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1. Bilayered extracellular matrix derived scaffolds with anisotropic pore architecture guide tissue organization during osteochondral defect repair

Author

David C. Browe, Pedro J. Díaz-Payno, Fiona E. Freeman, Rossana Schipani, Ross Burdis, Daniel P. Ahern, Jessica M. Nulty, Selcan Guler, Lindsey D. Randall, Conor T. Buckley, Pieter A.J. Brama, and Daniel J. Kelly

Subjects
Cartilage, Articular, History, Tissue Engineering, Tissue Scaffolds, Polymers and Plastics, Biomedical Engineering, Biocompatible Materials, General Medicine, Biochemistry, Industrial and Manufacturing Engineering, Extracellular Matrix, Biomaterials, Animals, Collagen, Business and International Management, Chondrogenesis, Molecular Biology, Biotechnology
Abstract

While some clinical advances in cartilage repair have occurred, osteochondral (OC) defect repair remains a significant challenge, with current scaffold-based approaches failing to recapitulate the complex, hierarchical structure of native articular cartilage (AC). To address this need, we fabricated bilayered extracellular matrix (ECM)-derived scaffolds with aligned pore architectures. By modifying the freeze-drying kinetics and controlling the direction of heat transfer during freezing, it was possible to produce anisotropic scaffolds with larger pores which supported homogenous cellular infiltration and improved sulfated glycosaminoglycan deposition. Neo-tissue organization in vitro could also be controlled by altering scaffold pore architecture, with collagen fibres aligning parallel to the long-axis of the pores within scaffolds containing aligned pore networks. Furthermore, we used in vitro and in vivo assays to demonstrate that AC and bone ECM derived scaffolds could preferentially direct the differentiation of mesenchymal stromal cells (MSCs) towards either a chondrogenic or osteogenic lineage respectively, enabling the development of bilayered ECM scaffolds capable of spatially supporting unique tissue phenotypes. Finally, we implanted these scaffolds into a large animal model of OC defect repair. After 6 months in vivo, scaffold implantation was found to improve cartilage matrix deposition, with collagen fibres preferentially aligning parallel to the long axis of the scaffold pores, resulting in a repair tissue that structurally and compositionally was more hyaline-like in nature. These results demonstrate how scaffold architecture and composition can be spatially modulated to direct the regeneration of complex interfaces such as the osteochondral unit, enabling their use as cell-free, off-the-shelf implants for joint regeneration. STATEMENT OF SIGNIFICANCE: The architecture of the extracellular matrix, while integral to tissue function, is often neglected in the design and evaluation of regenerative biomaterials. In this study we developed a bilayered scaffold for osteochondral defect repair consisting of tissue-specific extracellular matrix (ECM)-derived biomaterials to spatially direct stem/progenitor cell differentiation, with a tailored pore microarchitecture to promote the development of a repair tissue that recapitulates the hierarchical structure of native AC. The use of this bilayered scaffold resulted in improved tissue repair outcomes in a large animal model, specifically the ability to guide neo-tissue organization and therefore recapitulate key aspects of the zonal structure of native articular cartilage. These bilayer scaffolds have the potential to become a new therapeutic option for osteochondral defect repair.

Published
2022

3. Size segregation and seasonal patterns in rusty crayfish Faxonius rusticus distribution and abundance on northern Lake Michigan spawning reefs

Author

W. Lindsay Chadderton, Krista M. Robinson, Jason T. Buckley, David F. Clapp, Jake Kvistad, Patrick O'Neill, Matthew E. Herbert, Randall M. Claramunt, Andrew J. Tucker, and Tracy L Galarowicz

Subjects
0106 biological sciences, geography, geography.geographical_feature_category, Ecology, biology, 010604 marine biology & hydrobiology, Rusty crayfish, Context (language use), 010501 environmental sciences, Aquatic Science, Minnow, biology.organism_classification, 01 natural sciences, Predation, Habitat, Abundance (ecology), biology.animal, Environmental science, Reef, Relative species abundance, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences
Abstract

Non-native rusty crayfish are abundant egg predators on spawning reef habitats for lake trout and coregonines in northern Lake Michigan. To better understand rusty crayfish life-history on these unique habitats, we conducted monitoring in 2012 and 2013 at four locations previously identified as spawning areas for native fish. With the aid of a graphical causal model, we conducted an exploratory statistical analysis using a Bayesian multilevel modeling approach with model selection based on information criteria to identify important environmental variables for predicting rusty crayfish distribution and abundance on spawning reefs. We also compared seasonal trends in relative abundance, inferred from catch-per-unit-effort calculations from trapping, to previously reported accounts from a smaller inland lake. The results from our modeling provide evidence of size-class segregation across subtle changes in habitat characteristics of spawning reefs. Specifically, we found evidence that the distribution of >30 mm rusty crayfish was only weakly related to rock density (#/m2) relative to juveniles and smaller size classes. We also observed highest relative abundances from minnow trap monitoring in mid-October when water temperatures averaged 13.9 °C, which is later in the year and at cooler temperatures than similar monitoring from smaller inland lakes has reported. We hypothesize that unique environmental conditions elicit novel life-history responses from rusty crayfish on Lake Michigan spawning reefs and discuss our findings in the context of native fish restoration in the Laurentian Great Lakes.

Published
2021

5. Multivalent human antibody-centyrin fusion protein to prevent and treat Staphylococcus aureus infections

Author

Peter T. Buckley, Rita Chan, Jeffrey Fernandez, Jinquan Luo, Keenan A. Lacey, Ashley L. DuMont, Aidan O’Malley, Randall J. Brezski, Songmao Zheng, Thomas Malia, Brian Whitaker, Adam Zwolak, Angela Payne, Desmond Clark, Martin Sigg, Eilyn R. Lacy, Anna Kornilova, Debra Kwok, Steve McCarthy, Bingyuan Wu, Brian Morrow, Jennifer Nemeth-Seay, Ted Petley, Sam Wu, William R. Strohl, Anthony Simon Lynch, and Victor J. Torres

Subjects
Virology, Parasitology, Microbiology
Published
2023

8. Reversible, Position-Dependent Midbrain Compression in a Patient with Spontaneous Intracranial Hypotension

Author

Jacob Ruzevick, Robert T. Buckley, Soliman Oushy, Randall M. Chesnut, and John R. Williams

Subjects
Male, Leak, Nerve root, Intracranial Hypotension, law.invention, 03 medical and health sciences, 0302 clinical medicine, Hematoma, Cerebrospinal fluid, Deconditioning, Mesencephalon, law, Humans, Medicine, Brain Diseases, Cerebrospinal Fluid Leak, business.industry, Middle Aged, medicine.disease, Intensive care unit, Hematoma, Subdural, Respiratory failure, 030220 oncology & carcinogenesis, Anesthesia, Surgery, Neurology (clinical), Tomography, X-Ray Computed, business, 030217 neurology & neurosurgery
Abstract

Background Intracranial hypotension is an underrecognized cause of spontaneous subdural hematoma. Failure to identify this entity and treat the underlying etiology can result in profoundly dangerous clinical consequences, prolonged and costly hospitalization, and caregiver fatigue, as seen in the case presented here. Case Description We present a case of intracranial hypotension associated with a spontaneous cerebrospinal fluid (CSF) leak in the cervical spine leading to consistently reproducible herniation syndrome with head of bed elevation, and bilateral subdural hematomas as a result of a pressure gradient favoring downward migration of intracranial contents resulting in traction on bridging veins. This gradient promoted transtentorial herniation with resultant brainstem compression, leading to a prolonged intensive care unit stay, recurrent respiratory failure, and severe deconditioning. An exhaustive diagnostic workup uncovered a cervical root CSF leak with a nuclear medicine CSF flow study, which was successfully treated with nerve root ligation and dural closure. The patient recovered well postprocedurally and was able to return to baseline level of function. Conclusions This case demonstrates the importance of considering intracranial hypotension in cases of positional herniation syndrome and the necessity for early and aggressive attempts at identifying and treating the underlying cause to prevent unnecessary neurologic dysfunction and protracted medical care.

Published
2019

9. Overcoming Poor Tabletability of Bulky Absorption Enhancers by Spray Drying Technology

Author

Aohua Wang, Yue Wu, Stephen T. Buckley, Mingshi Yang, Yong Gan, Weiwei Fan, Lars Hovgaard, and Jorrit Jeroen Water

Subjects
Thermogravimetric analysis, Materials science, Scanning electron microscope, Chemistry, Pharmaceutical, Drug Compounding, Administration, Oral, Pharmaceutical Science, 02 engineering and technology, 030226 pharmacology & pharmacy, 03 medical and health sciences, Tableting, 0302 clinical medicine, Differential scanning calorimetry, X-Ray Diffraction, Desiccation, Particle Size, Active ingredient, Calorimetry, Differential Scanning, Sodium Cholate, 021001 nanoscience & nanotechnology, Chemical engineering, Gastrointestinal Absorption, Spray drying, Microscopy, Electron, Scanning, Pharmaceutical Vehicles, Powders, Absorption (chemistry), Peptides, 0210 nano-technology, Hydrophobic and Hydrophilic Interactions, Deoxycholic Acid, Tablets, Amorphism
Abstract

Absorption enhancers are often a major component of solid oral peptide formulations as compared to the active pharmaceutical ingredient and excipients. This commonly results in poor tabletability that is hard to mitigate in direct compaction by addition of small amounts of excipients. To improve the tabletability of bulky absorption enhancers, the model absorption enhancers, sodium cholate and deoxycholic acid, were co-spray-dried with hydroxypropyl methylcellulose E5, where the percentage of absorption enhancers was not lower than 90% (w/w). The physicochemical properties of the resulting powders were assessed by laser diffraction, scanning electron microscopy, X-ray powder diffraction, thermogravimetric analysis, and differential scanning calorimetry. The powders were compressed into tablets, and the tabletability was evaluated. Co-spray drying with 10% of hydroxypropyl methylcellulose significantly improved the tabletability of the both absorption enhancers. Moreover, it was demonstrated that small particle size and amorphous state rather than high moisture content contributed to the improved tabletability of the spray-dried powders. The study suggests that spray drying technology can be promising to overcome the poor tabletability of oral peptide formulation consisting of large amounts of absorption enhancers.

