Search

Your search keyword '"Cameron J, Nowell"' showing total 126 results
Start Over Author "Cameron J, Nowell" Language undetermined
126 results on '"Cameron J, Nowell"'

2. Systematic Investigation of Metabolic Oligosaccharide Engineering Efficiency in Intestinal Cells Using a Dibenzocyclooctyne‐Monosaccharide Conjugate

Author

Yuen Yi Lam, Angel Tan, Cameron J. Nowell, Kristian Kempe, and Ben J. Boyd

Subjects
Organic Chemistry, Molecular Medicine, bioorthogonal targeting, intestinal cells, dibenzocyclooctyne, metabolic glycan labelling, metabolic oligosaccharide engineering, Molecular Biology, Biochemistry
Abstract

Metabolic oligosaccharide engineering (MOE) of cells with synthetic monosaccharides can introduce functionality to the glycans of cell membranes. Unnatural sugars (e. g., peracetylated mannose-azide) can be expressed on the cell surface with the azide group in place. After MOE, the azide group can participate in a copper-free click reaction with an alkyne (e. g., dibenzocyclooctyne, DBCO) probe. This allows the metabolic fate of monosaccharides in cells to be understood. However, in a drug delivery context it is desirable to have azide groups on the probe (e. g. a drug delivery particle) and the alkyne (e. g. DBCO) on the cell surface. Consequently, the labelling efficiency of intestinal cell lines (Caco-2 and HT29-MTX-E12) treated with N-dibenzocyclooctyne-tetra-acetylmannosamine, and the concentration- and time-dependent labelling were determined. Furthermore, the labelling of mucus in HT29-MTX-E12 cells with DBCO was shown. This study highlights the potential for using MOE to target azide-functionalised probes to intestinal tissues for drug delivery applications.

Published
2023
Full Text
View/download PDF

4. Beta-blockade enhances anthracycline control of metastasis in triple-negative breast cancer

Author

Aeson Chang, Edoardo Botteri, Ryan D. Gillis, Lukas Löfling, Caroline P. Le, Alexandra I. Ziegler, Ni-Chun Chung, Matthew C. Rowe, Stewart A. Fabb, Brigham J. Hartley, Cameron J. Nowell, Sasagu Kurozumi, Sara Gandini, Elisabetta Munzone, Emilia Montagna, Nina Eikelis, Sarah E. Phillips, Chikako Honda, Kei Masuda, Ayaka Katayama, Tetsunari Oyama, Steve W. Cole, Gavin W. Lambert, Adam K. Walker, and Erica K. Sloan

Subjects
General Medicine
Abstract

Beta-adrenergic blockade has been associated with improved cancer survival in patients with triple-negative breast cancer (TNBC), but the mechanisms of these effects remain unclear. In clinical epidemiological analyses, we identified a relationship between beta-blocker use and anthracycline chemotherapy in protecting against TNBC progression, disease recurrence, and mortality. We recapitulated the effect of beta-blockade on anthracycline efficacy in xenograft mouse models of TNBC. In metastatic 4T1.2 and MDA-MB-231 mouse models of TNBC, beta-blockade improved the efficacy of the anthracycline doxorubicin by reducing metastatic development. We found that anthracycline chemotherapy alone, in the absence of beta-blockade, increased sympathetic nerve fiber activity and norepinephrine concentration in mammary tumors through the induction of nerve growth factor (NGF) by tumor cells. Moreover, using preclinical models and clinical samples, we found that anthracycline chemotherapy up-regulated β 2 -adrenoceptor expression and amplified receptor signaling in tumor cells. Neurotoxin inhibition of sympathetic neural signaling in mammary tumors using 6-hydroxydopamine or genetic deletion of NGF or β 2 -adrenoceptor in tumor cells enhanced the therapeutic effect of anthracycline chemotherapy by reducing metastasis in xenograft mouse models. These findings reveal a neuromodulatory effect of anthracycline chemotherapy that undermines its potential therapeutic impact, which can be overcome by inhibiting β 2 -adrenergic signaling in the tumor microenvironment. Supplementing anthracycline chemotherapy with adjunctive β 2 -adrenergic antagonists represents a potential therapeutic strategy for enhancing the clinical management of TNBC.

Published
2023
Full Text
View/download PDF

5. Small extracellular vesicles promote invadopodia activity in glioblastoma cells in a therapy-dependent manner

Author

Clarissa A. Whitehead, Haoyun Fang, Huaqi Su, Andrew P. Morokoff, Andrew H. Kaye, Eric Hanssen, Cameron J. Nowell, Katharine J. Drummond, David W. Greening, Laura J. Vella, Theo Mantamadiotis, and Stanley S. Stylli

Subjects
Cancer Research, Oncology, Molecular Medicine, General Medicine
Abstract

Purpose The therapeutic efficacy of radiotherapy/temozolomide treatment for glioblastoma (GBM) is limited by the augmented invasiveness mediated by invadopodia activity of surviving GBM cells. As yet, however the underlying mechanisms remain poorly understood. Due to their ability to transport oncogenic material between cells, small extracellular vesicles (sEVs) have emerged as key mediators of tumour progression. We hypothesize that the sustained growth and invasion of cancer cells depends on bidirectional sEV-mediated cell–cell communication. Methods Invadopodia assays and zymography gels were used to examine the invadopodia activity capacity of GBM cells. Differential ultracentrifugation was utilized to isolate sEVs from conditioned medium and proteomic analyses were conducted on both GBM cell lines and their sEVs to determine the cargo present within the sEVs. In addition, the impact of radiotherapy and temozolomide treatment of GBM cells was studied. Results We found that GBM cells form active invadopodia and secrete sEVs containing the matrix metalloproteinase MMP-2. Subsequent proteomic studies revealed the presence of an invadopodia-related protein sEV cargo and that sEVs from highly invadopodia active GBM cells (LN229) increase invadopodia activity in sEV recipient GBM cells. We also found that GBM cells displayed increases in invadopodia activity and sEV secretion post radiation/temozolomide treatment. Together, these data reveal a relationship between invadopodia and sEV composition/secretion/uptake in promoting the invasiveness of GBM cells. Conclusions Our data indicate that sEVs secreted by GBM cells can facilitate tumour invasion by promoting invadopodia activity in recipient cells, which may be enhanced by treatment with radio-chemotherapy. The transfer of pro-invasive cargos may yield important insights into the functional capacity of sEVs in invadopodia.

Published
2023
Full Text
View/download PDF

6. Supplementary Tables from MACROD2 Haploinsufficiency Impairs Catalytic Activity of PARP1 and Promotes Chromosome Instability and Growth of Intestinal Tumors

Author

Oliver M. Sieber, Michael Buchert, Ian Street, Matthias Ernst, Peter Gibbs, Jayesh Desai, Nicholas J. Hawkins, Robyn L. Ward, Cameron J. Nowell, Cary Tsui, Adele Preaudet, Tracy L. Putoczki, Lachlan Whitehead, Shan Li, Robert N. Jorissen, Christopher Love, Michelle Palmieri, Sheng Liu, Bruno Catimel, Ruth N. MacKinnon, Dmitri Mouradov, Marie J. Parsons, and Anuratha Sakthianandeswaren

Abstract

Supplementary Tables 1-11 includes GISTIC results, clinical characteristics, details on cell lines and MACROD2 deletions, pathogenicity predictions, metaphase chromosomes anomalies, multivariate analyses and primer sequences.

Published
2023
Full Text
View/download PDF

7. Supplementary Figures from MACROD2 Haploinsufficiency Impairs Catalytic Activity of PARP1 and Promotes Chromosome Instability and Growth of Intestinal Tumors

Author

Oliver M. Sieber, Michael Buchert, Ian Street, Matthias Ernst, Peter Gibbs, Jayesh Desai, Nicholas J. Hawkins, Robyn L. Ward, Cameron J. Nowell, Cary Tsui, Adele Preaudet, Tracy L. Putoczki, Lachlan Whitehead, Shan Li, Robert N. Jorissen, Christopher Love, Michelle Palmieri, Sheng Liu, Bruno Catimel, Ruth N. MacKinnon, Dmitri Mouradov, Marie J. Parsons, and Anuratha Sakthianandeswaren

Abstract

Supplementary Figures 1-23 including results for fine mapping of MACROD2 deletions, xenograft assay, immunofluoresence, comet assays, western blots, PARP1 activity assays, clonogenic assays, apoptosis assays, metaphase spreads and chromosome missegregation quantification.

Published
2023
Full Text
View/download PDF

8. Supplementary Methods from MACROD2 Haploinsufficiency Impairs Catalytic Activity of PARP1 and Promotes Chromosome Instability and Growth of Intestinal Tumors

Author

Oliver M. Sieber, Michael Buchert, Ian Street, Matthias Ernst, Peter Gibbs, Jayesh Desai, Nicholas J. Hawkins, Robyn L. Ward, Cameron J. Nowell, Cary Tsui, Adele Preaudet, Tracy L. Putoczki, Lachlan Whitehead, Shan Li, Robert N. Jorissen, Christopher Love, Michelle Palmieri, Sheng Liu, Bruno Catimel, Ruth N. MacKinnon, Dmitri Mouradov, Marie J. Parsons, and Anuratha Sakthianandeswaren

Abstract

Supplementary Methods for generation of CRISPR and stable cell lines, MACROD2 mutation detection, QRT-PCR, phenotyping of MACROD2/APCmin mice, IHC, WB, TCF reporter assay, RNAseq analysis, generation of MACROD2 antibody, clonogenic assay, PARP1 activity assay, apoptosis assays, IF and FACS analysis.

