Your search keyword '"Nathaniel Wilganowski"' showing total 13 results

1. Abstract 4791: Metabolic switch from glycolysis to oxidative phosphorylation (ox-phos) provides survival advantage to anti-androgen-treated prostate cancer cells and make them vulnerable to mitochondrial metabolism inhibitors IACS-010759 and CB-839

Author

G. Wilding, Nathaniel Wilganowski, Evan N. Cohen, Mark Titus, James M. Reuben, Sumankalai Ramachandran, Samantha Robertson, Hirak S. Basu, and Amado Zurita-Saavedra

Subjects

Cancer Research, business.industry, Cancer, Oxidative phosphorylation, Mitochondrion, medicine.disease, Prostate cancer, Circulating tumor cell, Oncology, Cancer cell, LNCaP, Cancer research, medicine, Sample collection, business

Abstract

Background: Most cancer cells depend more on glycolysis for their energy need compared with their normal counterparts incubated under identical condition. In addition to glycolysis, tumor cells also engage mitochondrial ox-phos to support growth. Here, we show that PCa cells surviving under anti-androgen enzalutamide (ENZA) treatment switch from glycolysis to ox-phos for their energy need and are more vulnerable to mitochondria-targeted metabolic inhibitors. We have also standardized a high-resolution quantitative fluorescence microscopic method to detect this metabolic switch in patient circulating tumor cells (CTCs). Methods: Seahorse assay has been used to compare mitochondrial metabolism in ENZA treated anti-androgen-sensitive LNCaP and -resistant C4-2 and PCa2b cells. The Seahorse data were supported by mass spectroscopic analysis of corresponding metabolites and metabolic fluxes. An ex vivo fluorescence staining for the CTC mitochondria with high ox-phos followed by high-resolution quantitative microscopic image analysis method has been standardized to follow such changes in cultured cells and patient CTCs. Results: Seahorse, mass spectroscopy and high-resolution microscopy of mitochondrial ox-phos showed that ENZA significantly decreases glycolysis and increases ox-phos in all surviving PCa cells within 24h of treatment. These cells are more vulnerable to treatment with mitochondrial ox-phos inhibitor IACS-010759 and a glutaminase inhibitor CB-839. High-resolution microscopic analysis of CTCs has thus far been performed in 18 patient blood samples. Six out of the 18 patients developed resistance to anti-androgen therapy within 0-6 months of sample collection. CTCs from all six patients showed a relatively higher average fluorescence due to high mitochondrial ox-phos as compared with the rest of the patients. Discussion: The data presented here may lead to informed combination therapy for selected PCa patients developing resistance to anti-androgen therapy for better clinical outcome. Citation Format: Hirak S. Basu, Nathaniel Wilganowski, Samantha Robertson, Sumankalai Ramachandran, Amado Zurita-Saavedra, Mark Titus, Evan Cohen, James Reuben, George Wilding. Metabolic switch from glycolysis to oxidative phosphorylation (ox-phos) provides survival advantage to anti-androgen-treated prostate cancer cells and make them vulnerable to mitochondrial metabolism inhibitors IACS-010759 and CB-839 [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 4791.

Published

2020

2. The camKK2/camKIV relay is an essential regulator of hepatic cancer

Author

Cristian Coarfa, Fumin Lin, Kimal Rajapakshe, Holly Robinson, Anthony R. Means, Lauren C. Goldie, Eva M. Sevick, Adam Dean, Kathrina L. Marcelo, Karl-Dimiter Bissig, Brian York, and Nathaniel Wilganowski

Subjects

Male, Carcinoma, Hepatocellular, Calcium-Calmodulin-Dependent Protein Kinase Kinase, Mice, Inbred Strains, Biology, Article, Mice, Tumor Cells, Cultured, medicine, Animals, Humans, Protein kinase A, CAMKK2, Hepatology, Cell growth, Kinase, Biopsy, Needle, Liver Neoplasms, Cancer, medicine.disease, Up-Regulation, Gene Expression Regulation, Neoplastic, Survival Rate, Positron-Emission Tomography, Ribosomal protein s6, Cancer research, Female, Ectopic expression, Liver cancer, Calcium-Calmodulin-Dependent Protein Kinase Type 4

