specifically conjugate the quencher on the α-amino group of the peptide's N-terminus, (ii) conjugate the dye on the ε-amino group of a lysine in C-terminus, and (iii) conjugate the carboxyl group of the peptide's C-terminus to an amino group present on an antibody, using carbodiimide chemistry. The use of protecting groups, such as Boc or Fmoc, to allow site-specific conjugation, presents several drawbacks including 'on beads labeling', additional steps required for deprotection and removal from the resin, decreased yield, and dye degradation. A method of preferential labeling of α-amino N-terminal group in slightly acidic solution, proposed by Selo et al. (1996) has partially solved the problem. The present study reports improvements of the method allowing to (i) avoid the homo-bilabeling, (ii) increase the yield of the N-terminal labeling by two folds, and (iii) decrease the cost by 44-fold. [ABSTRACT FROM AUTHOR]

Published
2016
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10. Optimal dye-quencher pairs for the design of an “activatable” nanoprobe for optical imaging.

Author

Simard, Bryan, Tomanek, Boguslaw, van Veggel, Frank C. J. M., and Abulrob, Abedelnasser

Subjects
GOLD nanoparticles, OPTICAL imaging sensors, QUENCHING (Chemistry), METALLOPROTEINASES, IRON oxides
Abstract

Optical imaging offers high sensitivity and portability at low cost. The design of an optimal “activatable” imaging agent could greatly decrease the background noise and increase specificity of the signal. Five different molecules have been used to quench basal fluorescence of an enzyme substrate labeled with Cy5, Cy5.5 or IR800 at a distance of 8 amino acids (32 Å): a 6 nm gold nanoparticle (NP), a 20 nm and a 30 nm iron oxide (FeO) NP, the black hole quencher BHQ-3 and the IRdye quencher QC-1. The quenching efficiencies were 99% for QC1–IR800, 98% for QC1–Cy5.5, 96% for 30 nm FeO NP–Cy5.5, 89% for BHQ3–Cy5, 84% for BHQ3–Cy5.5, 77–90% for 6 nm gold NP–Cy5.5, depending on the number of dyes around the NP, 79% for 20 nm FeO NP–Cy5.5 and 77% for Cy5.5–Cy5. Signal activation upon cleavage by the matrix metalloproteinase MMP9 was proportional to the quenching efficiencies, ranging from 3-fold with Cy5.5–Cy5 to 67-fold with QC1–IR800. This independent work reports on the properties of the dyes and quenchers explaining the superior performance of QC-1 and 30 nm FeO NPs. [ABSTRACT FROM AUTHOR]

Published
2013
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11. Comparison of T2 and T2 * -weighted MR molecular imaging of a mouse model of glioma.

Author

Blasiak, Barbara, Barnes, Samuel, Foniok, Tadeusz, Rushforth, David, Matyas, John, Ponjevic, Dragana, Weglarz, Wladyslaw P., Tyson, Randy, Iqbal, Umar, Abulrob, Abedelnasser, Sutherland, Garnette R., Obenaus, Andre, and Tomanek, Boguslaw

Subjects
GLIOMAS, TUMOR diagnosis, MAGNETIC resonance imaging, MICE, ANIMAL models in research
Abstract

Background: Standard MRI has been used for high-grade gliomas detection, albeit with limited success as it does not provide sufficient specificity and sensitivity to detect complex tumor structure. Therefore targeted contrast agents based on iron oxide, that shorten mostly T2 relaxation time, have been recently applied. However pulse sequences for molecular imaging in animal models of gliomas have not been yet fully studied. The aim of this study was therefore to compare contrast-to-noise ratio (CNR) and explain its origin using spin-echo (SE), gradient echo (GE), GE with flow compensation (GEFC) as well as susceptibility weighted imaging (SWI) in T2 and T2* contrast-enhanced molecular MRI of glioma. Methods: A mouse model was used. U87MGdEGFRvIII cells (U87MG), derived from a human tumor, were injected intracerebrally. A 9.4 T MRI system was used and MR imaging was performed on the 10 day after the inoculation of the tumor. The CNR was measured prior, 20 min, 2 hrs and 24 hrs post intravenous tail administration of glioma targeted paramagnetic nanoparticles (NPs) using SE, SWI, GE and GEFC pulse sequences. Results: The results showed significant differences in CNR among all pulse sequences prior injection. GEFC provided higher CNR post contrast agent injection when compared to GE and SE. Post injection CNR was the highest with SWI and significantly different from any other pulse sequence. Conclusions: Molecular MR imaging using targeted contrast agents can enhance the detection of glioma cells at 9.4 T if the optimal pulse sequence is used. Hence, the use of flow compensated pulse sequences, beside SWI, should to be considered in the molecular imaging studies. [ABSTRACT FROM AUTHOR]