Published
2019

11. Parish-Based Responses to the Philippine Drug War

Author

David T. Buckley and Steven Brooke

Subjects
Populism, History, Polymers and Plastics, Political science, Political violence, Business and International Management, Criminology, Industrial and Manufacturing Engineering, Philipines
Published
2021

15. Effect of electrical discharge machining on corrosion and corrosion fatigue behavior of aluminum alloys

Author

Saravanan Arunachalam, Sarah E. Galyon Dorman, N. Aidan Conrad, Scott A. Fawaz, and Richard T. Buckley

Subjects
Materials science, 020209 energy, Mechanical Engineering, Metallurgy, chemistry.chemical_element, 02 engineering and technology, Paris' law, 021001 nanoscience & nanotechnology, Industrial and Manufacturing Engineering, Corrosion, Brass, Cracking, Electrical discharge machining, chemistry, Machining, Mechanics of Materials, Aluminium, Corrosion fatigue, Modeling and Simulation, visual_art, 0202 electrical engineering, electronic engineering, information engineering, visual_art.visual_art_medium, General Materials Science, 0210 nano-technology
Abstract

Electrical discharge machining (EDM) is often used in the manufacturing of fatigue test coupons because it allows for the production of complex shapes and sharp starting notches. However, the effect that the machining process has on the corrosion susceptibility due to the surface alterations is unknown. This work focuses on the effect the machining method has on the corrosion and corrosion fatigue behavior of aluminum alloys. The study is aimed at understanding the influence of EDM processes on environmentally assisted cracking evaluations, namely crack growth rate. Conventional milling and electrical discharge machining were the machining process examined in this study; the machining parameters used were best practices for laboratory fatigue sample production. The following aluminum alloys (AA) 2024-T351, 5083-H116, 6061-T6 and 7075-T651 were evaluated in this study. EDM was performed using a 0.152 mm (0.006 in.) hard brass wire. Surface quality evaluations, microstructural analysis, electrochemical tests and corrosion fatigue testing in sodium chloride (NaCl) solution were completed. The study found corrosion rates are affected by the EDM machining in all aluminum alloys. In final testing, crack growth rate tests were completed in sodium chloride solution with starter notches that were traditionally cut and EDM machined for 7xxx and 2xxx series alloys. The testing showed accelerated fatigue crack growth rates for the samples with EDM notches as compared to cut notches.

Published
2018

16. Technical note: A corrected two dimensional data inversion routine for tandem mobility-mass measurements

Author

David T. Buckley, Myong-Hwa Lee, Nobuhiko Fukushima, Shigeru Kimoto, and Christopher J. Hogan

Subjects
Fluid Flow and Transfer Processes, Atmospheric Science, Environmental Engineering, Source code, 010504 meteorology & atmospheric sciences, Tandem, Chemistry, Mechanical Engineering, media_common.quotation_subject, Analytical chemistry, Inversion (meteorology), 010501 environmental sciences, Combustion, 01 natural sciences, Pollution, Transfer function, Computational physics, Aerosol, Distribution function, Particle counter, 0105 earth and related environmental sciences, media_common
Abstract

Tandem mobility and mass measurements of aerosol particles, performed with a differential mobility analyzer-aerosol particle mass analyzer-condensation particle counter (DMA-APM-CPC) or DMA-centrifugal particle mass analyzer-CPC, find increasing application in the analysis of combustion derived aerosols and complex aerosol mixtures. In addition to determining the average mass of mobility classified particles, DMA-APM-CPC measurements can, in principle, be inverted to yield a two-dimensional number based size-mass distribution function (the number concentration per unit mobility diameter change and per unit mass change), and this distribution function can in turn be integrated to yield a variety of one-dimensional distribution functions quantifying an aerosol. In this technical note, we present a revised and more robust algorithm to invert two dimensional distribution functions from DMA-APM-CPC measurements than we have presented previously. The inversion algorithm accounts for the DMA transfer function, the APM transfer function, and the particle charge distribution. We additionally provide source code files as Supplemental information to implement this algorithm.

Published
2017

17. Pediatric hemispherectomy outcome: Adaptive functioning, intelligence, and memory

Author

Hillary A. Shurtleff, Mary H. Warner, Richard G. Ellenbogen, Dwight Barry, Jeffrey G. Ojemann, Jason S. Hauptman, Robert T. Buckley, Christopher C. Young, Ahmad Marashly, Andrew Poliakov, Russell P. Saneto, Timothy Firman, and Emma A. Roberts

Subjects
Pediatrics, medicine.medical_specialty, business.industry, medicine.medical_treatment, Neuropsychology, medicine.disease, Engel classification, Hemispherectomy, Behavioral Neuroscience, Epilepsy, Neurology, Cohort, medicine, Etiology, Epilepsy surgery, Neurology (clinical), Verbal memory, business
Abstract

Objective Our purpose was to characterize neuropsychological evaluation (NP) outcome following functional hemispherectomy in a large, representative cohort of pediatric patients. Methods We evaluated seizure and NP outcomes and medical variables for all post-hemispherectomy patients from Seattle Children’s Hospital epilepsy surgery program between 1996 and 2020. Neuropsychological evaluation outcome tests used were not available on all patients due to the diversity of patient ages and competency that is typical of a representative pediatric cohort; all patients had at least an adaptive functioning or intelligence measure, and a subgroup had memory testing. Results A total of 71 hemispherectomy patients (37 right; 34 females) yielded 66 with both preoperative (PREOP) plus postoperative (POSTOP) NPs and 5 with POSTOP only. Median surgery age was 5.7 (IQR 2–9.9) years. Engel classification indicated excellent seizure outcomes: 59 (84%) Class I, 6 (8%) Class II, 5 (7%) Class III, and 1 (1%) Class IV. Medical variables – including seizure etiology, surgery age, side, presurgical seizure duration, unilateral or bilateral structural abnormalities, secondarily generalized motor seizures – were not associated with either Engel class or POSTOP NP scores, though considerable heterogeneity was evident. Median PREOP and POSTOP adaptive functioning (PREOP n = 45, POSTOP n = 48) and intelligence (PREOP n = 29, POSTOP n = 36) summary scores were exceptionally low and did not reveal group decline from PREOP to POSTOP. Fifty-five of 66 (85%) cases showed stability or improvement. Specifically, 5 (8%) improved; 50 (76%) showed stability; and 11 (16%) declined. Improve and decline groups showed clinically interesting, but not statistical, differences in seizure control and age. Median memory summary scores were low and also showed considerable heterogeneity. Overall median PREOP to POSTOP memory scores (PREOP n = 16, POSTOP n = 24) did not reveal declines, and verbal memory scores improved. Twenty six percent of intelligence and 33% of memory tests had verbal versus visual-spatial discrepancies; all but one favored verbal, regardless of hemispherectomy side. Significance This large, single institution study revealed excellent seizure outcome in 91% of all 71 patients plus stability and/or improvement of intelligence and adaptive functioning in 85% of 66 patients who had PREOP plus POSTOP NPs. Memory was similarly stable overall, and verbal memory improved. Medical variables did not predict group NP outcomes though heterogeneity argues for further research. This study is unique for cohort size, intelligence plus memory testing, and evidence of primacy of verbal over visual-spatial development, despite hemispherectomy side. This study reinforces the role of hemispherectomy in achieving good seizure outcome while preserving functioning.

Published
2021

18. A Fructo-Oligosaccharide Prebiotic Is Well Tolerated in Adults Undergoing Allogeneic Hematopoietic Stem Cell Transplantation: A Phase I Dose-Escalation Trial

Author

Anthony A. Fodor, Erin F. Brooks, Crystal L. Mackall, Farnaz Fouladi, Matthew T. Buckley, Robert S. Negrin, Bita Sahaf, Andrew R. Rezvani, Courtney Greene, Ekaterina Tkachenko, David B. Miklos, Sally Arai, Haley Hedlin, Ami S. Bhatt, Tessa M. Andermann, and Fiona B. Tamburini

Subjects
medicine.medical_treatment, T cell, Graft vs Host Disease, Oligosaccharides, Hematopoietic stem cell transplantation, Gut flora, Article, Mice, Immune system, medicine, Animals, Humans, Immunology and Allergy, Transplantation, biology, business.industry, Prebiotic, Hematopoietic Stem Cell Transplantation, FOXP3, Cell Biology, Hematology, biology.organism_classification, medicine.disease, Gastrointestinal Microbiome, Prebiotics, Graft-versus-host disease, medicine.anatomical_structure, Immunology, Molecular Medicine, business
Abstract

Alterations of the gut microbiota after allogeneic hematopoietic cell transplantation (allo-HCT) are a key factor in the development of transplant-related complications such as graft-versus-host disease (GVHD). Interventions that preserve the gut microbiome hold promise to improve HCT-associated morbidity and mortality. Murine models demonstrate that prebiotics such as fructo-oligosaccharides (FOSs) may increase gut levels of short-chain fatty acids (SCFAs) such as butyrate and consequently induce proliferation of immunomodulatory FOXP3+CD4+ regulatory T cells (Tregs), which impact GVHD risk. We conducted a pilot phase I trial to investigate the maximum tolerated dose of FOS in patients undergoing reduced-intensity allo-HCT (n = 15) compared with concurrent controls (n = 16). We administered the FOS starting at pretransplant conditioning and continuing for a total of 21 days. We characterized the gut microbiome using shotgun metagenomic sequencing, measured stool short-chain fatty acids (SCFAs) using liquid chromatography–mass spectrometry, and determined peripheral T cell concentrations using cytometry by time-of-flight. We found that FOS was safe and well-tolerated at 10 g/d without significant adverse effects in patients undergoing allo-HCT. Community-level gut microbiota composition differed significantly on the day of transplant (day 0) between patients receiving FOS and concurrent controls; however, FOS-associated alterations of the gut microbiota were not sustained after transplant. Although the impact of FOS was fleeting, transplantation itself impacted a substantial number of taxa over time. In our small pilot trial, no significant differences were observed in gut microbial metabolic pathways, stool SCFAs, or peripheral Tregs, although Tregs trended higher in those patients who received FOS. A marker of CD4+ T cell activation (namely, CTLA4+) was significantly higher in patients receiving FOS, whereas a non-significant trend existed for FOP3+CD4+ Treg cells, which were higher in those receiving FOS compared with controls. FOS is well tolerated at 10 g/d in patients undergoing reduced-intensity allo-HCT. Although the alterations in gut microbiota and peripheral immune cell composition in those receiving FOS are intriguing, additional studies are required to investigate the use of prebiotics in HCT recipients.