Published
2023
Full Text
View/download PDF

9. Supplementary Data from MACROD2 Haploinsufficiency Impairs Catalytic Activity of PARP1 and Promotes Chromosome Instability and Growth of Intestinal Tumors

Author

Oliver M. Sieber, Michael Buchert, Ian Street, Matthias Ernst, Peter Gibbs, Jayesh Desai, Nicholas J. Hawkins, Robyn L. Ward, Cameron J. Nowell, Cary Tsui, Adele Preaudet, Tracy L. Putoczki, Lachlan Whitehead, Shan Li, Robert N. Jorissen, Christopher Love, Michelle Palmieri, Sheng Liu, Bruno Catimel, Ruth N. MacKinnon, Dmitri Mouradov, Marie J. Parsons, and Anuratha Sakthianandeswaren

Abstract

Mouse phenotyping data

Published
2023
Full Text
View/download PDF

13. Data from A Role for Bone Morphogenetic Protein-4 in Lymph Node Vascular Remodeling and Primary Tumor Growth

Author

Steven A. Stacker, Marc G. Achen, Cameron J. Nowell, Masataka Matsumoto, Ramin Shayan, Tara Karnezis, and Rae H. Farnsworth

Abstract

Lymph node metastasis, an early and prognostically important event in the progression of many human cancers, is associated with expression of VEGF-D. Changes to lymph node vasculature that occur during malignant progression may create a metastatic niche capable of attracting and supporting tumor cells. In this study, we sought to characterize molecules expressed in lymph node endothelium that could represent therapeutic or prognostic targets. Differential mRNA expression profiling of endothelial cells from lymph nodes that drained metastatic or nonmetastatic primary tumors revealed genes associated with tumor progression, in particular bone morphogenetic protein-4 (BMP-4). Metastasis driven by VEGF-D was associated with reduced BMP-4 expression in high endothelial venules, where BMP-4 loss could remodel the typical high-walled phenotype to thin-walled vessels. VEGF-D expression was sufficient to suppress proliferation of the more typical BMP-4–expressing high endothelial venules in favor of remodeled vessels, and mechanistic studies indicated that VEGF receptor-2 contributed to high endothelial venule proliferation and remodeling. BMP-4 could regulate high endothelial venule phenotype and cellular function, thereby determining morphology and proliferation responses. Notably, therapeutic administration of BMP-4 suppressed primary tumor growth, acting both at the level of tumor cells and tumor stromal cells. Together, our results show that VEGF-D–driven metastasis induces vascular remodeling in lymph nodes. Furthermore, they implicate BMP-4 as a negative regulator of this process, suggesting its potential utility as a prognostic marker or antitumor agent. Cancer Res; 71(20); 6547–57. ©2011 AACR.

Published
2023
Full Text
View/download PDF

17. The lung employs an intrinsic surfactant-mediated inflammatory response for viral defense

Author

Sandra L. Leibel, Rachael N. McVicar, Rabi Murad, Elizabeth M. Kwong, Alex E. Clark, Asuka Alvarado, Bethany A. Grimmig, Ruslan Nuryyev, Randee E. Young, Jamie Casey Lee, Weiqi Peng, Yanfang Peipei Zhu, Eric Griffis, Cameron J. Nowell, Kang Liu, Brian James, Suzie Alarcon, Atul Malhotra, Linden J. Gearing, Paul J. Hertzog, Cheska Marie Galapate, Koen M.O. Galenkamp, Cosimo Commisso, Davey M. Smith, Xin Sun, Aaron F. Carlin, Ben A. Croker, and Evan Y. Snyder

Subjects
Article
Abstract

Severe Acute Respiratory Syndrome Coronavirus-2 (SARS-CoV-2) causes an acute respiratory distress syndrome (ARDS) that resembles surfactant deficient RDS. Using a novel multi-cell type, human induced pluripotent stem cell (hiPSC)-derived lung organoid (LO) system, validated against primary lung cells, we found that inflammatory cytokine/chemokine production and interferon (IFN) responses are dynamically regulated autonomously within the lung following SARS-CoV-2 infection, an intrinsic defense mechanism mediated by surfactant proteins (SP). Single cell RNA sequencing revealed broad infectability of most lung cell types through canonical (ACE2) and non-canonical (endocytotic) viral entry routes. SARS-CoV-2 triggers rapid apoptosis, impairing viral dissemination. In the absence of surfactant protein B (SP-B), resistance to infection was impaired and cytokine/chemokine production and IFN responses were modulated. Exogenous surfactant, recombinant SP-B, or genomic correction of the SP-B deletion restored resistance to SARS-CoV-2 and improved viability.

Published
2023
Full Text
View/download PDF

18. Key signaling networks are dysregulated in patients with the adipose tissue disorder, lipedema

Author

Ramin Shayan, Marc G. Achen, Dovile Anderson, Davis J. McCarthy, Cameron J. Nowell, Tara Karnezis, Darren J. Creek, Steven Morgan, Nadeeka Bandara, Ahmad M. Mehdi, Ruqian Lyu, and Musarat Ishaq

Subjects
Nutrition and Dietetics, Endocrinology, Diabetes and Metabolism, Cell, Medicine (miscellaneous), Adipose tissue, Lipid metabolism, Biology, Cell biology, chemistry.chemical_compound, medicine.anatomical_structure, Downregulation and upregulation, chemistry, Adipogenesis, Adipocyte, medicine, Signal transduction, Stem cell
Abstract

Objectives Lipedema, a poorly understood chronic disease of adipose hyper-deposition, is often mistaken for obesity and causes significant impairment to mobility and quality-of-life. To identify molecular mechanisms underpinning lipedema, we employed comprehensive omics-based comparative analyses of whole tissue, adipocyte precursors (adipose-derived stem cells (ADSCs)), and adipocytes from patients with or without lipedema. Methods We compared whole-tissues, ADSCs, and adipocytes from body mass index–matched lipedema (n = 14) and unaffected (n = 10) patients using comprehensive global lipidomic and metabolomic analyses, transcriptional profiling, and functional assays. Results Transcriptional profiling revealed >4400 significant differences in lipedema tissue, with altered levels of mRNAs involved in critical signaling and cell function-regulating pathways (e.g., lipid metabolism and cell-cycle/proliferation). Functional assays showed accelerated ADSC proliferation and differentiation in lipedema. Profiling lipedema adipocytes revealed >900 changes in lipid composition and >600 differentially altered metabolites. Transcriptional profiling of lipedema ADSCs and non-lipedema ADSCs revealed significant differential expression of >3400 genes including some involved in extracellular matrix and cell-cycle/proliferation signaling pathways. One upregulated gene in lipedema ADSCs, Bub1, encodes a cell-cycle regulator, central to the kinetochore complex, which regulates several histone proteins involved in cell proliferation. Downstream signaling analysis of lipedema ADSCs demonstrated enhanced activation of histone H2A, a key cell proliferation driver and Bub1 target. Critically, hyperproliferation exhibited by lipedema ADSCs was inhibited by the small molecule Bub1 inhibitor 2OH-BNPP1 and by CRISPR/Cas9-mediated Bub1 gene depletion. Conclusion We found significant differences in gene expression, and lipid and metabolite profiles, in tissue, ADSCs, and adipocytes from lipedema patients compared to non-affected controls. Functional assays demonstrated that dysregulated Bub1 signaling drives increased proliferation of lipedema ADSCs, suggesting a potential mechanism for enhanced adipogenesis in lipedema. Importantly, our characterization of signaling networks driving lipedema identifies potential molecular targets, including Bub1, for novel lipedema therapeutics.

Published
2021
Full Text
View/download PDF

19. Mesenteric lymphatic dysfunction promotes insulin resistance and represents a potential treatment target in obesity

Author

Christopher J.H. Porter, Kian Liun Phang, Alina Lam, Vilena De Melo Ferreira, Gracia Gracia, Luojuan Hu, Hannah Chu, Tim Quach, Jamie S. Simpson, Alistair B.J. Escott, Anubhav Srivastava, Gabriela Segal, Jiwon Hong, Dovile Anderson, Sonya Agarwal, Darren J. Creek, Enyuan Cao, Natasha L. Harvey, Natalie L. Trevaskis, Anthony R. J. Phillips, John A. Windsor, Matthew J. Watt, Cameron J. Nowell, Cao, Enyuan, Watt, Matthew J, Nowell, Cameron J, Quach, Tim, Harvey, Natasha L, and Trevaskis, Natalie L

Subjects
obesity, Pathology, medicine.medical_specialty, business.industry, Endocrinology, Diabetes and Metabolism, Adipose tissue, Inflammation, Cell Biology, drug development, Lymphangiogenesis, Vascular endothelial growth factor, chemistry.chemical_compound, medicine.anatomical_structure, Lymphatic system, chemistry, Physiology (medical), Internal Medicine, Lymphatic vessel, Medicine, type 2 diabetes, Lymph, medicine.symptom, business, Mesentery, metabolism
Abstract

Refereed/Peer-reviewed Visceral adipose tissue (VAT) encases mesenteric lymphatic vessels and lymph nodes through which lymph is transported from the intestine and mesentery. Whether mesenteric lymphatics contribute to adipose tissue inflammation and metabolism and insulin resistance is unclear. Here we show that obesity is associated with profound and progressive dysfunction of the mesenteric lymphatic system in mice and humans. We find that lymph from mice and humans consuming a high-fat diet (HFD) stimulates lymphatic vessel growth, leading to the formation of highly branched mesenteric lymphatic vessels that ‘leak’ HFD-lymph into VAT and, thereby, promote insulin resistance. Mesenteric lymphatic dysfunction is regulated by cyclooxygenase (COX)-2 and vascular endothelial growth factor (VEGF)-C–VEGF receptor (R)3 signalling. Lymph-targeted inhibition of COX-2 using a glyceride prodrug approach reverses mesenteric lymphatic dysfunction, visceral obesity and inflammation and restores glycaemic control in mice. Targeting obesity-associated mesenteric lymphatic dysfunction thus represents a potential therapeutic option to treat metabolic disease.