Published
2013
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14. Influence of glioma tumour microenvironment on the transport of ANG1005 via low-density lipoprotein receptor-related protein 1.

Author

Bertrand, Y, Currie, J-C, Poirier, J, Demeule, M, Abulrob, A, Fatehi, D, Stanimirovic, D, Sartelet, H, Castaigne, J-P, Béliveau, R, and Béliveau, R

Subjects
GLIOMAS, LOW density lipoproteins, IMMUNOHISTOCHEMISTRY, AMINO acids, LABORATORY mice, ENDOCYTOSIS
Abstract

Background: ANG1005 consists of three molecules of paclitaxel conjugated via ester bonds to the 19-amino-acid peptide Angiopep-2. The new chemical agent has been shown to cross the blood-brain barrier (BBB) by receptor-mediated transcytosis via low-density lipoprotein receptor-related protein 1 (LRP1). The experiments here examined the role of LRP1 in the subsequent endocytosis of drug into cancer cells.Methods: Localisation of ANG1005 and Angiopep-2 was examined by immunohistochemistry and in-vivo near-infrared fluorescence imaging in mice carrying orthotopic glioma tumours. Transport of ANG1005 and Angiopep-2 was examined in U87 glioblastoma cell lines.Results: Systemically administered ANG1005 and Cy5.5Angiopep-2 localised to orthotopic glioma tumours in mice. The glioma transplants correlated with high expression levels of LRP1. Decreasing LRP1 activity, by RNA silencing or LRP1 competitors, decreased uptake of ANG1005 and Angiopep-2 into U87 glioblastoma cells. Conversely, LRP1 expression and endocytosis rates for ANG1005 and Angiopep-2 increased in U87 cells under conditions that mimicked the microenvironment near aggressive tumours, that is, hypoxic and acidic conditions.Conclusion: ANG1005 might be a particularly effective chemotherapeutic agent for the wide array of known LRP1-expressing brain and non-brain cancers, in particular those with an aggressive phenotype. [ABSTRACT FROM AUTHOR]

Published
2011
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15. Transport characteristics of a novel peptide platform for CNS therapeutics.

Author

Bertrand, Yanick, Currie, Jean-Christophe, Demeule, Michel, Régina, Anthony, Ché, Christian, Abulrob, Abedelnasser, Fatehi, Dorothy, Sartelet, Hervé, Gabathuler, Reinhard, Castaigne, Jean-Paul, Stanimirovic, Danica, and Béliveau, Richard

Subjects
BLOOD-brain barrier, PEPTIDES, BIOLOGICAL transport, LOW density lipoproteins, FLUORESCENCE, IMMUNOHISTOCHEMISTRY, NEUROGLIA, BIOMARKERS
Abstract

New and effective therapeutics that cross the blood-brain barrier (BBB) are critically needed for treatment of many brain diseases. We characterize here a novel drug development platform that is broadly applicable for the development of new therapeutics with increased brain penetration. The platform is based on the Angiopep-2 peptide, a sequence derived from ligands that bind to low-density lipoprotein receptor-related protein-1 (LRP-1), a receptor expressed on the BBB. Fluorescent imaging studies of a Cy5.5Angiopep-2 conjugate and immunohistochemical studies of injected Angiopep-2 in mice demonstrated efficient transport across the BBB into brain parenchyma and subsequent co-localization with the neuronal nuclei-selective marker NeuN and the glial marker glial fibrillary acidic protein (GFAP). Uptake of [I]-Angiopep-2 into brain endothelial cells occurred by a saturable mechanism involving LRP-1. The primary sequence and charge of Angiopep-2 were crucial for its passage across the BBB. Overall, the results demonstrate the significant potential of this platform for the development of novel neurotherapeutics. [ABSTRACT FROM AUTHOR]

Published
2010
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16. Molecular imaging of glioblastoma multiforme using anti-insulin-like growth factor-binding protein-7 single-domain antibodies.