Published
2021

19. In vitro extracellular matrix accumulation of nasal and articular chondrocytes for intervertebral disc repair

Author

Srujana Vedicherla and Conor T. Buckley

Subjects
Cartilage, Articular, 0301 basic medicine, medicine.medical_specialty, medicine.medical_treatment, Cell, Biology, Regenerative Medicine, Chondrocyte, Extracellular matrix, 03 medical and health sciences, Chondrocytes, 0302 clinical medicine, Nasal Cartilages, medicine, Animals, Intervertebral Disc, Cells, Cultured, Growth factor, Regeneration (biology), Intervertebral disc, Cell Biology, General Medicine, Extracellular Matrix, Surgery, Cell biology, Transplantation, 030104 developmental biology, medicine.anatomical_structure, Cattle, Female, Stem cell, 030217 neurology & neurosurgery, Developmental Biology
Abstract

Chondrocyte based regenerative therapies for intervertebral disc repair such as Autologous Disc Cell Transplantation (ADCT, CODON) and allogeneic juvenile chondrocyte implantation (NuQu®, ISTO Technologies) have demonstrated good outcomes in clinical trials. However concerns remain with the supply demand reconciliation and issues surrounding immunoreactivity which exist for allogeneic-type technologies. The use of stem cells is challenging due to high growth factor requirements, regulatory barriers and differentiation towards a stable phenotype. Therefore, there is a need to identify alternative non-disc cell sources for the development and clinical translation of next generation therapies for IVD regeneration. In this study, we compared Nasal Chondrocytes (NC) as a non-disc alternative chondrocyte source with Articular Chondrocytes (AC) in terms of cell yield, morphology, proliferation kinetics and ability to produce key extracellular matrix components under 5% and 20% oxygen conditions, with and without exogenous TGF-β supplementation. Results indicated that NC maintained proliferative capacity with high amounts of sGAG and lower collagen accumulation in the absence of TGF-β supplementation under 5% oxygen conditions. Importantly, osteogenesis and calcification was inhibited for NC when cultured in IVD-like microenvironmental conditions. The present study provides a rationale for the exploration of nasal chondrocytes as a promising, potent and clinically feasible autologous cell source for putative IVD repair strategies.

Published
2017

20. Implications of ECMO Bridging and Salvage Strategies on Mortality and PGD

Author

Carolyn S. Calfee, Y. Suzuki, Lorraine B. Ware, Luke Benvenuto, J. Hsu, Pali D. Shah, Ann Weinacker, Jason D. Christie, Chadi A. Hage, Marisa Cevasco, Laurie D. Snyder, Vibha N. Lama, John F. McDyer, Scott M. Palmer, Christian A. Bermudez, Keith M. Wille, Gundeep Dhillon, Robert Gallop, Joshua M. Diamond, John R. Greenland, Jasleen Kukreja, Edward Cantu, V. Galati, Matthew G. Hartwig, T. Buckley, Jonathan P. Singer, Michaela R. Anderson, N. Majeti, and J.B. Orens

Subjects
Pulmonary and Respiratory Medicine, Transplantation, medicine.medical_specialty, Bridging (networking), Group study, business.industry, Incidence (epidemiology), medicine.medical_treatment, respiratory system, surgical procedures, operative, Increased risk, Internal medicine, medicine, Lung transplantation, lipids (amino acids, peptides, and proteins), Surgery, Transplant patient, Cardiology and Cardiovascular Medicine, Prospective cohort study, business
Abstract

Purpose ECMO is increasingly used for bridging and salvage therapies in lung transplantation, with favorable short-term results. Mid- to long-term outcomes of ECMO use for bridging and salvage are incompletely understood, as is effect on PGD risk; therefore, we sought to define the effects of these strategies on mortality and PGD. Methods The Lung Transplant Outcomes Group study is a multi-center prospective cohort study designed to identify risk factors for PGD and mortality. Patients were enrolled from August 2011 to June 2018. The effect of pre-operative (bridging) and post-operative (salvage) ECMO on Grade 3 PGD incidence and long-term survival were assessed using time-to-event analyses adjusted for center. Results 1,537 subjects were enrolled with a 17.0% incidence of PGD on day 3 and an 18.9% mortality overall. PGD was associated with mortality (p=0.0001, Fig. 1a). ECMO bridging and salvage strategies increased over time (Fig. 1b). 138 (9%) subjects had bridging ECMO and 275 (17.9%) had salvage ECMO. PGD was associated with bridging strategies (p=0.001). PGD incidence in bridged patients (50.7%) exceeded non-bridged (42.2%). Bridging was not associated with mortality overall (p=0.70, Fig. 1c); however, if PGD developed after transplant using a bridging strategy, there was a significant increase in mortality (HR 1.8 [1.3; 2.61]; p=0.0007). About 45% of patients bridged with ECMO required salvage after transplant. ECMO use for salvage was highly associated with mortality (HR 2.1 [1.6; 2.8]; p Conclusion Use of the ISHLT Revised definition identifies Grade 3 PGD as highly associated with mortality in the ECMO bridging and salvage era. ECMO use is increasing for both bridging and salvage strategies. ECMO bridging strategies do not seem to increase mortality in lung transplant patients unless Grade 3 PGD subsequently develops. ECMO salvage after transplant is associated with increased risk of mortality; however, it is likely used only in the severest cases, thus indication bias is likely present.

Published
2020

21. Fibrin hydrogels functionalized with cartilage extracellular matrix and incorporating freshly isolated stromal cells as an injectable for cartilage regeneration

Author

Gráinne M. Cunniffe, Henrique V. Almeida, Daniel J. Kelly, Fergal J. O'Brien, Conor T. Buckley, and Rajalakshmanan Eswaramoorthy

Subjects
Male, 0301 basic medicine, Stromal cell, Materials science, Swine, Biomedical Engineering, Type II collagen, 02 engineering and technology, Biochemistry, Fibrin, Biomaterials, Extracellular matrix, 03 medical and health sciences, medicine, Animals, Humans, Regeneration, Molecular Biology, biology, Regeneration (biology), Cartilage, Hydrogels, General Medicine, 021001 nanoscience & nanotechnology, Chondrogenesis, Extracellular Matrix, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Self-healing hydrogels, biology.protein, Female, Stromal Cells, 0210 nano-technology, Biotechnology, Biomedical engineering
Abstract

Freshly isolated stromal cells can potentially be used as an alternative to in vitro expanded cells in regenerative medicine. Their use requires the development of bioactive hydrogels or scaffolds which provide an environment to enhance their proliferation and tissue-specific differentiation in vivo . The goal of the current study was to develop an injectable fibrin hydrogel functionalized with cartilage ECM microparticles and transforming growth factor (TGF)-β3 as a putative therapeutic for articular cartilage regeneration. ECM microparticles were produced by cryomilling and freeze-drying porcine articular cartilage. Up to 2% (w/v) ECM could be incorporated into fibrin without detrimentally affecting its capacity to form stable hydrogels. To access the chondroinductivity of cartilage ECM, we compared chondrogenesis of infrapatellar fat pad-derived stem cells in fibrin hydrogels functionalized with either particulated ECM or control gelatin microspheres. Cartilage ECM particles could be used to control the delivery of TGF-β3 to IFP-derived stem cells within fibrin hydrogels in vitro , and furthermore, led to higher levels of sulphated glycosaminoglycan (sGAG) and collagen accumulation compared to control constructs loaded with gelatin microspheres. In vivo , freshly isolated stromal cells generated a more cartilage-like tissue within fibrin hydrogels functionalized with cartilage ECM particles compared to the control gelatin loaded constructs. These tissues stained strongly for type II collagen and contained higher levels of sGAGs. These results support the use of fibrin hydrogels functionalized with cartilage ECM components in single-stage, cell-based therapies for joint regeneration. Statement of Significance An alternative to the use of in vitro expanded cells in regenerative medicine is the use of freshly isolated stromal cells, where a bioactive scaffold or hydrogel is used to provide an environment that enhances their proliferation and tissue-specific differentiation in vivo . The objective of this study was to develop an injectable fibrin hydrogel functionalized with cartilage ECM micro-particles and the growth factor TGF-β3 as a therapeutic for articular cartilage regeneration. This study demonstrates that freshly isolated stromal cells generate cartilage tissue in vivo when incorporated into such a fibrin hydrogels functionalized with cartilage ECM particles. These findings open up new possibilities for in-theatre, single-stage, cell-based therapies for joint regeneration.