Abstract

Hepatic cancer is one of the most lethal cancers worldwide. Here, we report that the expression of Ca2+/calmodulin-dependent protein kinase kinase 2 (CaMKK2) is significantly up-regulated in hepatocellular carcinoma (HCC) and negatively correlated with HCC patient survival. The CaMKK2 protein is highly expressed in all eight hepatic cancer cell lines evaluated and is markedly up-regulated relative to normal primary hepatocytes. Loss of CaMKK2 function is sufficient to inhibit liver cancer cell growth, and the growth defect resulting from loss of CaMKK2 can be rescued by ectopic expression of wild-type CaMKK2 but not by kinase-inactive mutants. Cellular ablation of CaMKK2 using RNA interference yields a gene signature that correlates with improvement in HCC patient survival, and ablation or pharmacological inhibition of CaMKK2 with STO-609 impairs tumorigenicity of liver cancer cells in vivo. Moreover, CaMKK2 expression is up-regulated in a time-dependent manner in a carcinogen-induced HCC mouse model, and STO-609 treatment regresses hepatic tumor burden in this model. Mechanistically, CaMKK2 signals through Ca2+/calmodulin-dependent protein kinase 4 (CaMKIV) to control liver cancer cell growth. Further analysis revealed that CaMKK2 serves as a scaffold to assemble CaMKIV with key components of the mammalian target of rapamycin/ribosomal protein S6 kinase, 70 kDa, pathway and thereby stimulate protein synthesis through protein phosphorylation. Conclusion: The CaMKK2/CaMKIV relay is an upstream regulator of the oncogenic mammalian target of rapamycin/ribosomal protein S6 kinase, 70 kDa, pathway, and the importance of this CaMKK2/CaMKIV axis in HCC growth is confirmed by the potent growth inhibitory effects of genetically or pharmacologically decreasing CaMKK2 activity; collectively, these findings suggest that CaMKK2 and CaMKIV may represent potential targets for hepatic cancer. (Hepatology 2015;62:505–520

Published

2015

3. Targeting Pili in Enterococcal Pathogenesis

Author

Barrett R. Harvey, Ali Azhdarinia, Holly Robinson, Peng Gao, Eva M. Sevick-Muraca, Nathaniel Wilganowski, Sukhen C. Ghosh, Kavindra V. Singh, Barbara E. Murray, and Kenneth L. Pinkston

Subjects

medicine.drug_class, Immunology, Monoclonal antibody, Microbiology, Pilus, Enterococcus faecalis, Fimbriae Proteins, chemistry.chemical_compound, medicine, Animals, Gram-Positive Bacterial Infections, biology, Immunization, Passive, Biofilm, Antibodies, Monoclonal, Endocarditis, Bacterial, biology.organism_classification, Virology, Rats, Disease Models, Animal, Infectious Diseases, chemistry, Biofilms, Fimbriae, Bacterial, Microbial Immunity and Vaccines, Monoclonal, biology.protein, Parasitology, Peptidoglycan, Antibody

Abstract

Passive protection, the administration of antibodies to prevent infection, has garnered significant interest in recent years as a potential prophylactic countermeasure to decrease the prevalence of hospital-acquired infections. Pili, polymerized protein structures covalently anchored to the peptidoglycan wall of many Gram-positive pathogens, are ideal targets for antibody intervention, given their importance in establishing infection and their accessibility to antibody interactions. In this work, we demonstrated that a monoclonal antibody to the major component of Enterococcus faecalis pili, EbpC, labels polymerized pilus structures, diminishes biofilm formation, and significantly prevents the establishment of a rat endocarditis infection. The effectiveness of this anti-EbpC monoclonal provides strong evidence in support of its potential as a preventative. In addition, after radiolabeling, this monoclonal identified the site of enterococcal infection, providing a rare example of molecularly specific imaging of an established bacterial infection and demonstrating the versatility of this agent for use in future diagnostic and therapeutic applications.

Published

2014

4. A Modular Dual-Labeling Scaffold That Retains Agonistic Properties for Somatostatin Receptor Targeting

Author

Julie Voss, Nathaniel Wilganowski, Melissa Rodriguez, Ali Azhdarinia, Agnes Schonbrunn, Sukhen C. Ghosh, and Kendra S. Carmon

Subjects

Agonist, medicine.drug_class, Octreotide, Mice, Nude, Pharmacology, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, In vivo, Positron Emission Tomography Computed Tomography, medicine, Animals, Humans, Radiology, Nuclear Medicine and imaging, Cyclic adenosine monophosphate, Tissue Distribution, Receptors, Somatostatin, Chelating Agents, Radiochemistry, Dose-Response Relationship, Drug, Chemistry, Somatostatin receptor, Neoplasms, Experimental, Imaging agent, In vitro, Pancreatic Neoplasms, HEK293 Cells, Copper Radioisotopes, 030220 oncology & carcinogenesis, Drug Design, Isotope Labeling, Female, Radiopharmaceuticals, Ex vivo, medicine.drug