Published
2021
Full Text
View/download PDF

20. Resolving subcellular pH with a quantitative fluorescent lifetime biosensor

Author

Joshua J. Rennick, Cameron J. Nowell, Colin W. Pouton, and Angus P.R. Johnston

Subjects
Multidisciplinary, Polyethyleneimine, General Physics and Astronomy, Chloroquine, Biosensing Techniques, Endosomes, General Chemistry, Hydrogen-Ion Concentration, Protons, Lysosomes, General Biochemistry, Genetics and Molecular Biology
Abstract

Changes in sub-cellular pH play a key role in metabolism, cell growth, membrane transport, and can also be exploited to control cargo release from therapeutic delivery systems. Most methods to measure pH rely on intensity changes of pH sensitive fluorophores, however these measurements are hampered by high uncertainty in the inferred pH and the need for multiple fluorophores. To address this, we have developed a method to accurately quantify sub-cellular pH in individual vesicles using fluorescent lifetime imaging microscopy (pHLIM). pHLIM exploits the linear pH dependant lifetime of the fluorescent protein mApple and uses deep learning models to automatically identify and measure the pH of subcellular compartments. We have engineered mApple fusion proteins to measure the pH of the cytosol, endosomes, lysosomes and demonstrated the utility of pHLIM by measuring pH changes induced by drugs (bafilomycin A1) and polyethylenimine (a common transfection reagent). pHLIM is a simple and quantitative method to measure sub-cellular pH that has the potential to help with the design of the next generation of controlled drug release systems and to understand drug action and disease progression.

Published
2022
Full Text
View/download PDF

21. A novel device for investigating structure-function relationships and mechanoadaptation of biological tissues

Author

Manuela A. Boos, Frances A. Ryan, Felix Linnenschmidt, Manula S.B. Rathnayake, Cameron J. Nowell, Shireen R. Lamandé, and Kathryn S. Stok

Subjects
Biomaterials, Cartilage, Mechanical testing, Imaging, Multiphoton microscopy, Mechanics of Materials, Biomedical Engineering
Abstract

Exploring the structure-function relationships of cartilage on a microstructural level is crucial for tissue engineering approaches aiming to restore function. Therefore, a combination of mechanical testing with cell and tissue-level imaging would allow for longitudinal studying loading mechanisms, biological responses and mechanoadaptation of tissues at a microstructural level. This paper describes the design and validation of FELIX, a custom-built device for non-destructive image-guided micromechanical evaluation of biological tissues and tissue-engineered constructs. It combines multiphoton microscopy with non-destructive mechanical testing of native soft tissues. Ten silicone samples of the same size were mechanically tested with FELIX by different users to assess the repeatability and reproducibility. The results indicate that FELIX can successfully substitute mechanical testing protocols with a commercial device without compromising precision. Furthermore, FELIX demonstrated consistent results across repeated measurements, with very small deviations. Therefore, FELIX can be used to accurately measure biomechanical properties by different users for separate studies. Additionally, cell nuclei and collagen of porcine articular cartilage were successfully imaged under compression. Cell viability remained high in chondrocytes cultured in agarose over 21 days. Furthermore, there were no signs of contamination indicating a cell friendly, sterile environment for longitudinal studies. In conclusion, this work demonstrates that FELIX can consistently quantify mechanical measures without compromising precision. Furthermore, it is biocompatible allowing for longitudinal measurements., Journal of the Mechanical Behavior of Biomedical Materials, 142, ISSN:1751-6161, ISSN:1878-0180

Published
2023
Full Text
View/download PDF

22. Development and Application of Subtype-Selective Fluorescent Antagonists for the Study of the Human Adenosine A1 Receptor in Living Cells

Author

Anh Nguyen, Stephen J. Hill, Eleonora Comeo, Peter J. Scammells, Leigh A. Stoddart, Michelle L. Halls, Nicholas D Kindon, Mark Soave, Cameron J. Nowell, Barrie Kellam, Jonathan M. White, Phuc N. H. Trinh, and Lauren T. May

Subjects
0303 health sciences, Total internal reflection fluorescence microscope, Chemistry, HEK 293 cells, Allosteric regulation, Molecular Pharmacology, 01 natural sciences, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, 03 medical and health sciences, Adenosine A1 receptor, Förster resonance energy transfer, Drug Discovery, Biophysics, Molecular Medicine, Receptor, 030304 developmental biology, G protein-coupled receptor
Abstract

The adenosine A1 receptor (A1AR) is a G-protein-coupled receptor (GPCR) that provides important therapeutic opportunities for a number of conditions including congestive heart failure, tachycardia, and neuropathic pain. The development of A1AR-selective fluorescent ligands will enhance our understanding of the subcellular mechanisms underlying A1AR pharmacology facilitating the development of more efficacious and selective therapies. Herein, we report the design, synthesis, and application of a novel series of A1AR-selective fluorescent probes based on 8-functionalized bicyclo[2.2.2]octylxanthine and 3-functionalized 8-(adamant-1-yl) xanthine scaffolds. These fluorescent conjugates allowed quantification of kinetic and equilibrium ligand binding parameters using NanoBRET and visualization of specific receptor distribution patterns in living cells by confocal imaging and total internal reflection fluorescence (TIRF) microscopy. As such, the novel A1AR-selective fluorescent antagonists described herein can be applied in conjunction with a series of fluorescence-based techniques to foster understanding of A1AR molecular pharmacology and signaling in living cells.

Published
2021
Full Text
View/download PDF

23. The γH2AX DSB marker may not be a suitable biodosimeter to measure the biological MRT valley dose

Author

Lloyd M. L. Smyth, Cameron J. Nowell, Leonie Cann, Liam R. J. Day, Peter Rogers, Jacqueline F. Donoghue, Helen B. Forrester, Jeffrey C. Crosbie, and Jessica Ventura

Subjects
Dosimeter, Radiotherapy, Radiological and Ultrasound Technology, business.industry, Measure (physics), Synchrotron radiation, 030218 nuclear medicine & medical imaging, Histones, Mice, 03 medical and health sciences, 0302 clinical medicine, Microbeam radiation therapy, Gamma h2ax, Biodosimetry, 030220 oncology & carcinogenesis, Animals, Humans, Dosimetry, DNA Breaks, Double-Stranded, Radiology, Nuclear Medicine and imaging, Radiometry, Nuclear medicine, business, Biomarkers, Synchrotrons
Abstract

γH2AX biodosimetry has been proposed as an alternative dosimetry method for microbeam radiation therapy (MRT) because conventional dosimeters, such as ionization chambers, lack the spatial resolution required to accurately measure the MRT valley dose. Here we investigated whether γH2AX biodosimetry should be used to measure the biological valley dose of MRT-irradiated mammalian cells. We irradiated human skin fibroblasts and mouse skin flaps with synchrotron MRT and broad beam (BB) radiation. BB doses of 1–5 Gy were used to generate a calibration curve in order to estimate the biological MRT valley dose using the γH2AX assay. Our key finding was that MRT induced a non-linear dose response compared to BB, where doses 2–3 times greater showed the same level of DNA DSB damage in the valley in cell and tissue studies. This indicates that γH2AX may not be an appropriate biodosimeter to estimate the biological valley doses of MRT-irradiated samples. We also established foci yields of 5.9 ± 0.04 and 27.4 ± 2.5 foci/cell/Gy in mouse skin tissue and human fibroblasts respectively, induced by BB. Using Monte Carlo simulations, a linear dose response was seen in cell and tissue studies and produced predicted peak-to-valley dose ratios (PVDRs) of ∼30 and ∼107 for human fibroblasts and mouse skin tissue respectively. Our report highlights novel MRT radiobiology, attempts to explain why γH2AX may not be an appropriate biodosimeter and suggests further studies aimed at revealing the biological and cellular communication mechanisms that drive the normal tissue sparing effect, which is characteristic of MRT.

Published
2021
Full Text
View/download PDF

24. Hydrophobicity Regulates the Cellular Interaction of Cyanine5-Labeled Poly(3-hydroxypropionate)-Based Comb Polymers

Author

Ayaat M. Mahmoud, Cameron J. Nowell, Orlagh Feeney, Leonie van ’t Hag, Thomas P. Davis, and Kristian Kempe

Subjects
Biomaterials, Mice, Polymers and Plastics, Polymers, Polyesters, Materials Chemistry, Animals, Water, Bioengineering, Lactic Acid, Hydrophobic and Hydrophilic Interactions, Polymerization
Abstract

An in-depth understanding of the effect of physicochemical properties of nanocarriers on their cellular uptake and fate is crucial for the development of novel delivery systems. In this study, well-defined hydrophobic carboxylated poly(3-hydroxypropionate)-based comb polymers were synthesized. Two oligo(3-hydroxypropionate) (HP

Published
2022

25. Depolymerization of hyaluronan using PEGylated human recombinant hyaluronidase promotes nanoparticle tumor penetration

Author

Cameron J. Nowell, Daniel H.S. Brundel, Lisa M. Kaminskas, Gracia Gracia, Orlagh M. Feeney, Christopher J.H. Porter, Michelle M. McIntosh, David W. Kang, and Estelle J.A. Suys

Subjects
Biomedical Engineering, Hyaluronoglucosaminidase, Medicine (miscellaneous), Breast Neoplasms, Bioengineering, 02 engineering and technology, Development, Polyethylene Glycols, law.invention, Mice, 03 medical and health sciences, 0302 clinical medicine, Stroma, Hyaluronidase, law, Cell Line, Tumor, medicine, Animals, Humans, General Materials Science, Hyaluronic Acid, Depolymerization, Chemistry, Penetration (firestop), Tumor Oxygenation, 021001 nanoscience & nanotechnology, 3. Good health, 030220 oncology & carcinogenesis, Cancer cell, Drug delivery, Recombinant DNA, Cancer research, Nanoparticles, Female, 0210 nano-technology, medicine.drug
Abstract