Published
2016

22. Antibody-Based Biologics and Their Promise to Combat Staphylococcus aureus Infections

Author

William R. Strohl, Victor J. Torres, A. Simon Lynch, Peter T. Buckley, and William E. Sause

Subjects
Methicillin-Resistant Staphylococcus aureus, 0301 basic medicine, medicine.drug_class, 030106 microbiology, Antibiotics, Toxicology, medicine.disease_cause, Staphylococcal infections, Monoclonal antibody, Biological Factors, 03 medical and health sciences, medicine, Animals, Humans, Significant risk, Pharmacology, biology, business.industry, Antibodies, Monoclonal, Staphylococcal Infections, medicine.disease, Biologic Agents, Staphylococcus aureus, Immunology, biology.protein, Staphylococcus aureus infections, Antibody, business
Abstract

The growing incidence of serious infections mediated by methicillin-resistant Staphylococcus aureus (MRSA) strains poses a significant risk to public health. This risk is exacerbated by a prolonged void in the discovery and development of truly novel antibiotics and the absence of a vaccine. These gaps have created renewed interest in the use of biologics in the prevention and treatment of serious staphylococcal infections. In this review, we focus on efforts towards the discovery and development of antibody-based biologic agents and their potential as clinical agents in the management of serious S. aureus infections. Recent promising data for monoclonal antibodies (mAbs) targeting anthrax and Ebola highlight the potential of antibody-based biologics as therapeutic agents for serious infections.

Published
2016

23. Two dimensional size–mass distribution function inversion from differential mobility analyzer–aerosol particle mass analyzer (DMA–APM) measurements

Author

Myong-Hwa Lee, Vivek K. Rawat, Christopher J. Hogan, Nobuhiko Fukushima, David T. Buckley, and Shigeru Kimoto

Subjects
Fluid Flow and Transfer Processes, Atmospheric Science, Ammonium sulfate, Environmental Engineering, 010504 meteorology & atmospheric sciences, Particle number, Mass distribution, Mechanical Engineering, Analytical chemistry, 010501 environmental sciences, medicine.disease_cause, 01 natural sciences, Fractal dimension, Pollution, Soot, Aerosol, chemistry.chemical_compound, Distribution function, chemistry, Materials Science(all), Differential mobility analyzer, medicine, Environmental Chemistry, 0105 earth and related environmental sciences
Abstract

We developed and applied a data inversion routine to determine the number based size–mass distribution function (the two dimensional distribution function) from tandem differential mobility analyzer–aerosol particle mass analyzer (DMA–APM) measurements. The two dimensional distribution function is expressed in units of particle number concentration per unit mobility diameter per unit particle mass. It can be used to directly calculate the number based size distribution (commonly determined using DMA measurements) or the mass based size distribution (commonly inferred from impactor measurements). The inversion routine utilizes the Twomey–Markowski algorithm and is applied in this study to DMA–APM measurements of sodium chloride, cesium iodide, and ammonium sulfate particles in the 30–200 nm mobility diameter range, as well as acetylene flame generated soot aggregates in the 40–350 nm range. To utilize the inversion routine, the APM transfer function must be known a priori. Here it is computed using a modified version of the Ehara (uniform flow) model, with a transmission correction factor inferred from measurements. For the three examined salt particle types, visual representation of the two dimensional distribution function reveals that at a given mobility diameter, particles have very narrow mass distributions, with the peak masses in good agreement with predictions based on bulk salt densities. However, for soot particles, extremely broad distributions are observed. Soot measurements are compared to predictions for quasifractal aggregates in the transition regime; this comparison suggests that aggregates with fractal dimensions ranging from 1.4 to 2.5 are all generated in the same system. Finally, we determine the two-dimensional distribution function for a mixture of ammonium sulfate and soot particles, demonstrating that these two particle populations are separable from one another via mobility-mass analysis.

Published
2016
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24. Intraoperative Cryoanalgesia and Oral Opioid Requirements after Lung Transplantation

Author

Joshua M. Diamond, A R. Localio, Jason D. Christie, Marisa Cevasco, Y. Suzuki, Christian A. Bermudez, Edward Cantu, V. Galati, T. Buckley, and N. Majeti

Subjects
Pulmonary and Respiratory Medicine, Transplantation, business.industry, medicine.medical_treatment, Sedation, Confounding, Intercostal nerves, Pain management, Opioid, Anesthesia, medicine, Lung transplantation, Surgery, Observational study, Medical prescription, medicine.symptom, Cardiology and Cardiovascular Medicine, business, medicine.drug
Abstract

Purpose Over 50% of those entering substance treatment programs were first exposed to opioids through a prescription. Among the opioid naive, surgery is the 2nd most common indication for opioid prescriptions. Lung transplant recipients require long term opioids at significantly higher rates than other surgical patients. We undertook this study to define effects of cryoanalgesia (CRYO) on opioid use. Methods We conducted a two period observational study of lung transplant inpatient oral opioid use from June 2015 to September 2018, comparing two pain management strategies: CRYO and standard care (SOC). In August 2017 CRYO was added to SOC pain management protocols. Patients were pseudorandomized to SOC with and without CRYO based on call day. Prior to implantation, the intercostal nerves were identified and ablated at 4 levels (one above through two below space of entry). Secondary analyses of pain perception (0-10) and Richmond Agitation and Sedation Scale were also performed. Data were abstracted from the electronic health record of all patients during their index admission. The four groups of patients (2 periods cross classified with intervention) were then standardized through weighted longitudinal models to balance patients’ characteristics and reduce confounding. Results CRYO added to SOC pain management strategies reduced oral opioid requirements substantially but not significantly in the 1st week and significantly and by more than 50% in the 2nd and 3rd post-operative weeks, respectively (Fig. 1a). Maximal perception of pain on the numeric rating scale was reduced in the CRYO group compared to the control group by 1.04 [0.29;1.78], 0.95 [.05; 1.93] and 1.03 [0.03; 2.11] (Fig. 1b). No effects were noted in agitation and sedation measures. Conclusion Addition of CRYO to standard multimodality post-operative pain treatment regimens was associated with decreased oral opioid requirements and reduction in maximal pain perception. No effect was observed in agitation or sedation measures.

Published
2020

25. Decellularized grafts with axially aligned channels for peripheral nerve regeneration

Author

Richard B. Reilly, Conor T. Buckley, and Rukmani Sridharan

Subjects
Pore size, Scaffold, Decellularization, Materials science, Biomedical Engineering, Transplants, Penetration (firestop), PC12 Cells, Sciatic Nerve, Nerve Regeneration, Rats, Biomaterials, Freeze Drying, Physical structure, Mechanics of Materials, Peripheral nerve, Tensile Strength, Animals, Sciatic nerve, Rats, Wistar, Cell Proliferation, Cell penetration, Biomedical engineering
Abstract

At least 2 million people worldwide suffer annually from peripheral nerve injuries (PNI), with estimated costs of $7 billion incurred due to paralysis alone. The current "gold" standard for treatment of PNI is the autograft, which poses disadvantages such as high fiscal cost, possible loss of sensation at donor site and the requirement of two surgeries. Allografts are viable alternatives; however, intensive immunosuppressive treatments are often necessary to prevent host rejection. For this reason, significant efforts have been made to remove cellular material from allografts. These decellularized nerve grafts perform better than other clinically available grafts but not as well as autografts; therefore, current research on these grafts includes the incorporation of additional components such as growth factors and cells to provide chemical guidance to regenerating axons. However, effective cellular and axonal penetration is not achieved due to the small pore size (5-10μm) of the decellularized grafts. The overall objective of this study was to induce axially aligned channels in decellularized nerve grafts to facilitate enhanced cell penetration. The specific aims of this study were to optimize a decellularization method to enhance cellular removal, to induce axially aligned pore formation in decellularized grafts through a novel unidirectional freeze drying method, to study the bulk mechanical properties of these modified decellularized grafts and to assess cell penetration into these grafts. To this end we modified an existing decellularization protocol to improve cellular removal while preserving matrix structure in rat sciatic nerve sections. Standard freeze drying and unidirectional freeze drying were employed to impart the necessary pore architecture, and our results suggest that unidirectional freezing is a pertinent modification to the freeze drying process to obtain axially aligned channels. These highly porous scaffolds obtained using unidirectional freeze-drying possessed similar tensile properties to native nerve tissue and exhibited enhanced cellular penetration after 14 days of culture when compared to non-freeze dried and standard freeze-dried scaffolds. The results of this study not only highlight the importance of aligned pores of diameters ~20-60μm on cellular infiltration, but also presents unidirectional freeze drying as a viable technique for producing this required architecture in decellularized nerves. To the best of our knowledge, this study represents the first attempt to manipulate the physical structure of decellularized nerves to enhance cell penetration which may serve as a basis for future peripheral nerve regenerative strategies using decellularized allografts.

Published
2015

26. Controlled release of transforming growth factor-β3 from cartilage-extra-cellular-matrix-derived scaffolds to promote chondrogenesis of human-joint-tissue-derived stem cells

Author

Fergal J. O'Brien, Yurong Liu, Amos Matsiko, Henrique V. Almeida, Daniel J. Kelly, Gráinne M. Cunniffe, Kevin J. Mulhall, and Conor T. Buckley

Subjects
Cartilage, Articular, Male, Scaffold, Materials science, medicine.medical_treatment, Biomedical Engineering, Matrix (biology), Biochemistry, Biomaterials, Extracellular matrix, Transforming Growth Factor beta3, Tissue engineering, Biomimetic Materials, medicine, Humans, Regeneration, Hyaluronic Acid, Molecular Biology, Tissue Scaffolds, Stem Cells, Regeneration (biology), Cartilage, Growth factor, General Medicine, Chondrogenesis, Extracellular Matrix, Cell biology, medicine.anatomical_structure, Delayed-Action Preparations, Female, Joints, Biotechnology, Biomedical engineering
Abstract

The objective of this study was to develop a scaffold derived from cartilaginous extracellular matrix (ECM) that could be used as a growth factor delivery system to promote chondrogenesis of stem cells. Dehydrothermal crosslinked scaffolds were fabricated using a slurry of homogenized porcine articular cartilage, which was then seeded with human infrapatellar-fat-pad-derived stem cells (FPSCs). It was found that these ECM-derived scaffolds promoted superior chondrogenesis of FPSCs when the constructs were additionally stimulated with transforming growth factor (TGF)-β3. Cell-mediated contraction of the scaffold was observed, which could be limited by the additional use of 1-ethyl-3-3dimethyl aminopropyl carbodiimide (EDAC) crosslinking without suppressing cartilage-specific matrix accumulation within the construct. To further validate the utility of the ECM-derived scaffold, we next compared its chondro-permissive properties to a biomimetic collagen-hyaluronic acid (HA) scaffold optimized for cartilage tissue engineering (TE) applications. The cartilage-ECM-derived scaffold supported at least comparable chondrogenesis to the collagen-HA scaffold, underwent less contraction and retained a greater proportion of synthesized sulfated glycosaminoglycans. Having developed a promising scaffold for TE, with superior chondrogenesis observed in the presence of exogenously supplied TGF-β3, the final phase of the study explored whether this scaffold could be used as a TGF-β3 delivery system to promote chondrogenesis of FPSCs. It was found that the majority of TGF-β3 that was loaded onto the scaffold was released in a controlled manner over the first 10days of culture, with comparable long-term chondrogenesis observed in these TGF-β3-loaded constructs compared to scaffolds where the TGF-β3 was continuously added to the media. The results of this study support the use of cartilage-ECM-derived scaffolds as a growth factor delivery system for use in articular cartilage regeneration.