Author

Iqbal, U., Albaghdadi, H., Luo, Y., Arbabi, M., Desvaux, C., Veres, T., Stanimirovic, D., and Abulrob, A.

Subjects
GLIOBLASTOMA multiforme, INSULIN, PROTEINS, TUMORS, RESONANCE, MICROSCOPY
Abstract

Background: Insulin-like growth factor-binding protein 7 (IGFBP7) is an abundant, selective and accessible biomarker of glioblastoma multiforme (GBM) tumour vessels. In this study, an anti-IGFBP7 single-domain antibody (sdAb) was developed to target GBM vessels for molecular imaging applications.Methods: Human GBM was modelled in mice by intracranial implantation of U87MG.EGFRvIII cells. An anti-IGFBP7 sdAb, isolated from an immune llama library by panning, was assessed in vitro for its binding affinity using surface plasmon resonance and by ex vivo immunobinding on mouse and human GBM tissue. Tumour targeting by Cy5.5-labelled anti-IGFBP7 sdAb as well as by anti-IGFBP7 sdAb conjugated to PEGylated Fe₃O₄ nanoparticles (NPs)-Cy5.5 were assessed in U87MG.EGFRvIII tumour-bearing mice in vivo using optical imaging and in brain sections using fluorescent microscopy.Results: Surface plasmon resonance analyses revealed a medium affinity (K(D)=40-50 nM) binding of the anti-IGFBP7 sdAb to the purified antigen. The anti-IGFBP7 sdAb also selectively bound to both mouse and human GBM vessels, but not normal brain vessels in tissue sections. In vivo, intravenously injected anti-IGFBP7 sdAb-Cy5.5 bound to GBM vessels creating high imaging signal in the intracranial tumour. Similarly, the anti-IGFBP7 sdAb-functionalised PEGylated Fe₃O₄ NP-Cy5.5 demonstrated enhanced tumour signal compared with non-targeted NPs. Fluorescent microscopy confirmed the presence of anti-IGFBP7 sdAb and anti-IGFBP7 sdAb-PEGylated Fe₃O₄ NPs selectively in GBM vessels.Conclusions: Anti-IGFBP7 sdAbs are novel GBM vessel-targeting moieties suitable for molecular imaging. [ABSTRACT FROM AUTHOR]

Published
2010
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17. Kinetic analysis of novel mono- and multivalent VHH-fragments and their application for molecular imaging of brain tumours.

Author

Iqbal, U, Trojahn, U, Albaghdadi, H, Zhang, J, O'Connor-McCourt, M, Stanimirovic, D, Tomanek, B, Sutherland, G, and Abulrob, A

Subjects
BRAIN tumors, BRAIN imaging, BRAIN tomography, EPIDERMAL growth factor, GLIOBLASTOMA multiforme, PHARMACOKINETICS, LABORATORY mice, BRAIN tumor diagnosis, PROTEIN metabolism, ANIMAL experimentation, ANTIGEN-antibody reactions, CELL lines, PHYSICAL & theoretical chemistry, COMPARATIVE studies, COMPUTED tomography, DIAGNOSTIC imaging, DYNAMICS, GLIOMAS, IMMUNOGLOBULINS, RESEARCH methodology, MEDICAL cooperation, MICE, MOLECULAR diagnosis, OPTICAL tomography, RESEARCH, RESEARCH funding, TIME, EVALUATION research, DIAGNOSIS
Abstract