Abstract

Fluorescence-guided surgery is an emerging imaging technique that can enhance the ability of surgeons to detect tumors when compared with visual observation. To facilitate characterization, fluorescently labeled probes have been dual-labeled with a radionuclide to enable cross-validation with nuclear imaging. In this study, we selected the somatostatin receptor imaging agent DOTATOC as the foundation for developing a dual-labeled analog. We hypothesized that a customized dual-labeling approach with a multimodality chelation (MMC) scaffold would minimize steric effects of dye conjugation and retain agonist properties. Methods: An MMC conjugate (MMC-TOC) was synthesized on solid-phase and compared with an analog prepared using conventional methods (DA-TOC). Both analogs were conjugated to IRDye 800 using copper-free click chemistry. The resulting compounds, MMC(IR800)-TOC and DA(IR800)-TOC, were labeled with Cu and 64Cu and tested in vitro in somatostatin receptor subtype 2-overexpressing HEK-293 cells to assess agonist properties, and in AR42J rat pancreatic cancer cells to determine receptor binding characteristics. Multimodality imaging was performed in AR42J xenografts. Results: Cu-MMC(IR800)-TOC demonstrated higher potency for cyclic adenosine monophosphate inhibition (half maximal effective concentration [EC50]: 0.21 ± 0.18 vs. 1.38 ± 0.54 nM) and receptor internalization (EC50: 41.9 ± 29.8 vs. 455 ± 299 nM) than Cu-DA(IR800)-TOC. Radioactive uptake studies showed that blocking with octreotide caused a dose-dependent reduction in 64Cu-MMC(IR800)-TOC uptake whereas 64Cu-DA(IR800)-TOC was not affected. In vivo studies revealed higher tumor uptake for 64Cu-MMC(IR800)-TOC than 64Cu-DA(IR800)-TOC (5.2 ± 0.2 vs. 3.6 ± 0.4 percentage injected dose per gram). In vivo blocking studies with octreotide reduced tumor uptake of 64Cu-MMC(IR800)-TOC by 66%. Excretion of 64Cu-MMC(IR800)-TOC was primarily through the liver and spleen whereas 64Cu-DA(IR800)-TOC was cleared through the kidneys. Ex vivo analysis at 24 h confirmed PET/CT data by showing near-infrared fluorescence signal in tumors and a tumor-to-muscle ratio of 5.3 ± 0.8 as determined by γ-counting. Conclusion: The findings demonstrate that drug design affected receptor pharmacology and suggest that the MMC scaffold is a useful tool for the development of dual-labeled imaging agents.

Published

2016

5. Fatty acid desaturase 1 knockout mice are lean with improved glycemic control and decreased development of atheromatous plaque

Author

David Powell, Jason Gay, Melinda Smith, Nathaniel Wilganowski, Angela Harris, Autumn Holland, Maricela Reyes, Laura Kirkham, Laura Kirkpatrick, Brian Zambrowicz, Gwenn Hansen, Kenneth Platt, Isaac van Sligtenhorst, Zhi-Ming Ding, and Urvi Desai

Subjects

0301 basic medicine, obesity, medicine.medical_specialty, FADS1, FADS2, medicine.medical_treatment, delta-6 desaturase, Biology, 03 medical and health sciences, chemistry.chemical_compound, Internal medicine, Diabetes mellitus, delta-5 desaturase, Internal Medicine, medicine, Fatty Acid Desaturase 1, Targets and Therapy [Diabetes, Metabolic Syndrome and Obesity], Original Research, Pharmacology, chemistry.chemical_classification, diabetes, Triglyceride, Insulin, medicine.disease, Delta-6-desaturase, 030104 developmental biology, Endocrinology, chemistry, atherosclerosis, Polyunsaturated fatty acid

Abstract

David R Powell,Jason P Gay,Melinda Smith,Nathaniel Wilganowski,Angela Harris,Autumn Holland,Maricela Reyes,Laura Kirkham,Laura L Kirkpatrick,Brian Zambrowicz,Gwenn Hansen,Kenneth A Platt,Isaac van Sligtenhorst,Zhi-Ming Ding,Urvi Desai Metabolism Research, Lexicon Pharmaceuticals, Inc., The Woodlands, TX, USA Abstract: Delta-5 desaturase (D5D) and delta-6 desaturase (D6D), encoded by fatty acid desaturase 1 (FADS1) and FADS2 genes, respectively, are enzymes in the synthetic pathways for w3, w6, and w9 polyunsaturated fatty acids (PUFAs). Although PUFAs appear to be involved in mammalian metabolic pathways, the physiologic effect of isolated D5D deficiency on these pathways is unclear. After generating >4,650 knockouts (KOs) of independent mouse genes and analyzing them in our high-throughput phenotypic screen, we found that Fads1 KO mice were among the leanest of 3,651 chow-fed KO lines analyzed for body composition and were among the most glucose tolerant of 2,489 high-fat-diet-fed KO lines analyzed by oral glucose tolerance test. In confirmatory studies, chow- or high-fat-diet-fed Fads1 KO mice were leaner than wild-type (WT) littermates; when data from multiple cohorts of adult mice were combined, body fat was 38% and 31% lower in Fads1 male and female KO mice, respectively. Fads1 KO mice also had lower glucose and insulin excursions during oral glucose tolerance tests along with lower fasting glucose, insulin, triglyceride, and total cholesterol levels. In additional studies using a vascular injury model, Fads1 KO mice had significantly decreased femoral artery intima/media ratios consistent with a decreased inflammatory response in their arterial wall. Based on this result, we bred Fads1 KO and WT mice onto an ApoE KO background and fed them a Western diet for 14weeks; in this atherogenic environment, aortic trees of Fads1 KO mice had 40% less atheromatous plaque compared to WT littermates. Importantly, PUFA levels measured in brain and liver phospholipid fractions of Fads1 KO mice were consistent with decreased D5D activity and normal D6D activity. The beneficial metabolic phenotype demonstrated in Fads1 KO mice suggests that selective D5D inhibitors may be useful in the treatment of human obesity, diabetes, and atherosclerotic cardiovascular disease. Keywords: delta-5 desaturase, delta-6 desaturase, obesity, diabetes, atherosclerosis