Published
2014

27. Shape-memory porous alginate scaffolds for regeneration of the annulus fibrosus: Effect of TGF-β3 supplementation and oxygen culture conditions

Author

Jennifer Gansau, Conor T. Buckley, Kerri Lennon, Andrew C. Daly, Olivier Guillaume, and Shane F. Buckley

Subjects
Scaffold, Disc herniation, Materials science, Alginates, Cell Survival, Sus scrofa, Biomedical Engineering, chemistry.chemical_element, Cell Count, Biochemistry, Oxygen, Biomaterials, Extracellular matrix, Transforming Growth Factor beta3, Glucuronic Acid, medicine, Animals, Regeneration, Intervertebral Disc, Porosity, Molecular Biology, Cells, Cultured, Cell Proliferation, Glycosaminoglycans, Tissue Scaffolds, Hexuronic Acids, Biomaterial, Intervertebral disc, General Medicine, In vitro, Extracellular Matrix, Cross-Linking Reagents, medicine.anatomical_structure, chemistry, Cattle, Collagen, Biotechnology, Biomedical engineering
Abstract

Disc herniation as a result of degenerative or traumatic injury is believed to be the primary instigator of low back pain. At present there is a lack of viable treatment options to repair damaged annulus fibrosus (AF) tissue. Developing alternative strategies to fill and repair ruptured AF tissue is a key challenge. In this work we developed a porous alginate scaffold with shape-memory properties which can be delivered using minimally invasive approaches and recover its original geometry once hydrated. Covalently cross-linked alginate hydrogels were created using carbodiimide chemistry, followed by a freeze-drying step to impart porosity and create porous scaffolds. Results showed that porous alginate scaffolds exhibited shape-memory recovery and mechanical behaviour that could be modulated depending on the cross-linker concentrations. The scaffold can be repeatedly compressed and expanded, which provides the potential to deliver the biomaterial directly to the damaged area of the AF tissue. In vitro experiments demonstrated that scaffolds were cytocompatible and supported cell seeding, penetration and proliferation under intervertebral-disc-like microenvironmental conditions (low glucose media and low oxygen concentration). Extracellular matrix (ECM) was secreted by AF cells with TGF-β3 stimulation and after 21 days had filled the porous scaffold network. This biological matrix was rich in sulfated glycosaminoglycan and collagen type I, which are the main compounds of native AF tissue. Successful ECM deposition was also confirmed by the increase in the peak stress of the scaffold. However, the immaturity of the matrix network after only 21 days of in vitro culture was not sufficient to attain native AF tissue mechanical properties. The ability to deliver porous scaffolds using minimal invasive approaches that can potentially promote the regeneration of AF defects provides an exciting new avenue for disc repair.

Published
2014

28. Targeted amplification of delivery to cell surface receptors by dendrimer self-assembly

Author

Xiaojian Wang, Edwin Wang, Leonard Liebes, James W. Canary, Steven Isaacman, and Michael T Buckley

Subjects
Dendrimers, Clinical Biochemistry, Pharmaceutical Science, Receptors, Cell Surface, Biochemistry, Aldehyde, Article, Cell surface receptor, Cell Line, Tumor, Dendrimer, Drug Discovery, Humans, Molecular Biology, Fluorescent Dyes, Targeting ligands, chemistry.chemical_classification, Drug Carriers, Rhodamines, Organic Chemistry, Antibodies, Monoclonal, Fluorescence, Combinatorial chemistry, Nylons, chemistry, Covalent bond, Molecular Medicine, Self-assembly, Macromolecule
Abstract

Nanometer-scale architectures assembled on cell surface receptors from smaller macromolecular constituents generated a large amplification of fluorescence. A targeted dendrimer was synthesized from a cystamine-core G4 PAMAM dendrimer, and contained an anti-BrE3 monoclonal antibody as the targeting group, several fluorophores and an average of 12 aldehyde moieties as complementary bio-orthogonal reactive sites for the covalent assembly. A cargo dendrimer, derived from a PAMAM G4 dendrimer, contained several fluorophores as the cargo for delivery and five hydrazine moieties as complimentary bio-orthogonal reactive sites. The system is designed to be flexible and allow for facile incorporation of a variety of targeting ligands.

Published
2014

29. A Phase I Study of the Prebiotic Fructooligosaccharide in Allogeneic HCT and Evaluation of the Impact of This Compound on the Intestinal Microbiome

Author

Matthew T. Buckley, Ekaterina Tkachenko, Edgar Asiimwe, Andrew R. Rezvani, Courtney Greene, Ami S. Bhatt, and Tessa M. Andermann

Subjects
Transplantation, business.industry, Fructooligosaccharide, Prebiotic, medicine.medical_treatment, 030232 urology & nephrology, Allogeneic hct, Hematology, 030204 cardiovascular system & hematology, Pharmacology, Phase i study, 03 medical and health sciences, 0302 clinical medicine, Intestinal Microbiome, medicine, business
Published
2018

30. Staphylococcus aureus Leukocidins Target Endothelial DARC to Cause Lethality in Mice

Author

Jason Aligo, Bo Shopsin, Ashira Lubkin, Matthew D. Keller, Rita Chan, Anthony Simon Lynch, Victor J. Torres, Maryaline Coffre, Daniel Weinstock, Michael Sugiyama, Francis Alonzo rd, Sergei B. Koralov, Eric Chen, Sofia Bajwa, Ken Cadwell, Nikollaq Vozhilla, Johnny Su, G. Scott Worthen, Changsen Wang, Sang Yong Kim, Peter T. Buckley, Natasha M. Girgis, P'ng Loke, Warren L. Lee, Kamal M. Khanna, Patricia Martin, Marilyn T. Vasquez, Cynthia A. Loomis, Stephen T. Yeung, Aidan O’Malley, and Tamara Reyes-Robles

Subjects
Staphylococcus aureus, Chemokine, Cell Survival, Bacterial Toxins, Leukocidin, Exotoxins, Virulence, Receptors, Cell Surface, medicine.disease_cause, Models, Biological, Microbiology, Article, Pathogenesis, Hemolysin Proteins, Mice, 03 medical and health sciences, 0302 clinical medicine, Bacterial Proteins, Leukocidins, Virology, medicine, Humans, Animals, Endothelium, Cells, Cultured, 030304 developmental biology, Mice, Knockout, 0303 health sciences, biology, Toxin, Organ dysfunction, Endothelial Cells, Staphylococcal Infections, Survival Analysis, 3. Good health, Disease Models, Animal, Immunology, biology.protein, Parasitology, Lethality, medicine.symptom, Duffy Blood-Group System, 030217 neurology & neurosurgery
Abstract

Summary The pathogenesis of Staphylococcus aureus is thought to depend on the production of pore-forming leukocidins that kill leukocytes and lyse erythrocytes. Two leukocidins, Leukocidin ED (LukED) and γ-Hemolysin AB (HlgAB), are necessary and sufficient to kill mice upon infection and toxin challenge. We demonstrate that LukED and HlgAB cause vascular congestion and derangements in vascular fluid distribution that rapidly cause death in mice. The Duffy antigen receptor for chemokines (DARC) on endothelial cells, rather than leukocytes or erythrocytes, is the critical target for lethality. Consistent with this, LukED and HlgAB injure primary human endothelial cells in a DARC-dependent manner, and mice with DARC-deficient endothelial cells are resistant to toxin-mediated lethality. During bloodstream infection in mice, DARC targeting by S. aureus causes increased tissue damage, organ dysfunction, and host death. The potential for S. aureus leukocidins to manipulate vascular integrity highlights the importance of these virulence factors.

Published
2019

32. Tyrosine urea muscarinic acetylcholine receptor antagonists: Achiral quaternary ammonium groups

Author

Peter T. Buckley, James J. Foley, Edward F. Webb, Roderick S. Davis, Dulcie B. Schmidt, Jakob Busch-Petersen, Michael Salmon, Jian Jin, Widdowson Katherine L, Kristen E. Belmonte, Henry M. Sarau, Yonghui Wang, Qi Jin, Palovich Michael R, and Ann M. Bullion

Subjects
Stereochemistry, Clinical Biochemistry, Pharmaceutical Science, Bronchi, Muscarinic Antagonists, Biochemistry, Mice, Structure-Activity Relationship, chemistry.chemical_compound, Solid-phase synthesis, In vivo, Drug Discovery, Muscarinic acetylcholine receptor, Animals, Urea, Structure–activity relationship, Moiety, Ammonium, Tyrosine, Molecular Biology, Chemistry, Organic Chemistry, Receptors, Muscarinic, Quaternary Ammonium Compounds, Molecular Medicine
Abstract

Tyrosine ureas had been identified as potent muscarinic receptor antagonists with promising in vivo activity. Controlling the stereochemistry of the chiral quaternary ammonium center had proved to be a serious issue for this series, however. Herein we describe the preparation and SAR of tyrosine urea antagonists containing achiral quaternary ammonium centers. The most successful such moiety was the 2-methylimidazo[2,1-b][1,3]thiazol-7-ium group which yielded highly potent antagonists with long duration of action in an inhaled animal model of bronchoconstriction.