Aim: Delivery of nanoparticles (NPs) to tumors can be impeded by high levels of hyaluronan (HA) in the stroma. Enzymatic depolymerization of HA with PEGylated hyaluronidase (PEGPH20) improves the delivery of antibodies to tumors. However, it is unknown whether NP delivery is enhanced by this strategy. Methods: The impact of PEGPH20 pretreatment on the uptake and tumor penetration of model PEGylated polystyrene NPs was studied in mice with orthotopic breast cancers. Results: Tumor oxygenation and NP penetration, but not overall tumor uptake, of 50 nm NPs, was significantly enhanced by PEGPH20 pre-administration. Conclusion: PEGPH20 has the potential to improve intratumoral penetration of NP-based drug delivery systems and enhance access to cancer cells in poorly vascularized regions of the tumor. Graphical abstract

Published
2021
Full Text
View/download PDF

26. Decreased Orexin Receptor 1 mRNA Expression in the Locus Coeruleus in Both Tau Transgenic rTg4510 and Tau Knockout Mice and Accompanying Ascending Arousal System Tau Invasion in rTg4510

Author

Romke Bron, Daniel Hoyer, Ryan J. Keenan, Cameron J Nowell, Leesa M. Challis, Laura H. Jacobson, and Sara Oberrauch

Subjects
Male, 0301 basic medicine, medicine.medical_specialty, Lateral hypothalamus, Mice, Transgenic, tau Proteins, In situ hybridization, Biology, Mice, 03 medical and health sciences, 0302 clinical medicine, Orexin Receptors, Internal medicine, mental disorders, medicine, Animals, RNA, Messenger, Cognitive decline, In Situ Hybridization, Mice, Knockout, General Neuroscience, General Medicine, medicine.disease, Orexin receptor, Orexin, Mice, Inbred C57BL, Psychiatry and Mental health, Clinical Psychology, 030104 developmental biology, Endocrinology, nervous system, Hypothalamic Area, Lateral, Locus coeruleus, Female, Locus Coeruleus, Wakefulness, Geriatrics and Gerontology, Arousal, 030217 neurology & neurosurgery, Narcolepsy
Abstract

Background: Sleep/wake disturbances (e.g., insomnia and sleep fragmentation) are common in neurodegenerative disorders, especially Alzheimer’s disease (AD) and frontotemporal dementia (FTD). These symptoms are somewhat reminiscent of narcolepsy with cataplexy, caused by the loss of orexin-producing neurons. A bidirectional relationship between sleep disturbance and disease pathology suggests a detrimental cycle that accelerates disease progression and cognitive decline. The accumulation of brain tau fibrils is a core pathology of AD and FTD-tau and clinical evidence supports that tau may impair the orexin system in AD/FTD. This hypothesis was investigated using tau mutant mice. Objective: To characterize orexin receptor mRNA expression in sleep/wake regulatory brain centers and quantify noradrenergic locus coeruleus (LC) and orexinergic lateral hypothalamus (LH) neurons, in tau transgenic rTg4510 and tau–/– mice. Methods: We used i n situ hybridization and immunohistochemistry (IHC) in rTg4510 and tau–/– mice. Results: rTg4510 and tau–/– mice exhibited a similar decrease in orexin receptor 1 (OX1R) mRNA expression in the LC compared with wildtype controls. IHC data indicated this was not due to decreased numbers of LC tyrosine hydroxylase-positive (TH) or orexin neurons and demonstrated that tau invades TH LC and orexinergic LH neurons in rTg4510 mice. In contrast, orexin receptor 2 (OX2R) mRNA levels were unaffected in either model. Conclusion: The LC is strongly implicated in the regulation of sleep/wakefulness and expresses high levels of OX1R. These findings raise interesting questions regarding the effects of altered tau on the orexin system, specifically LC OX1Rs, and emphasize a potential mechanism which may help explain sleep/wake disturbances in AD and FTD.

Published
2021
Full Text
View/download PDF

27. Trisulfide linked cholesteryl PEG conjugate attenuates intracellular ROS and collagen-1 production in a breast cancer co-culture model

Author

Erica K. Sloan, Thomas P. Davis, Michael R. Whittaker, John F. Quinn, Cameron J. Nowell, Nam V. Dao, Francesca Ercole, Lisa M. Kaminskas, and Matthew C. Urquhart

Subjects
Cell type, Cell signaling, Biomedical Engineering, Breast Neoplasms, medicine.disease_cause, Collagen Type I, Extracellular matrix, 03 medical and health sciences, 0302 clinical medicine, Tumor Microenvironment, medicine, Humans, General Materials Science, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Reactive oxygen species, HEK 293 cells, Fibroblasts, Coculture Techniques, Cell biology, chemistry, 030220 oncology & carcinogenesis, Cancer cell, Collagen, Reactive Oxygen Species, Carcinogenesis, Intracellular
Abstract

The progression of cancer has been closely-linked with augmentation of cellular reactive oxygen species (ROS) levels and ROS-associated changes in the tumour microenvironment (TME), including alterations to the extracellular matrix and associated low drug uptake. Herein we report the application of a co-culture model to simulate the ROS based cell-cell interactions in the TME using fibroblasts and breast cancer cells, and describe how novel reactive polymers can be used to modulate those interactions. Under the co-culture conditions, both cell types exhibited modifications in behaviour, including significant overproduction of ROS in the cancer cells, and elevation of the collagen-1 secretion and stained actin filament intensity in the fibroblasts. To examine the potential of using reactive antioxidant polymers to intercept ROS communication and thereby manipulate the TME, we employed H2S-releasing macromolecular conjugates which have been previously demonstrated to mitigate ROS production in HEK cells. The specific conjugate used, mPEG-SSS-cholesteryl (T), significantly reduced ROS levels in co-cultured cancer cells by approximately 50%. This reduction was significantly greater than that observed with the other positive antioxidant controls. Exposure to T was also found to downregulate levels of collagen-1 in the co-cultured fibroblasts, while exhibiting less impact on cells in mono-culture. This would suggest a possible downstream effect of ROS-mitigation by T on stromal-tumour cell signalling. Since fibroblast-derived collagens modulate crucial steps in tumorigenesis, this ROS-associated effect could potentially be harnessed to slow cancer progression. The model may also be beneficial for interrogating the impact of antioxidants on naturally enhanced ROS levels, rather than relying on the application of exogenous oxidants to simulate elevated ROS levels.

Published
2021
Full Text
View/download PDF

28. Expansion of the phenotypic spectrum of de novo missense variants in kinesin family member 1A ( KIF1A )

Author

Kristen J. Verhey, Simranpreet Kaur, Matthew D. Burton, Wendy K. Chung, Zeynep Tümer, Breane G. Budaitis, Nicole J Van Bergen, Bitten Schönewolf-Greulich, Rhea Sonawane, Cameron J. Nowell, Annalaura Torella, Yang Yue, Nicola Brunetti-Pierri, Gerarda Cappuccio, Lia Boyle, John Christodoulou, Tony Roscioli, Mark J. Cowley, Carolyn Ellaway, Wendy A. Gold, Irene Bruno, Sean Massey, Vincenzo Nigro, Kaur, Simranpreet, Van Bergen, Nicole J, Verhey, Kristen J, Nowell, Cameron J, Budaitis, Breane, Yue, Yang, Ellaway, Carolyn, Brunetti-Pierri, Nicola, Cappuccio, Gerarda, Bruno, Irene, Boyle, Lia, Nigro, Vincenzo, Torella, Annalaura, Roscioli, Tony, Cowley, Mark J, Massey, Sean, Sonawane, Rhea, Burton, Matthew D, Schonewolf-Greulich, Bitten, Tümer, Zeynep, Chung, Wendy K, Gold, Wendy A, Christodoulou, John, Kaur, S., Van Bergen, N. J., Verhey, K. J., Nowell, C. J., Budaitis, B., Yue, Y., Ellaway, C., Cappuccio, G., Bruno, I., Boyle, L., Nigro, V., Torella, A., Roscioli, T., Cowley, M. J., Massey, S., Sonawane, R., Burton, M. D., Schonewolf-Greulich, B., Tumer, Z., Chung, W. K., Gold, W. A., and Christodoulou, J.

Subjects
Heterozygote, Neurite, Mutation, Missense, Kinesins, Rett syndrome, Biology, kinesin, Article, MECP2, 03 medical and health sciences, Microtubule, Genetics, medicine, Humans, Missense mutation, Family, KIF1A, Genetics (clinical), 030304 developmental biology, KAND, 0303 health sciences, 030305 genetics & heredity, medicine.disease, Phenotype, neurite tip accumulation, Neurodevelopmental Disorders, Mutation, Kinesin, Female, microtubule
Abstract

Defects in the motor domain of kinesin family member 1A (KIF1A), a neuron-specific ATP-dependent anterograde axonal transporter of synaptic cargo, are well-recognized to cause a spectrum of neurological conditions, commonly known as KIF1A-associated neurological disorders (KAND). Here we report one mutation-negative female with classic Rett syndrome (RTT) harboring a de novo heterozygous novel variant [NP_001230937.1:p.(Asp248Glu)] in the highly-conserved motor domain of KIF1A. In addition, three individuals with severe neurodevelopmental disorder along with clinical features overlapping with KAND are also reported carrying de novo heterozygous novel [NP_001230937.1:p.(Cys92Arg) & p.(Pro305Leu)] or previously reported [NP_001230937.1:p.(Thr99Met)] variants in KIF1A. In silico tools predicted these variants to be likely pathogenic, and 3D molecular modelling predicted defective ATP hydrolysis and/or microtubule binding. Using the neurite tip accumulation assay, we demonstrated that all novel KIF1A variants significantly reduced the ability of the motor domain of KIF1A to accumulate along neurite lengths of differentiated SH-SY5Y cells. In vitro microtubule gliding assays showed significantly reduced velocities for the variant p.(Asp248Glu) and reduced microtubule binding for the p.(Cys92Arg) and p.(Pro305Leu) variants, suggesting decreased ability of KIF1A to move along microtubules. Thus, this study further expanded the phenotypic characteristics of KAND individuals with pathogenic variants in KIF1A motor domain to include clinical features commonly seen in RTT individuals. This article is protected by copyright. All rights reserved.