Background and Purpose: The overexpression of epidermal growth factor receptor (EGFR) and its mutated variant EGFRvIII occurs in 50% of glioblastoma multiforme. We developed antibody fragments against EGFR/EGFRvIII for molecular imaging and/or therapeutic targeting applications.Experimental Approach: An anti-EGFR/EGFRvIII llama single-domain antibody (EG(2)) and two higher valency format constructs, bivalent EG(2)-hFc and pentavalent V2C-EG(2) sdAbs, were analysed in vitro for their binding affinities using surface plasmon resonance and cell binding studies, and in vivo using pharmacokinetic, biodistribution, optical imaging and fluorescent microscopy studies.Key Results: Kinetic binding analyses by surface plasmon resonance revealed intrinsic affinities of 55 nM and 97 nM for the monovalent EG(2) to immobilized extracellular domains of EGFR and EGFRvIII, respectively, and a 10- to 600-fold increases in apparent affinities for the multivalent binders, V2C-EG(2) and EG(2)-hFc, respectively. In vivo pharmacokinetic and biodistribution studies in mice revealed plasma half-lives for EG(2), V2C-EG(2) and EG(2)-hFc of 41 min, 80 min and 12.5 h, respectively, as well as a significantly higher retention of EG(2)-hFc compared to the other two constructs in EGFR/EGFRvIII-expressing orthotopic brain tumours, resulting in the highest signal in the tumour region in optical imaging studies. Time domain volumetric optical imaging fusion with high-resolution micro-computed tomography of microvascular brain network confirmed EG(2)-hFc selective accumulation/retention in anatomically defined tumour regions.Conclusions: Single domain antibodies can be optimized for molecular imaging applications by methods that improve their apparent affinity and prolong plasma half-life and, at the same time, preserve their ability to penetrate tumour parenchyma. [ABSTRACT FROM AUTHOR]

Published
2010
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18. Near-field scanning optical microscopy detects nanoscale glycolipid domains in the plasma membrane.

Author

ABULROB, A., LU, Z., BRUNETTE, E., PULLA, D., STANIMIROVIC, D., and JOHNSTON, L. J.

Subjects
HELA cells, MICROSCOPY, GLYCOLIPIDS, CELL membranes, CONFOCAL microscopy, NEAR-field microscopy
Abstract

The localization of asialo-GM1 in ordered membrane raft domains in HeLa cells has been examined using a combination of membrane fractionation and fluorescence imaging. The glycolipid is enriched in Triton X-100 insoluble membrane fractions that contain high concentrations of cholesterol and caveolin-1 but is also found in detergent soluble membrane fractions. Near-field fluorescence microscopy shows that a fraction of the asialo-GM1 is localized in small nanoscale clusters that have an upper limit for the average diameter of approximately 90 nm and are partially colocalized with caveolae membrane domains. In addition to clusters, a diffuse, non-clustered population of asialo-GM1 is observed and is hypothesized to correspond to glycolipid isolated in detergent soluble membrane fractions. [ABSTRACT FROM AUTHOR]

Published
2008
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19. Dynamic Analysis of the Blood-Brain Barrier Disruption in Experimental Stroke Using Time Domain In Vivo Fluorescence Imaging.

Author

Abulrob, Abedelnasser, Brunette, Eric, Slinn, Jacqueline, Baumann, Ewa, and Stanimirovic, Danica

Subjects
BLOOD-brain barrier disorders, CEREBRAL ischemia, BRAIN imaging, SERUM albumin, CEREBRAL arteries
Abstract

The blood-brain barrier (BBB) disruption following cerebral ischemia can be exploited to deliver imaging agents and therapeutics into the brain. The aim of this study was (a) to establish novel in vivo optical imaging methods for longitudinal assessment of the BBB disruption and (b) to assess size selectivity and temporal patterns of the BBB disruption after a transient focal ischemia. The BBB permeability was assessed using in vivo time domain near-infrared optical imaging after contrast enhancement with either free Cy5.5 (1 kDa) or Cy5.5 conjugated with bovine serum albumin (BSA) (67 kDa) in mice subjected to either 60- or 20-minute transient middle cerebral artery occlusion (MCAO) and various times of reperfusion (up to 14 days). In vivo imaging observations were corroborated by ex vivo brain imaging and microscopic analyses of fluorescent tracer extravasation. The in vivo optical contrast enhancement with Cy5.5 was spatially larger than that observed with BSACy5.5. Longitudinal studies after a transient 20-minute MCAO suggested a bilateral BBB disruption, more pronounced in the ipsilateral hemisphere, peaking at day 7 and resolving at day 14 after ischemia. The area differential between the BBB disruption for small and large molecules could potentially be useful as a surrogate imaging marker for assessing perinfarct tissues to which neuroprotective therapies of appropriate sizes could be delivered. [ABSTRACT FROM AUTHOR]

Published
2008
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20. In Vivo Time Domain Optical Imaging of Renal Ischemia-Reperfusion Injury: Discrimination Based on Fluorescence Lifetime.