Published

2016

6. Dual-Labeling Strategies for Nuclear and Fluorescence Molecular Imaging: A Review and Analysis

Author

Nathaniel Wilganowski, Ali Azhdarinia, Pradip Ghosh, Eva M. Sevick-Muraca, and Sukhen C. Ghosh

Subjects

Cancer Research, medicine.medical_specialty, Positron emission tomography, Computer science, Near infrared fluorescence, Review Article, Near-infrared fluorescence, 030218 nuclear medicine & medical imaging, Resection, 03 medical and health sciences, Mice, 0302 clinical medicine, medicine, Medicine & Public Health, Animals, Humans, Radiology, Nuclear Medicine and imaging, Medical physics, Intraoperative imaging, Dual labeling, Multimodality, Fluorescent Dyes, Medicine(all), Tomography, Emission-Computed, Single-Photon, Radiochemistry, Spectroscopy, Near-Infrared, medicine.diagnostic_test, Imaging / Radiology, Fluorescence, Single-photon emission computed tomography, 3. Good health, Molecular Imaging, Spectrometry, Fluorescence, Oncology, 030220 oncology & carcinogenesis, Positron-Emission Tomography, Dual-labeling, Molecular imaging, Preclinical imaging, Biomedical engineering

Abstract

Molecular imaging is used for the detection of biochemical processes through the development of target-specific contrast agents. Separately, modalities such as nuclear and near-infrared fluorescence (NIRF) imaging have been shown to non-invasively monitor disease. More recently, merging of these modalities has shown promise owing to their comparable detection sensitivity and benefited from the development of dual-labeled imaging agents. Dual-labeled agents hold promise for whole-body and intraoperative imaging and could bridge the gap between surgical planning and image-guided resection with a single, molecularly targeted agent. In this review, we summarized the literature for dual-labeled antibodies and peptides that have been developed and have highlighted key considerations for incorporating NIRF dyes into nuclear labeling strategies. We also summarized our findings on several commercially available NIRF dyes and offer perspectives for developing a toolkit to select the optimal NIRF dye and radiometal combination for multimodality imaging.

Published

2011

7. Characterization of chemical, radiochemical and optical properties of a dual-labeled MMP-9 targeting peptide

Author

Sunkuk Kwon, Elizabeth A. Olmsted-Davis, Pradip Ghosh, ZaWaunyka Lazard, Alan R. Davis, Nathaniel Wilganowski, Holly Robinson, Eva M. Sevick-Muraca, and Ali Azhdarinia

Subjects

Clinical Biochemistry, Pharmaceutical Science, Gallium Radioisotopes, Peptide, Mice, SCID, Biochemistry, Article, Mice, Drug Delivery Systems, Mice, Inbred NOD, In vivo, Drug Discovery, Animals, Humans, Chelation, Molecular Biology, Chromatography, High Pressure Liquid, Fluorescent Dyes, chemistry.chemical_classification, Molecular Structure, Chemistry, Organic Chemistry, Spectrofluorometer, Small molecule, Fluorescence, Matrix Metalloproteinase 9, Biophysics, Molecular Medicine, Molecular imaging, Peptides, Preclinical imaging

Abstract

Optical imaging possesses similar sensitivity to nuclear imaging and has led to the emergence of multimodal approaches with dual-labeled nuclear/near-infrared (NIR) agents. The growing impact of (68)Ga (t(1/2)=68 min) labeled peptides on preclinical and clinical research offers a promising opportunity to merge the high spatial resolution of NIR imaging with the clinically-accepted positron emission tomography (PET). Previously, dual-labeled agents have been prepared with longer-lived radiometals and showed no detrimental effects on optical properties as a result of radiolabeling. In this study, we selected a peptide (M(2)) that targets MMP-2/9 and is dual-labeled with IRDye 800 CW and (68)Ga. Since (68)Ga chelation typically requires low pH (3.5-4) and elevated heating temperatures (95 °C), we sought to evaluate the impact of (68)Ga labeling on the optical properties of M(2). An efficient method for preparation of (68)Ga-M(2) was developed and reaction conditions were optimized. Stability studies in PBS, DTPA, and serum were performed and high levels of intact agent were evident under each condition. The addition of multiple reporters to a targeting agent adds further complexity to the characterization and validation and thus requires not only testing to ensure the agent is stable chemically and radiochemically, but also optically. Therefore, fluorescence properties were evaluated using a spectrofluorometer as well as by fluorescence detection via HPLC. It was determined that (68)Ga-labeling conditions did not impair the fluorescent properties of the agent. The agent was then used for in vivo imaging in a mouse model of heterotopic ossification (HO) with activated MMP-9 expression as an early biomarker which precedes mineralization. Although (68)Ga-complexation greatly reduced binding affinity of the peptide and negated tracer uptake on PET, NIR imaging showed consistent fluorescent signal that correlated to MMP-9 expression. This attests to the feasibility of using (68)Ga/NIR for dual-labeling of other peptides or small molecules for multimodality molecular imaging.