Published
2020
Full Text
View/download PDF

30. Enhanced nitric oxide production by macrophages treated with a cell-penetrating peptide conjugate

Author

Arfatur Rahman, Macgregor A. Matthews, Cameron J. Nowell, David K. Chalmers, Philip E. Thompson, Sandra E. Nicholson, Nicholas Barlow, and Raymond S. Norton

Subjects
Models, Molecular, Macrophages, Organic Chemistry, Drug Discovery, Nitric Oxide Synthase Type II, Cell-Penetrating Peptides, Nitric Oxide, Molecular Biology, Biochemistry
Abstract

The SPRY domain-containing SOCS box protein-2 (SPSB2) plays a critical role in the degradation of inducible nitric oxide synthase (iNOS) in macrophages. In this study, we have conjugated a peptide inhibitor of the iNOS-SPSB2 interaction with a cell-penetrating peptide (CPP) for delivery into macrophages, and confirmed its binding to SPSB2. We have assessed the uptake of a fluorophore-tagged analogue by RAW 264.7 and immortalised bone marrow derived macrophage (iBMDM) cell lines, and shown that the CPP-peptide conjugate enhanced NO production. The findings of this study will be useful in further refinement of CPP-peptide conjugates as leads in the development of new antibiotics that target the host innate immune response.

Published
2022

31. Therapeutic Blockade of ER Stress and Inflammation Prevents High Fat Diet-Induced NASH and Progression to Hepatocellular Carcinoma

Author

Ebru Boslem, Saskia Riebe, Benoit Smeuninx, Casey L. Egan, Surafel Tegegne, Emma McLennan, Max Nobis, Andre Mu, Cameron J. Nowell, Neil Horadagoda, Natalie A. Mellet, Rodrigo Carlessi, Paul Timpson, Janina EE Tirnitz-Parker, Peter J. Meikle, Stefan Rose-John, Michael Karin, and Mark Anthony Febbraio

Subjects
History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering
Published
2022
Full Text
View/download PDF

32. Endometrial uNK cell counts do not predict successful implantation in an IVF population

Author

Sophie Bittinger, Premila Paiva, Cameron J. Nowell, Judith N. Bulmer, H Rees, Peter Rogers, John McBain, Leonie Cann, Wan Tinn Teh, V Obers, Jacqueline F. Donoghue, and Catharyn Stern

Subjects
Adult, Infertility, medicine.medical_specialty, media_common.quotation_subject, Population, Uterus, Endometrium, 03 medical and health sciences, 0302 clinical medicine, Pregnancy, Recurrent miscarriage, Biopsy, medicine, Humans, Embryo Implantation, education, Menstrual cycle, 030304 developmental biology, media_common, Gynecology, 0303 health sciences, education.field_of_study, 030219 obstetrics & reproductive medicine, medicine.diagnostic_test, business.industry, Rehabilitation, Obstetrics and Gynecology, medicine.disease, Killer Cells, Natural, Arterioles, medicine.anatomical_structure, Reproductive Medicine, embryonic structures, Female, business, Infertility, Female
Abstract

Study question Are uterine natural killer (uNK) cell numbers and their distribution relative to endometrial arterioles altered in women with recurrent implantation failure (RIF) compared to women with embryo implantation success (IS)? Summary answer uNK cell numbers and their distribution relative to endometrial arterioles are not significantly different in women with RIF compared to women in whom embryo implantation occurs successfully following IVF. What is already known uNK cells are regulators of decidual angiogenesis and spiral arteriole remodelling during early pregnancy. Although some studies have shown that uNK cell numbers may be altered in women with RIF, the methods used to measure uNK cell numbers have proven inconsistent, making reproduction of these results difficult. It is unclear, therefore, whether the results reported so far are reproducible. Moreover, it is not known how uNK cell numbers may impact IVF outcomes. Despite the lack of conclusive evidence, uNK cell numbers are often evaluated as a prognostic criterion in women undergoing assisted reproductive procedures. Study design, size, duration Endometrial pipelle biopsies were collected 6–8 days post-LH surge in natural cycles from women with RIF (n = 14), women with IS (n = 11) and women with potential RIF at the time of the study (PRIF; n = 9) from 2013 to 2015. Participants/materials, setting, methods uNK cells (i.e. CD56+ and/or CD16+ phenotypes) and their distribution relative to endometrial arterioles were investigated by standard immunohistochemistry protocols and quantified using Aperio ScanScopeXT images digitized by ImageJ and deconvoluted into binary images for single cell quantification using a Gaussian Blur and Yen algorithm. Main results and the role of chance There was no significant difference in the cell density of CD56+ or CD16+ uNK cells in women with RIF compared to women with IS or PRIF. There was a higher proportion of uNK cells in the distal regions compared to the regions closest to the arterioles in all patient groups. Further, we identified a significant reduction in uNK cell density in women who had a previous pregnancy compared to those who had not, regardless of their current implantation status. Large scale data Not applicable. Limitations, reasons for caution Spiral arterioles could not always be accurately identified by digital image analysis; therefore, all endometrial arterioles were selected and analysed. Patient numbers for the study were low. However, as the clinical phenotypes of each patient were well defined, and endometrial dating was accurately determined by three independent pathologists, differences between patient groups with respect to the uNK numbers and distribution should have been measurable if uNK cell counts were to be useful as a prognostic marker of RIF. Wider implications of the findings Our findings demonstrate that CD56+ and CD16+ uNK cell numbers are not significantly different in women with RIF in a typical cohort of women undergoing IVF. Further, prior pregnancy was associated with a significantly reduced number of uNK cells in both the RIF and IS patient groups, suggestive of a long-term pregnancy induced suppression of uNK cells. Combined, these findings do not support the clinical value of using uNK cell numbers as a prognostic indicator of implantation success with IVF treatment. Study funding/competing interest(s) Funding for this work was provided by Royal Women’s Hospital Foundation. P.P. was supported by an NHMRC Early Career Fellowship [TF 11/14] and W.T.T. was supported by an NHMRC Postgraduate Scholarship [1055814]. The authors do not have any competing interests with this study.

Published
2019
Full Text
View/download PDF

33. Rapid Assessment of Nanoparticle Extravasation in a Microfluidic Tumor Model

Author

Cameron J. Nowell, Thomas P. Davis, John F. Quinn, Michael R. Whittaker, Mai N. Vu, Daniel P. Poole, Song Yang Khor, Nicholas A. Veldhuis, Pradeep Rajasekhar, and Nghia P. Truong

Subjects
TRPV4, 0303 health sciences, Tumor microenvironment, Endothelium, Chemistry, Cell, Regulator, 02 engineering and technology, 021001 nanoscience & nanotechnology, Extravasation, In vitro, 03 medical and health sciences, medicine.anatomical_structure, Drug delivery, Biophysics, medicine, General Materials Science, 0210 nano-technology, 030304 developmental biology
Abstract

The development of nanoparticle-based targeted therapeutics for the treatment of cancer requires a well-defined understanding of the tumor microenvironment, which is challenging due to tumor complexity and heterogeneity. Recent advancements in three-dimensional (3D) cell models such as tumor-on-a-chip devices can overcome some of these challenges by providing coculture in vitro systems (tumor surrounded by tubular endothelial cells) that mimic native cellular environments to accurately study the enhanced permeability and retention (EPR) potential of drug delivery systems under flow conditions. However, inducing “leaky” vasculature in endothelial cells surrounding solid tumors in microfluidic devices is not readily controllable and highly dependent on tumor cell identity. Utilizing a microfluidic tumor model (MTM) consisting of a tumor region surrounded by a 3D microvascular network, we have simulated the EPR effect by activating a known regulator of endothelial junction formation and edema: the transient ...

Published
2019
Full Text
View/download PDF

34. Reproductive plasticity and oogenesis in the queen honey bee (Apis mellifera)

Author

Sarah E. Aamidor, Carlos A.M. Cardoso-Júnior, Januar Harianto, Cameron J. Nowell, Louise Cole, Benjamin P. Oldroyd, and Isobel Ronai

Subjects
0106 biological sciences, 0303 health sciences, 0604 Genetics, 0606 Physiology, 0608 Zoology, Physiology, Reproduction, education, Ovary, Apoptosis, Bees, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Oogenesis, Insect Science, behavior and behavior mechanisms, Animals, Female, Entomology, reproductive and urinary physiology, 030304 developmental biology, Ovum
Abstract

In the honey bee (Apis mellifera), queen and worker castes originate from identical genetic templates but develop into different phenotypes. Queens lay up to 2000 eggs daily whereas workers are sterile in the queen's presence. Periodically queens stop laying: during swarming, when resources are scarce in winter, and when they are confined to a cage by beekeepers. We used confocal microscopy and gene expression assays to investigate the control of oogenesis in the ovaries of honey bee queens that were caged inside and outside the colony. We find evidence that queens use a different combination of 'checkpoints' to regulate oogenesis compared to honey bee workers and other insect species. However, both queen and worker castes likely use the same programmed cell death pathways to terminate oocyte development at their caste-specific checkpoints. Our results also suggest that a key factor driving the termination of oogenesis in queens is nutritional stress. Thus, queens may regulate oogenesis via the same regulatory pathways that were utilised by ancestral solitary species but likely have adjusted physiological checkpoints to suit their highly-derived life history.