Author

Abulrob, Abedelnasser, Brunette, Eric, Slinn, Jacqueline, Baumann, Ewa, and Stanimirovic, Danica

Subjects
MEDICAL imaging systems, KIDNEY diseases, REPERFUSION injury, FLUORESCENCE, FLUORESCENT probes, ISCHEMIA
Abstract

Fluorescence lifetime is an intrinsic parameter of the fluorescent probe, independent of the probe concentration but sensitive to changes in the surrounding microenvironment. Therefore, fluorescence lifetime imaging could potentially be applied to in vivo diagnostic assessment of changes in the tissue microenvironment caused by disease, such as ischemia. The aim of this study was to evaluate the utility of noninvasive fluorescence lifetime imaging in distinguishing between normal and ischemic kidney tissue in rive. Mice were subjected to 60-minute unilateral kidney ischemia followed by 6-hour reperfusion. Animals were then injected with the near-infrared fluorescence probe Cy5.5 or saline and imaged using a time-domain small-animal optical imaging system. Both fluorescence intensity and lifetime were acquired. The fluorescence intensity of Cy5.5 was clearly reduced in the ischemic compared with the contraleteral kidney, and the fluorescence lifetime of Cy5.5 was not detected in the ischemic kidney, suggesting reduced kidney clearance. Interestingly, the two-component lifetime analysis of endogenous fluorescence at 700 nm distinguished renal ischemia in vivo without the need for Cy5.5 injection for contrast enhancement. The average fluorescence lifetime of endogenous tissue fluorophores was a sensitive indicator of kidney ischemia ex vivo. The study suggests that fluorescence lifetime analysis of endogenous tissue fluorophores could be used to discriminate ischemic or necrotic tissues by noninvasive in rive or ex rive organ imaging. [ABSTRACT FROM AUTHOR]

Published
2007
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21. The blood–brain barrier transmigrating single domain antibody: mechanisms of transport and antigenic epitopes in human brain endothelial cells.

Author

Abulrob, Abedelnasser, Sprong, Hein, Van Bergen en Henegouwen, Paul, and Stanimirovic, Danica

Subjects
IMMUNOGLOBULINS, ENDOTHELIUM, ENDOCYTOSIS, CYCLODEXTRINS, IMMUNOCHEMISTRY
Abstract

Antibodies against receptors that undergo transcytosis across the blood–brain barrier (BBB) have been used as vectors to target drugs or therapeutic peptides into the brain. We have recently discovered a novel single domain antibody, FC5, which transmigrates across human cerebral endothelial cells in vitro and the BBB in vivo. The purpose of this study was to characterize mechanisms of FC5 endocytosis and transcytosis across the BBB and its putative receptor on human brain endothelial cells. The transport of FC5 across human brain endothelial cells was polarized, charge independent and temperature dependent, suggesting a receptor-mediated process. FC5 taken up by human brain endothelial cells co-localized with clathrin but not with caveolin-1 by immunochemistry and was detected in clathrin-enriched subcellular fractions by western blot. The transendothelial migration of FC5 was reduced by inhibitors of clathrin-mediated endocytosis, K+ depletion and chlorpromazine, but was insensitive to caveolae inhibitors, filipin, nystatin or methyl-β-cyclodextrin. Following internalization, FC5 was targeted to early endosomes, bypassed late endosomes/lysosomes and remained intact after transcytosis. The transcytosis process was inhibited by agents that affect actin cytoskeleton or intracellular signaling through PI3-kinase. Pretreatment of human brain endothelial cells with wheatgerm agglutinin, sialic acid, α(2,3)-neuraminidase or Maackia amurensis agglutinin that recognizes α(2,3)-, but not with Sambucus nigra agglutinin that recognizes α(2,6) sialylgalactosyl residues, significantly reduced FC5 transcytosis. FC5 failed to recognize brain endothelial cells-derived lipids, suggesting that it binds luminal α(2,3)-sialoglycoprotein receptor which triggers clathrin-mediated endocytosis. This putative receptor may be a new target for developing brain-targeting drug delivery vectors. [ABSTRACT FROM AUTHOR]

Published
2005
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22. Protection by cholesterol-extracting cyclodextrins: a role forN-methyl-d-aspartate receptor redistribution.