Published

2011

8. Abstract B091: Small-molecule inhibitors targeting a specific metabolic pathway for precision therapy of advanced castrate-resistant prostate cancer

Author

Grace T. Wu, Mark Titus, Hirak S. Basu, G. Wilding, Izabela Fokt, Jessica L. Lieblich, Waldemar Priebe, David J. Beebe, Nathaniel Wilganowski, Sumankalai Ramachandran, and Jiaquin Yu

Subjects

Cancer Research, Chemistry, Cell growth, Cancer, medicine.disease, Metastasis, Androgen receptor, Prostate cancer, Oncology, In vivo, LNCaP, medicine, Cancer research, Ex vivo

Abstract

Introduction: The mechanism of prostate cancer (PCa) progression to the mostly lethal, metastatic, castrate-resistant stage (mCRPC) remains generally unknown. This prevents identifying patients likely to progress to mCRPC and designing new therapies for their treatment. A transcription factor JunD is overexpressed in PCa, but not in normal prostate epithelial cells. It complexes with androgen receptor (AR) to induce spermidine/spermine acetyl transferase (SSAT) [3]. SSAT initiates polyamine oxidation that generates copious amounts of reactive oxygen species (ROS) production in polyamine-rich PCa cells. ROS activate NF-κB. NF-κB can also induce SSAT and activate AR. This sets up a feed-forward loop for PCa growth at low androgen. Here, we present one mechanism of PCa progression to CRPC as well as its invasion and metastasis that may provide predictive biomarkers to identify patients with potentially lethal PCa at an early stage. Effects of an agent that can block both AR-JunD and AR-NF-κB interactions and prevent growth of PCa cells in vitro as well as in vivo xenografts will also be presented. Method: We have used a novel microscale device to separate invading from noninvading PCa cells ex vivo in a bone microenvironment. Immunocytochemistry (ICC), proteomic and metabolomic techniques have been employed to analyze the separated cells to understand the mechanism of invasion. Gaussia luciferase reconstitution assay has been used in a high-throughput screen (HTS) to identify inhibitors of AR-JunD and AR-NF-κB interactions. State-of-the-art in vitro cell growth assay along with in vivo pharmacokinetic (PK), maximum tolerated dose (MTD) and enzalutamide-resistant CRPC cell xenograft growth in nude mice are used to optimize the lead. Summary of Unpublished Results: Immunocytochemistry (ICC) data show that in cultured enzalutamide-resistant C4-2 and -sensitive LNCaP cells as well as in some patient PCa cells, more SSAT-positive cells are in the migratory than in the stationary section of the microscale device. Metabolomic analysis show a decrease in 3-phospho-glycerate levels in C4-2 cells, suggesting a decrease in GAPDH enzymatic activity that is related to an enhanced oxidation of GAPDH protein. Our published data of screening of 27,000+ compounds from two different chemical libraries detected a single compound that specifically inhibits both AR-JunD and AR-NF-κB2 (p52) interactions. We have synthesized several of its analogs. Lead analogs inhibit growth of AR-positive C4-2 and LNCaP cells, but have little effect on the growth of AR-negative PC-3 and SSAT-silent LNCaP siSSAT cells in culture. Co-immunoprecipitation (co-IP) assay shows its efficacy in inhibiting AR-JunD and AR-p52 interactions in LNCaP cells. It has been formulated in 25% ethanol:water and administered to nude mice orally. It is well tolerated at 50 mg/kg p.o. daily for more than 28 days and has a serum Cmax of ~ 3 μM within 30 minutes and a plasma t1/2 of ~1 h after a single oral dose of 100 mg/kg. Twenty-four hours after dosing it is found in the flank tumor (1.5 ng/mg tissue; ~450 nM) and in the prostate tissues (10 ng/mg tissue; ~3 μM) in addition to liver and kidney. Its effects on the growth of C4-2 xenografts in nude mice will be presented. Conclusion: A mechanism of PCa progression to CRPC and then to mCRPC provides a rational basis for targeted drug design that prevents PCa progression and metastasis. This should open up a new avenue of precision therapy of potentially lethal PCa at an early stage. Citation Format: Hirak Basu, Nathaniel Wilganowski, Jessica Lieblich, Grace Wu, Izabela Fokt, Sumankalai Ramachandran, Jiaquin Yu, Mark Titus, Waldemar Priebe, David J. Beebe, George Wilding. Small-molecule inhibitors targeting a specific metabolic pathway for precision therapy of advanced castrate-resistant prostate cancer [abstract]. In: Proceedings of the AACR Special Conference: Prostate Cancer: Advances in Basic, Translational, and Clinical Research; 2017 Dec 2-5; Orlando, Florida. Philadelphia (PA): AACR; Cancer Res 2018;78(16 Suppl):Abstract nr B091.