Published
2021

35. Mouse models for dominant dystrophic epidermolysis bullosa carrying common human point mutations recapitulate the human disease

Author

Ingrid Hausser, Ken C Pang, Cristina Has, Susan J. Robertson, George Varigos, Johannes S. Kern, Blake R. C. Smith, Alexander Nyström, Christine Gretzmeier, and Cameron J. Nowell

Subjects
0301 basic medicine, Pathology, medicine.medical_specialty, Collagen Type VII, Neuroscience (miscellaneous), Medicine (miscellaneous), Biology, General Biochemistry, Genetics and Molecular Biology, Mouse model, Mice, 030207 dermatology & venereal diseases, 03 medical and health sciences, 0302 clinical medicine, Immunology and Microbiology (miscellaneous), medicine, RB1-214, Animals, Humans, Point Mutation, Missense mutation, Epidermolysis bullosa, Allele, Skin, Basement membrane, integumentary system, Point mutation, medicine.disease, Phenotype, Pathophysiology, Epidermolysis Bullosa Dystrophica, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Blistering, Medicine, CRISPR-Cas Systems, Immunostaining, Research Article
Abstract

Heterozygous missense mutations in the human COL7A1 gene – coding for collagen VII – lead to the rare, dominantly inherited skin disorder dominant dystrophic epidermolysis bullosa (DDEB), which is characterised by skin fragility, blistering, scarring and nail dystrophy. To better understand the pathophysiology of DDEB and develop more effective treatments, suitable mouse models for DDEB are required but to date none have existed. We identified the two most common COL7A1 mutations in DDEB patients (p.G2034R and p.G2043R) and used CRISPR-Cas9 to introduce the corresponding mutations into mouse Col7a1 (p.G2028R and p.G2037R). Dominant inheritance of either of these two alleles results in a phenotype that closely resembles that seen in DDEB patients. Specifically, mice carrying these alleles show recurrent blistering that is first observed transiently around the mouth and paws in the early neonatal period and then again around the digits from 5-10 weeks of age. Histologically, the mice show micro-blistering and reduced collagen VII immunostaining. Biochemically, collagen VII from these mice displays reduced thermal stability, which we also observed to be the case for DDEB patients carrying the analogous mutations. Unlike previous rodent models of epidermolysis bullosa, which frequently show early lethality and severe disease, these mouse models, which to our knowledge are the first for DDEB, show no reduction in growth and survival, and – together with a relatively mild phenotype – represent a practically and ethically tractable tool for better understanding and treating epidermolysis bullosa. This article has an associated First Person interview with the first author of the paper., Summary: We developed mouse models for the blistering genetic skin disorder dominant dystrophic epidermolysis bullosa (DDEB) by introducing mutations into mouse Col7a1. These models should help to improve the understanding and treatment of DDEB.

Published
2021
Full Text
View/download PDF

37. Physiological and pharmacological impact of oxytocin on epididymal propulsion during the ejaculatory process in rodents and men

Author

Beatrix Stadler, Florian M.E. Wagenlehner, Betty Exintaris, Cameron J. Nowell, Michael R. Whittaker, Stefan Arnhold, Adrian Pilatz, and Ralf Middendorff

Subjects
0301 basic medicine, Male, endocrine system, medicine.medical_specialty, Sympathetic nervous system, Vasopressin, Receptors, Vasopressin, Oxytocin, Biochemistry, Rats, Sprague-Dawley, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, Genetics, medicine, Animals, Humans, Ejaculation, Rats, Wistar, Neurotransmitter, Molecular Biology, Epididymis, business.industry, Vas deferens, Antagonist, Atosiban, Rats, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, chemistry, Receptors, Oxytocin, business, hormones, hormone substitutes, and hormone antagonists, 030217 neurology & neurosurgery, Antidiuretic Hormone Receptor Antagonists, Biotechnology, medicine.drug, Muscle Contraction
Abstract

During the emission phase of ejaculation, the sperm is driven from the cauda epididymidis, where it is stored, through the vas deferens by strong contractions. These contractions are thought of as being mainly induced by the sympathetic nervous system and the neurotransmitter noradrenaline. In the present study, we investigated the effect of oxytocin (suggested to exert effects during ejaculation as well) on defined segments of the rat and human epididymis using live imaging. Our results indicate that it is the very last part of the epididymis, segment 19 (S19) in rat and likewise segment 9 in human, which responds in a uniquely strong and rapid manner to oxytocin (similar to noradrenaline). Because of the complex nature of this contractile response, we developed an imaging analysis method, which allowed us to quantify multidirectional contractions and to display them using heat maps. The reaction of S19 to oxytocin was concentration-dependent and could be inhibited by pretreatment with oxytocin antagonists (atosiban and cligosiban), but not with an arginine vasopressin 1A antagonist (SR49059). In both rat and human tissue, pretreatment with the alpha-1 adrenoreceptor antagonist tamsulosin inhibited the response to noradrenaline, whereas the effect of oxytocin was unimpaired. Our data (from men and rodents) strongly suggest that the hormone oxytocin is involved in the ejaculatory process. Thus, oxytocin-based medications might be a promising non-adrenergic treatment option for ejaculatory disorders. Additionally, we propose that S19 could be an advantageous model (detecting very low concentrations of oxytocin) to test the bioactivity of new oxytocin agonists and oxytocin antagonists.

Published
2021

38. The Prolyl-tRNA Synthetase Inhibitor Halofuginone Inhibits SARS-CoV-2 Infection

Author

Racheal N. McVicar, Karsten Zengler, Adam P. Cribbs, Alex E. Clark, Andrea Denardo, Elizabeth M. Kwong, Sydney A. Majowicz, Xin Yin, Ann Piermatteo, Daniel R. Sandoval, Joanna K.C. Coker, Chelsea Nora, Ben A. Croker, Udo Oppermann, Kaare V. Grunddal, Blake M. Hauser, Catrine Johansson, Mark A Tye, Gregory J. Golden, Timothy M. Caradonna, Jeffrey D. Esko, Martin Philpott, Anoop Narayanan, Philip L.S.M. Gordts, N Connor Payne, Joyce Jose, Eric R. Griffis, Sotirios Tsimikas, Ryan J. Weiss, Micheal Downes, Jason A. Magida, Thomas Mandel Clausen, Aaron G. Schmidt, Yuan Pu, Cameron J. Nowell, Carlo Ballatore, Thibault Alle, Charlotte B. Spliid, Jared Feldman, Ronald M. Evans, Sumit K. Chanda, Sandra L. Leibel, Aaron F. Garretson, James E. Dunford, Ralph Mazitschek, and Aaron F. Carlin

Subjects
Polyproteins, Halofuginone, viruses, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), fungi, Cell, Heparan sulfate, Pharmacology, Article, Virus, respiratory tract diseases, body regions, chemistry.chemical_compound, medicine.anatomical_structure, Biosynthesis, chemistry, Viral entry, medicine, skin and connective tissue diseases, medicine.drug
Abstract

Summary ParagraphWe identify the prolyl-tRNA synthetase (PRS) inhibitor halofuginone1, a compound in clinical trials for anti-fibrotic and anti-inflammatory applications2, as a potent inhibitor of SARS-CoV-2 infection and replication. The interaction of SARS-CoV-2 spike protein with cell surface heparan sulfate (HS) promotes viral entry3. We find that halofuginone reduces HS biosynthesis, thereby reducing spike protein binding, SARS-CoV-2 pseudotyped virus, and authentic SARS-CoV-2 infection. Halofuginone also potently suppresses SARS-CoV-2 replication post-entry and is 1,000-fold more potent than Remdesivir4. Inhibition of HS biosynthesis and SARS-CoV-2 infection depends on specific inhibition of PRS, possibly due to translational suppression of proline-rich proteins. We find that pp1a and pp1ab polyproteins of SARS-CoV-2, as well as several HS proteoglycans, are proline-rich, which may make them particularly vulnerable to halofuginone’s translational suppression. Halofuginone is orally bioavailable, has been evaluated in a phase I clinical trial in humans and distributes to SARS-CoV-2 target organs, including the lung, making it a near-term clinical trial candidate for the treatment of COVID-19.

Published
2021
Full Text
View/download PDF

39. Development and Application of Subtype-Selective Fluorescent Antagonists for the Study of the Human Adenosine A

Author

Eleonora, Comeo, Phuc, Trinh, Anh T, Nguyen, Cameron J, Nowell, Nicholas D, Kindon, Mark, Soave, Leigh A, Stoddart, Jonathan M, White, Stephen J, Hill, Barrie, Kellam, Michelle L, Halls, Lauren T, May, and Peter J, Scammells

Subjects
Bridged Bicyclo Compounds, Kinetics, Structure-Activity Relationship, HEK293 Cells, Receptor, Adenosine A1, Drug Design, Fluorescence Resonance Energy Transfer, Humans, Adenosine A1 Receptor Antagonists, Ligands, Octanes, Xanthine, Fluorescent Dyes
Abstract

The adenosine A

Published
2021

40. Regulation of oogenesis in the queen honey bee (Apis mellifera)

Author

Sarah E. Aamidor, Christiane Cardoso, Benjamin P. Oldroyd, Isobel Ronai, Harianto J, Cole L, and Cameron J. Nowell

Subjects
media_common.quotation_subject, education, behavior and behavior mechanisms, Swarming (honey bee), Zoology, Honey bee, Insect, Biology, Life history, Oogenesis, Queen (playing card), media_common
Abstract

In the honey bee (Apis mellifera), queen and worker castes originate from identical genetic templates but develop into different phenotypes. Queens lay up to 2,000 eggs daily whereas workers are sterile in the queen’s presence. Periodically queens stop laying; during swarming, when resources are scarce in winter and when they are confined to a cage by beekeepers. We used confocal microscopy and gene expression assays to investigate the control of oogenesis in honey bee queen ovaries. We show that queens use different combination of ‘checkpoints’ to regulate oogenesis compared to honey bee workers and other insect species. However, both queen and worker castes use the same programmed cell death pathways to terminate oocyte development at their caste-specific checkpoints. Our results also suggest that the termination of oogenesis in queens is driven by nutritional stress. Thus, queens may regulate oogenesis via the same regulatory pathways that were utilised by ancestral solitary species but have adjusted physiological checkpoints to suit their highly-derived life history.Summary statementHoney bee queens regulate oogenesis using a different combination of ‘checkpoints’ to workers, but both castes use the same molecular pathways.