Author

Abulrob, Abedelnasser, Tauskela, Joseph S., Mealing, Geoff, Brunette, Eric, Faid, Karim, and Stanimirovic, Danica

Subjects
CYCLODEXTRINS, OLIGOSACCHARIDES, CHOLESTEROL, ISCHEMIA, BIOLOGICAL membranes, PROTEINS
Abstract

Cyclodextrins (CDs) are cyclic oligosaccharides composed of a lipophilic central cavity and a hydrophilic outer surface. Some CDs are capable of extracting cholesterol from cell membranes and can affect function of receptors and proteins localized in cholesterol-rich membrane domains. In this report, we demonstrate the neuroprotective activity of some CD derivatives against oxygen–glucose deprivation (OGD),N-methyl-d-aspartic acid (NMDA) and glutamate in cortical neuronal cultures. Although all CDs complexed with NMDA or glutamate, onlyβ-, methylatedβ- and sulfatedβ-CDs displayed neuroprotective activity and lowered cellular cholesterol. Only CDs that lowered cholesterol levels redistributed the NMDA receptor NR2B subunit, PSD-95 (postsynaptic density protein 95 kDa) and neuronal nitric oxide synthase (nNOS) from Triton X-100 insoluble membrane domains to soluble fractions. Cholesterol repletion counteracted the ability of methylatedβ-CD to protect against NMDA toxicity, and reversed NR2B, PSD-95 and nNOS localization to Triton X-100 insoluble membrane fraction. Surprisingly, neuroprotective CDs had minimal effect on NMDA receptor-mediated increases in intracellular Ca2+ concentration ([Ca2+]i), but did suppress OGD-induced increases in[Ca2+]i.β-CD, but not Mβ-CD, also caused a slight block of NMDA-induced currents, suggesting a minor contribution to neuroprotection by direct action on NMDA receptors. Taken together, data suggest that cholesterol extraction from detergent-resistant microdomains affects NMDA receptor subunit distribution and signal propagation, resulting in neuroprotection of cortical neuronal cultures against ischemic and excitotoxic insults. Since cholesterol-rich membrane domains exist in neuronal postsynaptic densities, these results imply that synaptic NMDA receptor subpopulations underlie excitotoxicity, which can be targeted by CDs without affecting overall neuronal Ca2+ levels. [ABSTRACT FROM AUTHOR]

Published
2005
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23. Interactions of EGFR and caveolin-1 in human glioblastoma cells: evidence that tyrosine phosphorylation regulates EGFR association with caveolae.

Author

Abulrob, Abedelnasser, Giuseppin, Sabina, Andrade, Moises F, McDermid, Angela, Moreno, Maria, and Stanimirovic, Danica

Subjects
GLIOBLASTOMA multiforme, PHOSPHORYLATION, PROTEIN-tyrosine kinases, IMMUNOCYTOCHEMISTRY, IMMUNOFLUORESCENCE, ONCOLOGY
Abstract

Epidermal growth factor receptor (EGFR) amplification and type III mutation (EGFRvIII), associated with constitutive tyrosine kinase activation and high malignancy, are commonly observed in glioblastoma tumors. The association of EGFR and EGFRvIII with caveolins was investigated in human glioblastoma cell lines, U87MG and U87MG-EGFRvIII. Caveolin-1 expression, determined by RT-PCR, real-time quantitative PCR and Western blot, was upregulated in glioblastoma cell lines (two-fold) and tumors (20-300-fold) compared to primary human astrocytes and nonmalignant brain tissue, respectively. U87MG-EGFRvIII expressed higher levels of caveolin-1 than U87MG. In contrast, the expression of caveolin-2 and -3 were downregulated in glioblastoma cells compared to astrocytes. A colocalization of EGFR, but not of EGFRvIII, with lipid rafts and caveolin-1 was observed by immunocytochemistry. Association of EGFR and EGFRvIII with caveolae, assessed in vitro by binding to caveolin scaffolding domain peptides and in vivo by immunocolocalization studies in cells and caveolae-enriched cellular fraction, was phosphorylation-dependent: ligand-induced phosphorylation of EGFR resulted in dissociation of EGFR from caveolae. In contrast, inhibition of the EGFRvIII constitutive tyrosine phosphorylation by AG1478 increased association of EGFRvIII with caveolin-1. AG1478 also increased caveolin-1 expression and reduced glioblastoma cell growth in a semi-solid agar. The evidence suggests that the phosphorylation-regulated sequestration of EGFR in caveolae may be involved in arresting constitutive or ligand-induced signaling through EGFR responsible for glial cell transformation.Oncogene (2004) 23, 6967-6979. doi:10.1038/sj.onc.1207911 Published online 26 July 2004 [ABSTRACT FROM AUTHOR]