Published

2018

9. Diacylglycerol Lipase α Knockout Mice Demonstrate Metabolic and Behavioral Phenotypes Similar to Those of Cannabinoid Receptor 1 Knockout Mice

Author

David R. Powell, Jason P. Gay, Nathaniel Wilganowski, Deon Doree, Katerina V. Savelieva, Thomas H. Lanthorn, Robert Read, Peter Vogel, Gwenn M. Hansen, Robert Brommage, Zhi-Ming Ding, Urvi Desai, and Brian Zambrowicz

Subjects

medicine.medical_specialty, obesity, Diacylglycerol lipase, mouse knockout models, cannabinoid receptor 1 gene, Endocrinology, Diabetes and Metabolism, 2-Arachidonoylglycerol, Weanling, diacylglycerol lipase gene, lcsh:Diseases of the endocrine glands. Clinical endocrinology, chemistry.chemical_compound, Endocrinology, Internal medicine, medicine, endocannabinoids, Gene knockout, Original Research, lcsh:RC648-665, biology, Triglyceride, Anandamide, anxiety, Endocannabinoid system, 2-arachidonoylglycerol, chemistry, Knockout mouse, depression, biology.protein

Abstract

After creating >4650 knockouts (KOs) of independent mouse genes, we screened them by high-throughput phenotyping and found that cannabinoid receptor 1 (Cnr1) KO mice had the same lean phenotype published by others. We asked if our KOs of DAG lipase a or b (Dagla or Daglb), which catalyze biosynthesis of the endocannabinoid (EC) 2-Arachidonoylglycerol (2-AG), or Napepld, which catalyzes biosynthesis of the EC anandamide, shared the lean phenotype of Cnr1 KO mice. We found that Dagla KO mice, but not Daglb or Napepld KO mice, were among the leanest of 3651 chow-fed KO lines screened. In confirmatory studies, chow- or high fat diet-fed Dagla and Cnr1 KO mice were leaner than wild type (WT) littermates; when data from multiple cohorts of adult mice were combined, body fat was 47% and 45% lower in Dagla and Cnr1 KO mice, respectively, relative to WT values. In contrast, neither Daglb nor Napepld KO mice were lean. Weanling Dagla KO mice ate less than WT mice and had body weight similar to pair-fed WT mice, and adult Dagla KO mice had normal activity and VO2 levels, similar to Cnr1 KO mice. Our Dagla and Cnr1 KO mice also had low fasting insulin, triglyceride and total cholesterol levels, and after a glucose challenge had normal glucose but very low insulin levels. Dagla and Cnr1 KO mice also showed similar responses to a battery of behavioral tests. These data suggest: 1) the lean phenotype of young Dagla and Cnr1 KO mice is mainly due to hypophagia; 2) in pathways where ECs signal through Cnr1 to regulate food intake and other metabolic and behavioral phenotypes observed in Cnr1 KO mice, Dagla alone provides the 2-AG that serves as the EC signal; and 3) small molecule Dagla inhibitors with a pharmacokinetic profile similar to that of Cnr1 inverse agonists are likely to mirror the ability of these Cnr1 inverse agonists to lower body weight and improve glycemic control in obese patients with type 2 diabetes, but may also induce undesirable neuropsychiatric side-effects.

Published

2015

10. In vivo imaging of orthotopic prostate cancer with far-red gene reporter fluorescence tomography and in vivo and ex vivo validation

Author

Ali Azhdarinia, Yujie Lu, Chinmay Darne, Eva M. Sevick-Muraca, Banghe Zhu, I-Chih Tan, Holly Robinson, Grace Wu, Nathaniel Wilganowski, and John C. Rasmussen

Subjects

Male, Pathology, medicine.medical_specialty, Fluorescence-lifetime imaging microscopy, Biomedical Engineering, Mice, Nude, Biomaterials, Prostate cancer, chemistry.chemical_compound, Mice, In vivo, Prostate, Genes, Reporter, Cell Line, Tumor, medicine, Image Processing, Computer-Assisted, Animals, Humans, Tomography, medicine.diagnostic_test, Chemistry, Special Section Papers, Prostatic Neoplasms, Reproducibility of Results, Epithelial cell adhesion molecule, medicine.disease, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Luminescent Proteins, medicine.anatomical_structure, Microscopy, Fluorescence, Positron emission tomography, Cancer research, Preclinical imaging, Ex vivo, Algorithms, Neoplasm Transplantation

Abstract

Fluorescence gene reporters have recently become available for excitation at far-red wavelengths, enabling opportunities for small animal in vivo gene reporter fluorescence tomography (GRFT). We employed multiple projections of the far-red fluorescence gene reporters IFP1.4 and iRFP, excited by a point source in transillumination geometry in order to reconstruct the location of orthotopically implanted human prostate cancer (PC3), which stably expresses the reporter. Reconstruction was performed using a linear radiative-transfer-based regularization-free tomographic method. Positron emission tomography (PET) imaging of a radiolabeled antibody-based agent that targeted epithelial cell adhesion molecule overexpressed on PC3 cells was used to confirm in vivo GRFT results. Validation of GRFT results was also conducted from ex vivo fluorescence imaging of resected prostate tumor. In addition, in mice with large primary prostate tumors, a combination of GRFT and PET showed that the radiolabeled antibody did not penetrate the tumor, consistent with known tumor transport limitations of large (∼150 kDa ) molecules. These results represent the first tomography of a living animal using far-red gene reporters.