Published
2021
Full Text
View/download PDF

41. Bio‐Mimicking Brain Vasculature to Investigate the Role of Heterogeneous Shear Stress in Regulating Barrier Integrity

Author

Ami Mehta, Anal Desai, David Rudd, Ghizal Siddiqui, Cameron J. Nowell, Ziqiu Tong, Darren J. Creek, Prakriti Tayalia, Prasanna S. Gandhi, and Nicolas H. Voelcker

Subjects
Biomaterials, Biomedical Engineering, General Biochemistry, Genetics and Molecular Biology
Abstract

A continuous, sealed endothelial membrane is essential for the blood-brain barrier (BBB) to protect neurons from toxins present in systemic circulation. Endothelial cells are critical sensors of the capillary environment, where factors like fluid shear stress (FSS) and systemic signaling molecules activate intracellular pathways that either promote or disrupt the BBB. The brain vasculature exhibits complex heterogeneity across the bed, which is challenging to recapitulate in BBB microfluidic models with fixed dimensions and rectangular cross-section microchannels. Here, a Cayley-tree pattern, fabricated using lithography-less, fluid shaping technique in a modified Hele-Shaw cell is used to emulate the brain vasculature in a microfluidic chip. This geometry generates an inherent distribution of heterogeneous FSS, due to smooth variations in branch height and width. hCMEC/D3 endothelial cells cultured in the Cayley-tree designed chip generate a 3D monolayer of brain endothelium with branching hierarchy, enabling the study of the effect of heterogeneous FSS on the brain endothelium. The model is employed to study neuroinflammatory conditions by stimulating the brain endothelium with tumor necrosis factor-α under heterogeneous FSS conditions. The model has immense potential for studies involving drug transport across the BBB, which can be misrepresented in fixed dimension models.

Published
2022
Full Text
View/download PDF

42. No observed effect on brain vasculature of Alzheimer’s disease-related mutations in the zebrafish presenilin 1 gene

Author

Cameron J. Nowell, Michael Lardelli, Karissa Barthelson, and Morgan Newman

Subjects
0301 basic medicine, Heterozygote, medicine.medical_specialty, Green Fluorescent Proteins, Mutant, Biology, lcsh:RC346-429, Micro Report, 03 medical and health sciences, Cellular and Molecular Neuroscience, Basal (phylogenetics), 0302 clinical medicine, Alzheimer Disease, Internal medicine, Presenilin-1, medicine, PSEN1, Animals, Confocal laser scanning microscopy, 3D reconstruction, Molecular Biology, Zebrafish, lcsh:Neurology. Diseases of the nervous system, Cerebrum, Wild type, Brain, Zebrafish Proteins, Hypoxia (medical), biology.organism_classification, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, Mutation, Forebrain, Vasculature, medicine.symptom, 030217 neurology & neurosurgery
Abstract

Previously, we found that brains of adult zebrafish heterozygous for Alzheimer’s disease-related mutations in their presenilin 1 gene (psen1, orthologous to human PSEN1) show greater basal expression levels of hypoxia responsive genes relative to their wild type siblings under normoxia, suggesting hypoxic stress. In this study, we investigated whether this might be due to changes in brain vasculature. We generated and compared 3D reconstructions of GFP-labelled blood vessels of the zebrafish forebrain from heterozygous psen1 mutant zebrafish and their wild type siblings. We observed no statistically significant differences in vessel density, surface area, overall mean diameter, overall straightness, or total vessel length normalised to the volume of the telencephalon. Our findings do not support that changes in vascular morphology are responsible for the increased basal expression of hypoxia responsive genes in psen1 heterozygous mutant brains.

Published
2021
Full Text
View/download PDF

43. Immune response to intravenous immunoglobulin in patients with Kawasaki disease and MIS-C

Author

Alessandra Franco, Elizabeth Moreno, Hal M. Hoffman, Weiqi Peng, Isaac Shamie, John T. Kanegaye, Stephanie G. Labou, Cameron J. Nowell, Jane C. Burns, Eric R. Griffis, Ben A. Croker, Chisato Shimizu, Linh N.N. Le, Adriana H. Tremoulet, Lori Broderick, Yanfang Peipei Zhu, Huilai Miao, Hainan Xiong, Yushan Liu, Shiela Angulo, Nathan E. Lewis, Jamie Casey Lee, and Cathleen J. Pena

Subjects
Male, Allergy, Fas Ligand Protein, Neutrophils, Interleukin-1beta, Mucocutaneous Lymph Node Syndrome, Neutrophil Activation, Leukocyte Count, Immune system, hemic and lymphatic diseases, medicine, Humans, Mass cytometry, Cell Lineage, Spotlight, Child, Innate immune system, NADPH oxidase, biology, Cell Death, business.industry, COVID-19, Immunoglobulins, Intravenous, Infant, General Medicine, medicine.disease, Systemic Inflammatory Response Syndrome, Systemic inflammatory response syndrome, Case-Control Studies, Child, Preschool, Immunology, biology.protein, Kawasaki disease, Female, Antibody, business
Abstract

BACKGROUNDMultisystem inflammatory syndrome in children (MIS-C) is a rare but potentially severe illness that follows exposure to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Kawasaki disease (KD) shares several clinical features with MIS-C, which prompted the use of intravenous immunoglobulin (IVIG), a mainstay therapy for KD. Both diseases share a robust activation of the innate immune system, including the IL-1 signaling pathway, and IL-1 blockade has been used for the treatment of both MIS-C and KD. The mechanism of action of IVIG in these 2 diseases and the cellular source of IL-1s have not been defined.METHODSThe effects of IVIG on peripheral blood leukocyte populations from patients with MIS-C and KD were examined using flow cytometry and mass cytometry (CyTOF) and live-cell imaging.RESULTSCirculating neutrophils were highly activated in patients with KD and MIS-C and were a major source of IL-1s. Following IVIG treatment, activated IL-1s+ neutrophils were reduced in the circulation. In vitro, IVIG was a potent activator of neutrophil cell death via PI3K and NADPH oxidase, but independently of caspase activation.CONCLUSIONSActivated neutrophils expressing IL-1s can be targeted by IVIG, supporting its use in both KD and MIS-C to ameliorate inflammation.FUNDINGPatient Centered Outcomes Research Institute; NIH; American Asthma Foundation; American Heart Association; Novo Nordisk Foundation; NIGMS; American Academy of Allergy, Asthma and Immunology Foundation.

Published
2020

44. Emulsions containing optimum cow milk fat and canola oil mixtures replicate the lipid self-assembly of human breast milk during digestion

Author

Cameron J. Nowell, Ben J. Boyd, Malinda Salim, Syaza Y. Binte Abu Bakar, Andrew J. Clulow, and Adrian Hawley

Subjects
food.ingredient, Sonication, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Biomaterials, Cow milk, Colloid and Surface Chemistry, food, Milk substitute, Animals, Humans, Food science, Globules of fat, Canola, Milk, Human, Chemistry, food and beverages, Infant, 021001 nanoscience & nanotechnology, Lipids, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Cattle, Digestion, Emulsions, Female, Rapeseed Oil, Self-assembly, 0210 nano-technology, Lipid digestion
Abstract

Hypothesis The digestion of different milks and milk substitutes leads to the formation of a variety of self-assembled lipid structures, with the structuring of human milk being paramount for infant nutrition. It was hypothesised that mixing cow milk fat rich in medium/long-chain lipids with canola oil rich in long-chain unsaturated lipids would replicate the structuring of human milk by balancing lipid chain lengths and saturation levels. Experiments Emulsions of cow milk fat/canola oil mixtures were prepared in two ways – by pre-mixing ghee and canola oil before dispersing them and by dispersing canola oil directly into commercial cow milk. Small angle X-ray scattering combined with titration of the fatty acids produced during digestion allowed for the correlation of dynamic lipid self-assembly with the extent of lipid digestion. Laser light scattering was used to show that the particle sizes in the digesting mixtures were similar and coherent anti-Stokes Raman spectroscopy (CARS) microscopy was used to confirm the mixing of canola oil into cow milk fat globules. Findings As the amount of long-chain unsaturated canola oil lipids in the mixtures increased, the lipid self-assembly tended towards colloidal structures of greater interfacial curvature. When the ratio of cow milk fat to canola oil lipids was 1:1 (w/w), the digesting lipids assembled themselves into the same liquid crystalline structures as human breast milk. This observation was independent of the method used to mix the lipids, with CARS microscopy indicating uniform mixing of the canola oil into cow milk upon ultrasonication.