Published
2004
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24. Caveolae: An Alternative Membrane Transport Compartment.

Author

Gumbleton, Mark, Abulrob, Abedel-nasser, and Campbell, Lee

Abstract

Caveolae are omega-shaped invaginations of the plasma membrane with a diameter of 50-100 nm. Caveolae invaginations can detach from the plasma membrane to form discrete functional caveolae vesicles within the cell cytoplasm. Caveolae are most prominent in adipocytes, fibroblasts, muscle cells (skeletal, smooth and cardiac), capillary endothelium and type I pneumocytes, although other cell types also display these structures but at a lower numerical density. The key structural and functional protein for caveolae is caveolin. At the plasma membrane caveolae serve to compartmentalise and integrate a wide range of signal transduction processes. Caveolae also serve transport functions including that of the vesicular internalisation of small molecules by the process of potocytosis, and the endocytic and transcytotic movements of macromolecules. Opportunities exist for basic and applied investigators working within the pharmaceutical sciences to exploit caveolae membrane interactions with the aim to develop novel cellular or transcellular drug delivery strategies. [ABSTRACT FROM AUTHOR]

Published
2000
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26. Correction to: LyP-1 Conjugated Nanoparticles for Magnetic Resonance Imaging of Triple Negative Breast Cancer.

Author

Abulrob, Abedelnasser, Corluka, Slavisa, Blasiak, Barbara, Gino Fallone, B., Ponjevic, Dragana, Matyas, John, and Tomanek, Boguslaw

Subjects
TRIPLE-negative breast cancer, MAGNETIC resonance imaging of cancer, NANOMEDICINE
Abstract

This article was updated to correct the spelling of B. Gino Fallone's name; it is correct as displayed above. Correction to: Mol Imaging Biol (2017). DOI: https://doi.org/10.1007/s11307-017-1140-4. [ABSTRACT FROM AUTHOR]

Published
2018
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27. Small unilamellar vesicles: a platform technology for molecular imaging of brain tumors.

Author

Iqbal, Umar, Albaghdadi, Homam, Nieh, Mu-Ping, Tuor, Ursula I., Mester, Zoltan, Stanimirovic, Danica, Katsaras, John, and Abulrob, Abedelnasser

Abstract

Molecular imaging enables the non-invasive investigation of cellular and molecular processes. Although there are challenges to overcome, the development of targeted contrast agents to increase the sensitivity of molecular imaging techniques is essential for their clinical translation. In this study, spontaneously forming, small unilamellar vesicles (sULVs) (30 nm diameter) were used as a platform to build a bimodal (i.e., optical and magnetic resonance imaging (MRI)) targeted contrast agent for the molecular imaging of brain tumors. sULVs were loaded with a gadolinium (Gd) chelated lipid (Gd-DPTA-BOA), functionalized with targeting antibodies (anti-EGFR monoclonal and anti-IGFBP7 single domain), and incorporated a near infrared dye (Cy5.5). The resultant sULVs were characterized in vitro using small angle neutron scattering (SANS), phantom MRI and dynamic light scattering (DLS). Antibody targeted and nontargeted Gd loaded sULVs labeled with Cy5.5 were assessed in vivo in a brain tumor model in mice using time domain optical imaging and MRI. The results demonstrated that a spontaneously forming, nanosized ULVs loaded with a high payload of Gd can selectively target and image, using MR and optical imaging, brain tumor vessels when functionalized with anti-IGFBP7 single domain antibodies. The unique features of these targeted sULVs make them promising molecular MRI contrast agents. [ABSTRACT FROM AUTHOR]

Published
2011
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