Published
2012

33. Transport of the fluorescent organic cation 4-(4-(dimethylamino)styryl)-N-methylpyridinium iodide (ASP+) in human respiratory epithelial cells

Author

Sibylle Endter, Françoise Falson, Stephen T. Buckley, Johanna J. Salomon, Gaelle Tachon, and Carsten Ehrhardt

Subjects
Organic Cation Transport Proteins, Alveolar Epithelium, Pharmaceutical Science, Bronchi, Pyridinium Compounds, Respiratory Mucosa, 030226 pharmacology & pharmacy, Cell Line, Membrane Potentials, Tight Junctions, Methylamines, 03 medical and health sciences, 0302 clinical medicine, Carnitine, Cations, Cell Line, Tumor, medicine, Humans, Intestinal Mucosa, Solute Carrier Family 22 Member 5, Fluorescent Dyes, 030304 developmental biology, A549 cell, Membrane potential, 0303 health sciences, Lung, Organic cation transport proteins, Symporters, biology, Chemistry, Lysine, Temperature, Biological Transport, Epithelial Cells, General Medicine, Hydrogen-Ion Concentration, respiratory system, Molecular biology, Epithelium, Pulmonary Alveoli, Kinetics, medicine.anatomical_structure, Biochemistry, Cell culture, biology.protein, Caco-2 Cells, Biotechnology, medicine.drug
Abstract

Organic cation/carnitine transporters (OCT/N) mediate uptake of positively charged molecules. Their role in lung epithelium; however, is not well understood. OCT/N expression and activity was studied in cell lines of human alveolar (A549), bronchial (16HBE14o- and Calu-3) and intestinal (Caco-2) epithelium. Protein levels were largely comparable for all OCT/Ns in the respiratory epithelial cell lines studied; however, OCT2 was exclusively observed in A549 cells. OCT1 and -2 were present at significantly higher levels in Caco-2 cells, compared with the pulmonary epithelial cell types. OCTN1 and -2 were also more abundant in Caco-2. Only OCT3 was expressed evenly across all cell lines investigated. Uptake of 4-(4-(dimethylamino)styryl)-N-methylpyridinium iodide (ASP+) was dependent on concentration, temperature, membrane potential and pH. In 16HBE14o-, Calu-3 and Caco-2 monolayers, substrate saturation of ASP+ uptake was not reached. Alveolar A549 cells showed saturable ASP+ uptake via two transporter sites with Km values of 12.5 ± 4.0 μM and 456.9 ± 164.5 μM, respectively. This uptake was sensitive to organic cations, but insensitive to carnitine and lysine. We conclude that uptake of organic cations is facilitated by distinct pathways in different regions of lung mucosa. Luminally localised OCT2 appears to be exclusively involved in the alveolar epithelium, whereas basolateral localised OCT3 might play a role in alveolar as well as in bronchial epithelial cells.

Published
2012

34. Cytoskeletal re-arrangement in TGF-β1-induced alveolar epithelial-mesenchymal transition studied by atomic force microscopy and high-content analysis

Author

Carsten Ehrhardt, Carlos Medina, Stephen T. Buckley, and Anthony Davies

Subjects
Pathology, medicine.medical_specialty, Epithelial-Mesenchymal Transition, Materials science, Biomedical Engineering, Pharmaceutical Science, Medicine (miscellaneous), Bioengineering, Matrix (biology), Microscopy, Atomic Force, Cell morphology, Collagen Type I, Fluorescence, Cell Line, Transforming Growth Factor beta1, Extracellular matrix, Imaging, Three-Dimensional, Pulmonary fibrosis, medicine, Animals, Humans, General Materials Science, Epithelial–mesenchymal transition, Cytoskeleton, Cell Shape, Mesenchymal stem cell, medicine.disease, Actins, Rats, Pulmonary Alveoli, Cell culture, Biophysics, Molecular Medicine
Abstract

Epithelial-mesenchymal transition (EMT) is closely implicated in the pathogenesis of idiopathic pulmonary fibrosis. Associated with this phenotypic transition is the acquisition of an elongated cell morphology and establishment of stress fibers. The extent to which these EMT-associated changes influence cellular mechanics is unclear. We assessed the biomechanical properties of alveolar epithelial cells (A549) following exposure to TGF-β1. Using atomic force microscopy, changes in cell stiffness and surface membrane features were determined. Stimulation with TGF-β1 gave rise to a significant increase in stiffness, which was augmented by a collagen I matrix. Additionally, TGF-β1-treated cells exhibited a rougher surface profile with notable protrusions. Simultaneous quantitative examination of the morphological attributes of stimulated cells using an image-based high-content analysis system revealed dramatic alterations in cell shape, F-actin content and distribution. Together, these investigations point to a strong correlation between the cytoskeletal-associated cellular architecture and the mechanical dynamics of alveolar epithelial cells undergoing EMT. From the Clinical Editor: Epithelial-mesenchymal transition is implicated in the pathogenesis of pulmonary fibrosis. Using atomic force microscopy, the authors demonstrate a strong correlation between the cytoskeletal-associated cellular architecture and the mechanical dynamics of alveolar epithelial cells undergoing mesenchymal transition.

Published
2012

35. High abundance of CD271+ multipotential stromal cells (MSCs) in intramedullary cavities of long bones

Author

Sally A Boxall, Tarek Roshdy, Sarah M Churchman, Dennis McGonagle, Elena Jones, George Cox, Conor T. Buckley, and Peter V. Giannoudis

Subjects
Adult, Pathology, medicine.medical_specialty, Histology, Stromal cell, Physiology, Endocrinology, Diabetes and Metabolism, Population, Long bone, CD34, Bone Marrow Cells, Nerve Tissue Proteins, Receptors, Nerve Growth Factor, Biology, Bone and Bones, Young Adult, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Bone marrow, education, Bone regeneration, Cells, Cultured, Aged, 030304 developmental biology, 0303 health sciences, education.field_of_study, Multipotent Stem Cells, Biopsy, Needle, Mesenchymal stem cell, Multipotential stromal cells, Cell Differentiation, Original Full Length Article, Middle Aged, Phenotype, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Mesenchymal stem cells, Intramedullary cavity, Stromal Cells, Stem cell
Abstract

Aspiration of iliac crest bone marrow (ICBM) remains the most frequent technique used in harvesting multipotential stromal cells (MSCs) for bone regeneration. Although this tissue type is easily accessed by a surgeon, it has a low frequency of MSCs, which is significant given the high cell numbers required for bone regeneration strategies. Lipoaspirates possess higher MSC frequencies, albeit cells with a differentiation profile less suited to orthopaedic interventions. Intra-medullary cavities of long bones have previously been shown to harbour MSCs in animals, however evaluation of their frequency, differentiation capacity and phenotype in humans had not previously been performed. Long bone fatty bone marrow (LBFBM) was collected prior to harvesting bone graft. Basic cellular compositions of donor-matched LBFBM and ICBM aspirates, including the numbers of CD34+ hematopoietic stem cells and CD31+ endothelial cells, were similar. MSCs were enumerated using colony-forming-unit-fibroblast assays and flow cytometry for the presence of a resident LBFBM CD45−/low CD271+ MSC population and revealed a trend for higher MSC numbers (average 5 fold, n = 6) per millilitre of LBFBM compared to donor-matched ICBM. Functional characteristics of resident MSCs, including their growth rates, differentiation potentials and surface phenotypes (CD73+CD105+CD90+) before and after culture-amplification, were similar. Enhanced numbers of MSCs could be recovered following brief enzymatic treatment of solid fragments of LBFBM. Our findings therefore reveal that the intramedullary cavity of the human femur is a depot of MSCs, which, although closely associated with fat, have a differentiation profile equivalent to ICBM. This anatomical site is frequently accessed by the orthopaedic/trauma surgeon and aspiration of the intramedullary cavity represents a ‘low-tech’ method of harvesting potentially large numbers of MSCs for regenerative therapies and research. This article is part of a Special Issue entitled: Interactions Between Bone, Adipose Tissue and Metabolism.

Published
2012

36. Oxygen tension regulates the osteogenic, chondrogenic and endochondral phenotype of bone marrow derived mesenchymal stem cells

Author

Daniel J. Kelly, Conor T. Buckley, and Eamon J. Sheehy

Subjects
Swine, Partial Pressure, Cellular differentiation, 0206 medical engineering, Cell Culture Techniques, Biophysics, Type II collagen, Bone Marrow Cells, 02 engineering and technology, Biochemistry, 03 medical and health sciences, Tissue engineering, Osteogenesis, medicine, Animals, Molecular Biology, Endochondral ossification, Cell Proliferation, Glycosaminoglycans, 030304 developmental biology, 0303 health sciences, Tissue Engineering, Chemistry, Cartilage, Mesenchymal stem cell, Cell Differentiation, Mesenchymal Stem Cells, Cell Biology, Anatomy, Chondrogenesis, 020601 biomedical engineering, Oxygen tension, Cell biology, Oxygen, medicine.anatomical_structure
Abstract

The local oxygen tension is a key regulator of the fate of mesenchymal stem cells (MSCs). The objective of this study was to investigate the effect of a low oxygen tension during expansion and differentiation on the proliferation kinetics as well as the subsequent osteogenic and chondrogenic potential of MSCs. We first hypothesised that expansion in a low oxygen tension (5% pO(2)) would improve both the subsequent osteogenic and chondrogenic potential of MSCs compared to expansion in a normoxic environment (20% pO(2)). Furthermore, we hypothesised that chondrogenic differentiation in a low oxygen environment would suppress hypertrophy of MSCs cultured in both pellets and hydrogels used in tissue engineering strategies. MSCs expanded at 5% pO(2) proliferated faster forming larger colonies, resulting in higher cell yields. Expansion at 5% pO(2) also enhanced subsequent osteogenesis of MSCs, whereas differentiation at 5% pO(2) was found to be a more potent promoter of chondrogenesis than expansion at 5% pO(2). Greater collagen accumulation, and more intense staining for collagen types I and X, was observed in pellets maintained at 20% pO(2) compared to 5% pO(2). Both pellets and hydrogels stained more intensely for type II collagen when undergoing chondrogenesis in a low oxygen environment. Differentiation at 5% pO(2) also appeared to inhibit hypertrophy in both pellets and hydrogels, as demonstrated by reduced collagen type X and Alizarin Red staining and alkaline phosphatase activity. This study demonstrates that the local oxygen environment can be manipulated in vitro to either stabilise a chondrogenic phenotype for use in cartilage repair therapies or to promote hypertrophy of cartilaginous grafts for endochondral bone repair strategies.