Published
2020

45. Cover, Volume 41, Issue 10

Author

Simranpreet Kaur, Nicole J. Van Bergen, Kristen J. Verhey, Cameron J. Nowell, Breane Budaitis, Yang Yue, Carolyn Ellaway, Nicola Brunetti‐Pierri, Gerarda Cappuccio, Irene Bruno, Lia Boyle, Vincenzo Nigro, Annalaura Torella, Tony Roscioli, Mark J. Cowley, Sean Massey, Rhea Sonawane, Matthew D. Burton, Bitten Schonewolf‐Greulich, Zeynep Tümer, Wendy K. Chung, Wendy A. Gold, and John Christodoulou

Subjects
Genetics, Genetics (clinical)
Published
2020
Full Text
View/download PDF

46. Visualising functional 5-HT

Author

Isaiah P L, Abad, Ray L, Fam, Dan-Thanh, Nguyen, Cameron J, Nowell, Phuc N H, Trinh, David T, Manallack, Lubna A, Freihat, Jay, Chakrabarti, Aamani, Jamil, Betty, Exintaris, Nor S, Yaakob, and Helen R, Irving

Subjects
HEK293 Cells, Patch-Clamp Techniques, Humans, Serotonin 5-HT3 Receptor Antagonists, Receptors, Serotonin, 5-HT3, Transfection
Abstract

Five different subunits of the human serotonin 3 (5-hydroxytrptamine 3; 5-HT

Published
2020

47. A lipid-anchored neurokinin 1 receptor antagonist prolongs pain relief by a three-pronged mechanism of action targeting the receptor at the plasma membrane and in endosomes

Author

P.A. Shenoy, Michelle L. Halls, Luigi Aurelio, Tim Quach, Joshua W. Conner, Quynh N. Mai, Stephen J. Hill, Thomas P. Davis, Meritxell Canals, Christopher J.H. Porter, Nigel W. Bunnett, Arisbel B. Gondin, Cameron J. Nowell, Holly R. Yeatman, Bim Graham, Nicholas A. Veldhuis, Jeffri S. Retamal, Daniel P. Poole, and Stephen J. Briddon

Subjects
0301 basic medicine, Male, OEt, ethyl ester, pmEpac2, plasma membrane localized Epac2-camps FRET biosensor, Substance P, Cy5-OEt, cyanine 5 with an ethyl ester linked via PEG, Biochemistry, DMEM, Dulbecco’s modified Eagle’s medium, chemistry.chemical_compound, Neurokinin-1 Receptor Antagonists, pain, Internalization, AC, adenylyl cyclase, media_common, Calcium signaling, Analgesics, cytoCKAR, cytosolic C kinase activity reporter FRET biosensor, Chemistry, InsP3, inositol trisphosphate, Cy5, cyanine 5, tachykinin, BACE-1, β-site amyloid precursor protein cleaving enzyme 1, Cell biology, Cholestanol, cAMP, cyclic adenosine monophosphate, FCS, fluorescence correlation spectroscopy, medicine.symptom, Research Article, Cell signaling, G-protein-coupled receptor, Endosome, media_common.quotation_subject, TAMRA, tetramethylrhodamine, Endosomes, Cy5-Chol, cyanine 5 with cholestanol linked via PEG, Endocytosis, cytoEpac2, cytosolic Epac2-camps FRET biosensor, Span, Spantide I, 03 medical and health sciences, CFP, cyan fluorescent protein, FBS, fetal bovine serum, PKC, protein kinase C, medicine, Animals, Humans, Pain Management, cell signaling, Span-Chol, Spantide I conjugated to cholestanol via PEG linker, BRET, bioluminescence resonance energy transfer, Molecular Biology, endosome, lipid conjugation, GPCR, G protein-coupled receptor, SP, substance P, 030102 biochemistry & molecular biology, Beta-Arrestins, Chol, biotin conjugated to cholestanol via a PEG linker, Cell Membrane, ERK, extracellular signal regulated kinase (mitogen activated protein kinase), Inositol trisphosphate, Cell Biology, YFP, yellow fluorescent protein, EGFR, epidermal growth factor receptor, Mice, Inbred C57BL, RLuc8, Renilla luciferase, 030104 developmental biology, HEK293 Cells, Mechanism of action, NK1R, neurokinin 1 receptor, drug delivery, PKA, protein kinase A, DAG, diacylglycerol
Abstract

G-protein-coupled receptors (GPCRs) are traditionally known for signaling at the plasma membrane, but they can also signal from endosomes after internalization to control important pathophysiological processes. In spinal neurons, sustained endosomal signaling of the neurokinin 1 receptor (NK1R) mediates nociception, as demonstrated in models of acute and neuropathic pain. An NK1R antagonist, Spantide I (Span), conjugated to cholestanol (Span-Chol), accumulates in endosomes, inhibits endosomal NK1R signaling, and causes prolonged antinociception. However, the extent to which the Chol-anchor influences long-term location and activity is poorly understood. Herein, we used fluorescent correlation spectroscopy and targeted biosensors to characterize Span-Chol over time. The Chol-anchor increased local concentration of probe at the plasma membrane. Over time we observed an increase in NK1R-binding affinity and more potent inhibition of NK1R-mediated calcium signaling. Span-Chol, but not Span, caused a persistent decrease in NK1R recruitment of β-arrestin and receptor internalization to early endosomes. Using targeted biosensors, we mapped the relative inhibition of NK1R signaling as the receptor moved into the cell. Span selectively inhibited cell surface signaling, whereas Span-Chol partitioned into endosomal membranes and blocked endosomal signaling. In a preclinical model of pain, Span-Chol caused prolonged antinociception (>9 h), which is attributable to a three-pronged mechanism of action: increased local concentration at membranes, a prolonged decrease in NK1R endocytosis, and persistent inhibition of signaling from endosomes. Identifying the mechanisms that contribute to the increased preclinical efficacy of lipid-anchored NK1R antagonists is an important step toward understanding how we can effectively target intracellular GPCRs in disease

Published
2020

48. In the Loop: Extrastriatal Regulation of Spiny Projection Neurons by GPR52

Author

Patrick M. Sexton, Jess Nithianantharajah, David M. Shackleford, Mohsin Sarwar, Sherie Ma, Christopher J. Langmead, Miaomiao Mao, Gregory D. Stewart, Daisy L Spark, and Cameron J. Nowell

Subjects
Neurons, Physiology, Chemistry, Receptors, Dopamine D2, Cognitive Neuroscience, Receptors, Dopamine D1, Glutamate receptor, Excitatory Postsynaptic Potentials, Mice, Transgenic, Cell Biology, General Medicine, Striatum, Medium spiny neuron, Biochemistry, Corpus Striatum, Glutamatergic, Mice, Metabotropic receptor, Dopamine, Dopamine receptor D2, medicine, Excitatory postsynaptic potential, Animals, Neuroscience, medicine.drug
Abstract

GPR52 is a Gαs-coupled orphan receptor identified as a putative target for the treatment of schizophrenia. The unique expression and signaling profile of GPR52 in key areas of dopamine and glutamate dysregulation suggests its activation may resolve both cortical and striatal dysfunction in the disorder. GPR52 mRNA is enriched in the striatum, almost exclusively on dopamine D2-expressing medium spiny neurons (MSNs), and to a lesser extent in the cortex, predominantly on D1-expressing pyramidal neurons. Synthetic, small molecule GPR52 agonists are effective in preclinical models of psychosis; however, the relative contribution of cortical and striatal GPR52 is unknown. Here we show that the GPR52 agonist, 3-BTBZ, inhibits phencyclidine-induced hyperlocomotor activity to a greater degree than amphetamine-induced motor effects, suggesting a mechanism beyond functional antagonism of striatal dopamine D2 receptor signaling. Using DARPP-32 phosphorylation and electrophysiological recordings in either striatopallidal or striatonigral MSNs, we were surprised to find no significant effect of 3-BTBZ in striatopallidal MSNs, but GPR52-mediated effects in striatonigral MSNs, where its mRNA is absent. 3-BTBZ increases phosphorylation of T75 on DARPP-32 in striatonigral MSNs, an effect that was dependent on cortical inputs. A similar role for GPR52 in regulating extrastriatal glutamatergic drive onto striatonigral MSNs was also evident in recordings of spontaneous excitatory postsynaptic currents and was shown to be dependent on the metabotropic glutamate (mGlu) receptor subtype 1. Our results demonstrate that GPR52-mediated regulation of striatal function depends heavily on extrastriatal inputs, which may further support its utility as a novel target for the treatment of schizophrenia.

Published
2020

49. A Nonionic Polyethylene Oxide (PEO) Surfactant Model: Experimental and Molecular Dynamics Studies of Kolliphor EL

Author

Cameron J. Nowell, Anna C. Pham, David K. Chalmers, Christopher J.H. Porter, Hassan Benameur, Estelle J.A. Suys, Andrew J. Clulow, Dallas B. Warren, and Colin W. Pouton

Subjects
Glycerol, Phase transition, Materials science, Chemistry, Pharmaceutical, Pharmaceutical Science, 02 engineering and technology, Molecular Dynamics Simulation, Models, Biological, 030226 pharmacology & pharmacy, Force field (chemistry), Excipients, Surface-Active Agents, 03 medical and health sciences, Colloid, Molecular dynamics, 0302 clinical medicine, Dynamic light scattering, Pulmonary surfactant, Nephelometry and Turbidimetry, medicine, Micelles, Small-angle X-ray scattering, Cryoelectron Microscopy, Kolliphor EL, 021001 nanoscience & nanotechnology, Solutions, Models, Chemical, Chemical engineering, Digestion, 0210 nano-technology, medicine.drug
Abstract

Polyethoxylated, nonionic surfactants are important constituents of many drug formulations, including lipid-based formulations. In an effort to better understand the behavior of formulation excipients at the molecular level, we have developed molecular dynamics (MD) models for the widely used surfactant Kolliphor EL (KOL), a triricinoleate ester of ethoxylated glycerol. In this work, we have developed models based on a single, representative molecular component modeled with 2 force field variations based on the GROMOS 53A6DBW and 2016H66 force field parameters for polyethoxylate chains. To compare the computational models to experimental measurements, we investigated the phase behavior of KOL using nephelometry, dynamic light scattering, cross-polarized microscopy, small-angle X-ray scattering, and cryogenic transmission electron microscopy. The potential for digestion of KOL was also evaluated using an in vitro digestion experiment. We found that the size and spherical morphology of the KOL colloids at low concentrations was reproduced by the MD models as well as the growing interactions between the aggregates to from rod-like structures at high concentrations. We believe that this model reproduces the phase behavior of KOL relevant to drug absorption and that it can be used in whole formulation simulations to accelerate the formulation development.

Published
2019
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results