Published

2013

11. Abstract 4298: Comparison of dual labeling strategies for NIRF/PET hybrid imaging

Author

Ali Azhdarinia, Banghe Zhu, Sukhen C. Ghosh, Kenneth L. Pinkston, Nathaniel Wilganowski, Barrett R. Harvey, Eva M. Sevick-Muraca, and Holly Robinson

Subjects

Cancer Research, medicine.diagnostic_test, medicine.drug_class, Monoclonal antibody, Fluorescence, Molecular biology, Dithiothreitol, Immunoconjugate, chemistry.chemical_compound, Oncology, chemistry, Biochemistry, Positron emission tomography, In vivo, medicine, Chelation, Preclinical imaging

Abstract

Objectives: Positron Emission Tomography (PET) plays a pivotal role in the surgical care of cancer patients pre- and post-operatively, however, no functional imaging approaches are currently available for real-time surgical guidance. Recently, antibodies dual-labeled with radioactive and near-infrared fluorescent (NIRF) labels have emerged as potential agents to extend whole-body nuclear imaging capabilities into the operating room, but structural limitations in conventional labeling reagents necessitate a random, two-step labeling process which can reduce bioactivity and batch reproducibility. Here, we evaluate the utility of a site-specific multimodal chelator (MMC) that combines PET/NIRF labeling into a single moiety for enhanced production of immunoconjugates for hybrid imaging. Methods: An anti-epithelial cell adhesion molecule (EpCAM)-specific antibody, mAb7, was treated with varying amounts of the reducing agent dithiothreitol (DTT) to partially reduce the interchain disulfides and permit conjugation with MMC-maleimide. The number of MMC moieties per mAb were quantified by isotopic dilution using non-radioactive Cu and immunoreactivity was assessed by ELISA. 64Cu labeling was performed and samples were purified by size exclusion prior to HPLC analysis. Stability of the immunoconjugates was evaluated by HPLC. Multimodal PET/NIRF imaging was performed in an orthotopic prostate tumor model to assess in vivo targeting. Results: mAbs treated with increasing amounts of DTT had higher conjugation ratios, with values ranging from 1-8 MMC moieties per mAb. ELISAs showed no differences in binding potency for the MMC-immunoconjugates. Radiochemical yields were high for all samples (>80%) and increased as a function of conjugation ratio. Interestingly, initial 64Cu labeling of the immunoconjugate with a MMC/mAb ratio of 4 had a corresponding HPLC trace showing >95% radiochemical purity, however, labeling 8 weeks later revealed formation of a second, prominent radioactive peak. Conversely, the HPLC profile of the immunoconjugate with a MMC/mAb ratio of 2 was consistent throughout the study, suggesting a possible correlation between the extent of partial reduction and protein stability. This observation was supported by in vivo imaging findings as lesions were better visualized in mice receiving 64Cu-MMC-mAb7 with a MMC/mAb ratio of 2. Conclusions: The results indicate that site-specific conjugation of MMC is effective for dual labeling antibodies. However, partial reduction conditions must be optimized in order to obtain a multimodal immunoconjugate with suitable imaging properties and stability. Citation Format: Sukhen C. Ghosh, Barrett R. Harvey, Holly Robinson, Kenneth L. Pinkston, Nathaniel Wilganowski, Banghe Zhu, Eva M. Sevick-Muraca, Ali Azhdarinia. Comparison of dual labeling strategies for NIRF/PET hybrid imaging. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 4298. doi:10.1158/1538-7445.AM2014-4298

Published

2014

12. Abstract 2055: Modulated near-infrared fluorescence light imaging of primary tumor margins, cancer positive lymph nodes, and freshly excised human cancers with imaging agent targeting EpCAM

Author

Grace Wu, Holly Robinson, Barrett Harvey, Ron Karni, Songlin Zhang, Melissa Aldrich, Eva M. Sevick-Muraca, Nathaniel Wilganowski, Pinkston Kenneth Lynn, Banghe Zhu, and Gao Peng

Subjects

Cancer Research, Pathology, medicine.medical_specialty, medicine.drug_class, business.industry, Cancer, Epithelial cell adhesion molecule, Monoclonal antibody, medicine.disease, Primary tumor, Imaging agent, Prostate cancer, chemistry.chemical_compound, Oncology, chemistry, medicine, Lymph, Molecular imaging, business