Published
2012

37. Cytoplasmic Intron Sequence-Retaining Transcripts Can Be Dendritically Targeted via ID Element Retrotransposons

Author

Stephen A. Fisher, Jai-Yoon Sul, James Eberwine, Peter T. Buckley, Thomas J. Bell, Kevin Miyashiro, Miler T. Lee, and Junhyong Kim

Subjects
Neurons, Genetics, Cytoplasm, Messenger RNA, Neuroscience(all), General Neuroscience, Intron, RNA, Retrotransposon, Dendrites, In situ hybridization, Biology, Hippocampus, Article, Introns, Rats, Cell biology, RNA splicing, Animals, Short Interspersed Nucleotide Elements, RNA, Messenger, Cells, Cultured, In Situ Hybridization, Illumina dye sequencing
Abstract

RNA precursors give rise to mRNA after splicing of intronic sequences traditionally thought to occur in the nucleus. Here, we show that intron sequences are retained in a number of dendritically-targeted mRNAs, using microarray and Illumina sequencing of isolated dendritic mRNA as well as in situ hybridization. Many of the retained introns contain ID elements, a class of SINE retrotransposon. A portion of these SINEs confers dendritic targeting to exogenous and endogenous transcripts showing the necessity of ID-mediated mechanisms for the targeting of different transcripts to dendrites. ID elements are capable of selectively altering the distribution of endogenous proteins, providing a link between intronic SINEs and protein function. As such, the ID element represents the first common dendritic targeting element to be found across multiple RNAs. Retention of intronic sequence is a more general phenomenon then previously thought and plays a functional role in the biology of the neuron, partly mediated by co-opted repetitive sequences.

Published
2011

38. Oxygen tension differentially regulates the functional properties of cartilaginous tissues engineered from infrapatellar fat pad derived MSCs and articular chondrocytes

Author

Tatiana Vinardell, Conor T. Buckley, and Daniel J. Kelly

Subjects
Cartilage, Articular, Sus scrofa, 0206 medical engineering, Biomedical Engineering, MSCs, 02 engineering and technology, Hydrogel, Polyethylene Glycol Dimethacrylate, Fat pad, Chondrocyte, 03 medical and health sciences, Cartilage repair, Chondrocytes, Transforming Growth Factor beta3, Rheumatology, Tissue engineering, Cartilaginous Tissue, medicine, Animals, Orthopedics and Sports Medicine, Oxygen tension, Cells, Cultured, 030304 developmental biology, Functional properties, 0303 health sciences, Agarose hydrogel, Tissue Engineering, Infrapatellar fat pad, Chemistry, fungi, Mesenchymal stem cell, Mesenchymal Stem Cells, Anatomy, Chondrogenesis, 020601 biomedical engineering, Cell Hypoxia, Extracellular Matrix, 3. Good health, Cell biology, medicine.anatomical_structure, Adipose Tissue, Collagen
Abstract

Summary Background For current tissue engineering or regenerative medicine strategies, chondrocyte (CC)- or mesenchymal stem cell (MSC)-seeded constructs are typically cultured in normoxic conditions (20% oxygen). However, within the knee joint capsule a lower oxygen tension exists. Objective The objective of this study was to investigate how CCs and infrapatellar fad pad derived MSCs will respond to a low oxygen (5%) environment in 3D agarose culture. Our hypothesis was that culture in a low oxygen environment (5%) will enhance the functional properties of cartilaginous tissues engineered using both cell sources. Experimental design Cell-encapsulated agarose hydrogel constructs (seeded with CCs or infrapatellar fat pad (IFP) derived MSCs) were prepared and cultured in a chemically defined serum-free medium in the presence (CCs and MSCs) or absence (CCs only) of transforming growth factor-beta3 (TGF-β3) in normoxic (20%) or low oxygen (5%) conditions for 42 days. Constructs were assessed at days 0, 21 and 42 in terms of mechanical properties, biochemical content and histologically. Results Low oxygen tension (5%) was observed to promote extracellular matrix (ECM) production by CCs cultured in the absence of TGF-β3, but was inhibitory in the presence of TGF-β3. In contrast, a low oxygen tension enhanced chondrogenesis of IFP constructs in the presence of TGF-β3, leading to superior mechanical functionality compared to CCs cultured in identical conditions. Conclusions Extrapolating the results of this study to the in vivo setting, it would appear that joint fat pad derived MSCs may possess a superior potential to generate a functional repair tissue in low oxygen tensions. However, in the context of in vitro cartilage tissue engineering, CCs maintained in normoxic conditions in the presence of TGF-β3 generate the most mechanically functional tissue.

Published
2010

39. Functional properties of cartilaginous tissues engineered from infrapatellar fat pad-derived mesenchymal stem cells

Author

Stephen D. Thorpe, Matthew G. Haugh, Daniel J. Kelly, Dennis McGonagle, Elena Jones, Tatiana Vinardell, and Conor T. Buckley

Subjects
Pathology, medicine.medical_specialty, Swine, Biomedical Engineering, Biophysics, Tissue engineering, medicine, Animals, Orthopedics and Sports Medicine, Autologous chondrocyte implantation, Cells, Cultured, Stem cell transplantation for articular cartilage repair, Tissue Engineering, Infrapatellar fat pad, Chemistry, Cartilage, Rehabilitation, Mesenchymal stem cell, Cell Differentiation, Mesenchymal Stem Cells, Chondrogenesis, medicine.anatomical_structure, Adipose Tissue, Stem cell, Biomedical engineering
Abstract

Articular cartilage has a poor intrinsic capacity for self-repair. The advent of autologous chondrocyte implantation has provided a feasible method to treat cartilage defects. However, the associated drawbacks with the isolation and expansion of chondrocytes from autologous tissue has prompted research into alternative cell sources such as mesenchymal stem cells (MSCs) which have been found to exist in the bone marrow as well as other joint tissues such as the infrapatellar fat pad (IFP), synovium and within the synovial fluid itself. In this work we assessed the chondrogenic potential of IFP-derived porcine cells over a 6 week period in agarose hydrogel culture in terms of mechanical properties, biochemical content and histology. It was found that IFP cells underwent robust chondrogenesis as assessed by glycosaminoglycan (1.47+/-0.22% w/w) and collagen (1.44+/-0.22% w/w) accumulation after 42 days of culture. The 1Hz dynamic modulus of the engineered tissue at this time point was 272.8 kPa (+/-46.8). The removal of TGF-beta3 from culture after 21 days was shown to have a significant effect on both the mechanical properties and biochemical content of IFP constructs after 42 days, with minimal increases occurring from day 21 to day 42 without continued supplementation of TGF-beta3. These findings further strengthen the case that the IFP may be a promising cell source for putative cartilage repair strategies.

Published
2010

40. The effect of concentration, thermal history and cell seeding density on the initial mechanical properties of agarose hydrogels

Author

Stephen D. Thorpe, Fergal J. O'Brien, Anthony J. Robinson, Conor T. Buckley, and Daniel J. Kelly

Subjects
Materials science, Compressive Strength, Swine, Biomedical Engineering, Modulus, Cell Count, complex mixtures, Biomaterials, Sepharose, chemistry.chemical_compound, Mechanobiology, Chondrocytes, Ultimate tensile strength, Animals, Composite material, Mechanical Phenomena, Tissue Engineering, Temperature, technology, industry, and agriculture, Reproducibility of Results, Hydrogels, Compression (physics), Biomechanical Phenomena, Compressive strength, chemistry, Mechanics of Materials, Self-healing hydrogels, Linear Models, Agarose, Stress, Mechanical, Biomedical engineering
Abstract

Agarose hydrogels are commonly used for cartilage tissue engineering studies and to provide a three dimensional environment to investigate cellular mechanobiology. Interpreting the results of such studies requires accurate quantification of the mechanical properties of the hydrogel. There is significant variation in the reported mechanical properties of agarose hydrogels, and little is reported on the influence of factors associated with mixing these hydrogels with cell suspensions on their initial mechanical properties. The objective of this study was to determine the influence of agarose concentration, the cooling rate during gelation, the thermal history following gelation and the cell seeding density on the initial mechanical properties of agarose hydrogels. The average ramp modulus of 2% agarose gel in tension was 24.9 kPa (±1.7, n = 10 ), compared with 55.6 kPa (±0.5, n = 10 ) in compression. The average tensile equilibrium modulus was 39.7 kPa (±5.7, n = 6 ), significantly higher than the compressive equilibrium modulus of 14.2 kPa (±1.6, n = 10 ). The equilibrium and dynamic compressive modulus of agarose hydrogels were observed to reduce if maintained at 37 ∘C following gelation compared with samples maintained at room temperature. Depending on the methodology used to encapsulate chondrocytes within agarose hydrogels, the equilibrium compressive modulus was found to be significantly higher for acellular 2% agarose gels compared with 2% agarose gels seeded at approximately 40×106 cells/mL. These results have important implications for interpreting the results of chondrocyte mechanobiology studies in agarose hydrogels.