Abstract

We developed an epithelial cancer-specific, imaging agent labeled for near-infrared florescence (NIRF) imaging together with an intraoperative surgical device for sensitive detection of tumor margins and local metastatic lesions within the surgical field of view. The drug/device combination was tested on an orthotopic model and on freshly resected, human cancerous tissues. To maximize device performance, we illuminated tissue surfaces with modulated near-infrared (NIR) excitation light (785 nm) and collected fluroescent light (830 nm) via using a NIR sensitive image intensifier modulated at with 90 degree phase delays added between 3 consecutively acquired images. These phase-delayed images were collected by a CCD and processed in near-real time to provide images of fluroescence amplitude with significantly higher contrast and without significant reduction in signal to noise ratio as compared to conventional images acquired without modulation. To develop a universal imaging agent for use with the device, a high affinity monoclonal antibody (mAb) against epithelial cell adhesion molecule (EpCAM) was selected from a previously generated panel and labeled with NIRF dye, IRDye800. The labeled mAb was characterized for conserved biological activity. Upon dual-labeling this lead mAb candidate for both PET and NIRF, we showed the accuracy of planar NIRF imaging (96%) to be superior to PET (93%) for detecting cancer positive lymph nodes 24 hours following 40 ug i.v. injection in an orthotopic model of PC3 human metastatic prostate cancer 10-12 weeks post-implantation. Compared to NIRF labeled isotype control mAb, the labeled anti-EpCAM mAb accurately detected primary tumor margins as indicated by both pathology and far-red fluorescent protein reporter, iRFP (excitation 690 nm/ emission 720 nm), that was stably expressed in implanted PC3 cells. Furthermore, modulated light imaging provided greater accuracy in detecting margins compared to the widely used conventional fluorescent collection techniques. Upon immersing freshly excised human squamous cell carcinoma tissues from individual patients in dilute solutions of labeled anti-EpCAM and labeled isotype control and rinsing, we used the device to demonstrate consistent and specific binding of labeled anti-EpCAM mAb to cancer sites. In addition, cancer margins detected by NIRF were pathologically confirmed. When combined with a high-affinity imaging agent targeting an antigen overexpressed on nearly all epithelial cancers, NIRF imaging can be used to accurate detect margins as well as cancer positive LNs. Finally, the modulated NIRF imaging can be deployed for open surgeries as well as endoscopic and robotic surgeries wherein surgical field illumination would otherwise destroy molecular imaging contrast. Citation Format: Banghe Zhu, Barrett Harvey, Melissa Aldrich, Grace Wu, Nathaniel Wilganowski, Holly Robinson, Kenneth Pinkston, Gao Peng, Songlin Zhang, Ron Karni, Eva M. Sevick-Muraca. Modulated near-infrared fluorescence light imaging of primary tumor margins, cancer positive lymph nodes, and freshly excised human cancers with imaging agent targeting EpCAM. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 2055. doi:10.1158/1538-7445.AM2014-2055

Published

2014

13. Albumin-Binding Domain Conjugate for Near-Infrared Fluorescence Lymphatic Imaging

Author

Sunkuk Kwon, Cynthia Davies-Venn, Melissa B. Aldrich, Grace Wu, Barrett R. Harvey, Eva M. Sevick-Muraca, Pradip Ghosh, Bonnie Angermiller, and Nathaniel Wilganowski

Subjects

Indocyanine Green, Cancer Research, Fluorescence-lifetime imaging microscopy, Fluorophore, Peptide, Plasma protein binding, Near-infrared fluorescence, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, Lymphatic imaging, Albumins, Medicine & Public Health, Albumin peptide conjugate, Animals, Humans, Radiology, Nuclear Medicine and imaging, 030304 developmental biology, Fluorescent Dyes, Lymphatic Vessels, chemistry.chemical_classification, Medicine(all), 0303 health sciences, Binding Sites, Spectroscopy, Near-Infrared, Imaging / Radiology, Imaging agent, 3. Good health, Transport protein, Mice, Inbred C57BL, Spectrometry, Fluorescence, Oncology, chemistry, Biochemistry, 030220 oncology & carcinogenesis, Biophysics, Electrophoresis, Polyacrylamide Gel, Peptides, Binding domain, Conjugate, Research Article, Protein Binding

Abstract

Purpose The aim of this study was to develop and characterize a novel peptide imaging agent for noninvasive near-infrared fluorescence imaging of protein transport by the lymphatics. An imaging agent consisting of a cyclic albumin-binding domain (cABD) peptide, with sequence, Arg-Leu-Ile-Glu-Asp-Ile-Cys-Leu-Pro-Arg-Trp-Gly-Cys-Leu-Trp-Glu-Asp-Asp-Lys, was conjugated to a near-infrared fluorophore, IRDye800CW, allowing for enhanced vascular uptake, retention, and fluorescence imaging. Procedure Characterization of the cABD-IRDye800 peptide conjugate was performed using fluorescence spectroscopy to assess optical properties and SDS-PAGE and Biacore binding assays to determine binding affinity and specificity. Fluorescence imaging of normal C57BL/6 mice was conducted to monitor lymphatic uptake and retention. Results cABD-IRDye800 exhibited approximately six times greater fluorescent yield and greater stability than indocyanine green, an agent previously used in humans to image lymphatic vasculature. The agent exhibited affinity for albumin with IC50 and Kd in the nanomolar range and demonstrated superior retention characteristics within mouse lymphatics when compared with IRDye800CW. Conclusions cABD-IRDye800 has utility for assessing lymphatic function in mouse models of human lymphatic disease and the potential for use in clinical diagnostic imaging of the lymphatic vasculature. Electronic supplementary material The online version of this article (doi:10.1007/s11307-011-0499-x) contains supplementary material, which is available to authorized users.