Published
2009

41. Dynamic compression can inhibit chondrogenesis of mesenchymal stem cells

Author

Fergal J. O'Brien, Stephen D. Thorpe, Conor T. Buckley, Daniel J. Kelly, Tatiana Vinardell, and Veronica A. Campbell

Subjects
TGF-?3, Compressive Strength, Swine, Cell Culture Techniques, Biophysics, Dynamic compression, Biochemistry, Glycosaminoglycan, chemistry.chemical_compound, Bioreactors, Transforming Growth Factor beta3, Tissue engineering, Cartilaginous Tissue, Animals, Collagen Type II, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries), Molecular Biology, Glycosaminoglycans, Mesenchymal stem cell, Cell Biology, Anatomy, Chondrogenesis, Molecular biology, Staining, chemistry, Cell culture, Mesenchymal stem cells, Agarose
Abstract

PUBLISHED, PMID: 18851955, The objective of this study was to investigate the influence of dynamic compressive loading on chondrogenesis of mesenchymal stem cells (MSCs) in the presence of TGF-?3. Isolated porcine MSCs were suspended in 2% agarose and subjected to intermittent dynamic compression (10% strain) for a period of 42 days in a dynamic compression bioreactor. After 42 days in culture, the free-swelling specimens exhibited more intense alcian blue staining for proteoglycans, while immunohistochemical analysis revealed increased collagen type II immunoreactivity. Glycosaminoglycan (GAG) content increased with time for both free-swelling and dynamically loaded constructs, and by day 42 it was significantly higher in both the core (2.5 ? 0.21%w/w vs. 0.94 ? 0.03%w/w) and annulus (1.09 ? 0.09%w/w vs. 0.59 ? 0.08%w/w) of free-swelling constructs compared to dynamically loaded constructs. This result suggests that further optimization is required in controlling the biomechanical and/or the biochemical environment if such stimuli are to have beneficial effects in generating functional cartilaginous tissue., Funding was provided by Science Foundation Ireland (07-RFP- ENMF142) and Enterprise Ireland (PC / 2006/ 384).

Published
2008

42. The use of dexamethasone administered to mares at breeding time in the modulation of persistent mating induced endometritis

Author

S. Bucca, A. Carli, T. Buckley, U. M. G. Fogarty, and G. Dolci

Subjects
endocrine system, medicine.medical_specialty, Inflammatory response, Anti-Inflammatory Agents, Physiology, Breeding, Multiple risk factors, Dexamethasone, Drug Administration Schedule, Food Animals, Risk Factors, Internal medicine, medicine, Animals, Horses, Risk factor, Mating, Small Animals, Insemination, Artificial, reproductive and urinary physiology, Pregnancy, Fetus, Equine, business.industry, medicine.disease, Endocrinology, Female, Horse Diseases, Animal Science and Zoology, Endometritis, business, medicine.drug
Abstract

The present study describes the effect of a single dose of dexamethasone administered to mares at time of breeding. In an initial experiment, the authors investigated safety of treatment. In a second experiment the effect of treatment on the uterine environment, fetal development and pregnancy outcome was examined. In the final part of the study, mares susceptible to persistent mating induced endometritis were identified, by means of a risk factor score system and the effect of treatment evaluated. Results indicated that dexamethasone administered at breeding time did not negatively impact on mares medical and reproductive traits. A reduced inflammatory response was observed post-mating in treated versus control mares and mares with multiple risk factors for susceptibility to persistent mating induced endometritis showed improved pregnancy rates following treatment. The authors concluded that a single dose of dexamethasone administered at the time of breeding is safe and can be used to modulate the uterine inflammatory response to breeding in susceptible mares.

Published
2008

43. Discovery of novel 8-azoniabicyclo[3.2.1]octane carbamates as muscarinic acetylcholine receptor antagonists

Author

Widdowson Katherine L, Edward F. Webb, Palovich Michael R, James J. Foley, Kristen E. Belmonte, Haibo Xie, Peter T. Buckley, Noémie Buffet, and Dramane I. Laine

Subjects
Carbamate, medicine.medical_treatment, Clinical Biochemistry, Drug Evaluation, Preclinical, Pharmaceutical Science, Muscarinic Antagonists, Biochemistry, Chemical synthesis, Inhibitory Concentration 50, Mice, Pulmonary Disease, Chronic Obstructive, chemistry.chemical_compound, In vivo, Drug Discovery, Muscarinic acetylcholine receptor, medicine, Animals, Receptor, Molecular Biology, Acetylcholine receptor, Molecular Structure, Chemistry, Organic Chemistry, Antagonist, Tropane, Bridged Bicyclo Compounds, Heterocyclic, Receptors, Muscarinic, Bronchodilator Agents, Molecular Medicine, Carbamates, Tropanes
Abstract

In the course of our research program to develop novel muscarinic receptor antagonists for the treatment of COPD, new tropane carbamate derivatives were identified as potent anti-muscarinic agents. The synthesis, structure-activity relationships and pharmacological evaluation that led to the identification of compound 5o, are described.

Published
2007

44. The vitamin-like dietary supplement para-aminobenzoic acid enhances the antitumor activity of ionizing radiation

Author

Shannon M. MacDonald, Danielle Morais, Maresa Caunt, Silvia C. Formenti, Michael T Buckley, Sandhya Xavier, Abebe Akalu, Peter C. Brooks, Leonard Liebes, and Jennifer M. Roth

Subjects
Cyclin-Dependent Kinase Inhibitor p21, Radiation-Sensitizing Agents, Cancer Research, Blotting, Western, Apoptosis, Chick Embryo, Polymerase Chain Reaction, Ionizing radiation, Melanin, Mice, In vivo, Cell Line, Tumor, Animals, Medicine, Radiology, Nuclear Medicine and imaging, Melanoma, Cell Proliferation, Mice, Inbred BALB C, Radiation, business.industry, Cell growth, Cell cycle, In vitro, Mice, Inbred C57BL, Oncology, Cell culture, Dietary Supplements, Immunology, Cancer research, Melanocytes, business, 4-Aminobenzoic Acid
Abstract

Purpose: To determine whether para-aminobenzoic acid (PABA) alters the sensitivity of tumor cells to ionizing radiation in vitro and in vivo . Methods and Materials: Cellular proliferation was assessed by WST-1 assays. The effects of PABA and radiation on tumor growth were examined with chick embryo and murine models. Real-time reverse transcriptase–polymerase chain reaction and Western blotting were used to quantify p21 CIP1 and CDC25A levels. Results: Para-aminobenzoic acid enhanced (by 50%) the growth inhibitory activity of radiation on B16F10 cells, whereas it had no effect on melanocytes. Para-aminobenzoic acid enhanced (50–80%) the antitumor activity of radiation on B16F10 and 4T1 tumors in vivo . The combination of PABA and radiation therapy increased tumor apoptosis. Treatment of tumor cells with PABA increased expression of CDC25A and decreased levels of p21 CIP1 . Conclusions: Our findings suggest that PABA might represent a compound capable of enhancing the antitumor activity of ionizing radiation by a mechanism involving altered expression of proteins known to regulate cell cycle arrest.

Published
2006

45. Cloning and pharmacological characterization of the cat urotensin-II receptor (UT)

Author

Douglas G. Johns, Peter T. Buckley, Henry M. Sarau, Nabil Elshourbagy, James J. Foley, David J. Behm, Nambi V. Aiyar, Jyoti Disa, Zhaohui Ao, Stephen A. Douglas, and Harjeet K. van-der-Keyl

Subjects
medicine.medical_specialty, Inositol Phosphates, Molecular Sequence Data, Urotensin-II receptor, Biology, Transfection, Polymerase Chain Reaction, Biochemistry, Cell Line, Receptors, G-Protein-Coupled, law.invention, Mice, chemistry.chemical_compound, law, Internal medicine, medicine, Animals, Humans, Amino Acid Sequence, Calcium Signaling, RNA, Messenger, Cloning, Molecular, Receptor, Inositol phosphate, Conserved Sequence, DNA Primers, Pharmacology, chemistry.chemical_classification, Kidney, Sequence Homology, Amino Acid, Cell Membrane, Recombinant Proteins, Rats, medicine.anatomical_structure, Endocrinology, chemistry, Organ Specificity, Cats, Recombinant DNA, Signal transduction, Urotensin-II, Sequence Alignment, Intracellular
Abstract

Urotensin-II (U-II), acting through its G-protein-coupled receptor, UT, is a possible contributor to hypertension. Variable functional responses to U-II, both within and between species studied to date, complicate the characterization of UT antagonists. In the cat, however, U-II causes systemic hypertension and constricts arterial segments isolated from several vascular beds. The purpose of this study was to clone and pharmacologically characterize cat recombinant UT to determine whether this system represents a model for characterizing UT antagonists. Cloned cat UT displayed 74% identity to primate UT, and 77% identity to rodent UT. [ 125 I] hU-II bound in a saturable manner to a single site on recombinant cat UT with high affinity ( K D 288 ± 13 pM) and high density ( B max 747 ± 66 fmol/mg protein). U-II isopeptides displayed equipotent, high affinity binding to cat UT ( K i 1.8–5.3 nM). Cat UT was coupled to intracellular [Ca 2+ ] release (EC 50 0.6 ± 0.2 nM) and total inositol phosphate (IP) formation (EC 50 0.4 ± 0.1 nM). Protein kinase C activation desensitized cat, but not human, UT-mediated IP formation. UT mRNA expression was detected in cat blood vessels, trachea, lung, and kidney, where the medulla ( K D 815 ± 34) and cortex and ( K D 316 ± 39 pM) displayed high affinity binding for human U-II (hU-II). The cat urotensin-II receptor represents a suitable in vitro model to examine the role of the U-II/UT system in the etiology of hypertension, assisting in the evaluation of the UT antagonists to help treat cardiovascular disease.

Published
2005

46. Fear conditioning is associated with altered integration of PLC and ERK signaling in the hippocampus

Author

Kevin K. Caldwell and Colin T Buckley

Subjects
MAPK/ERK pathway, MAP Kinase Signaling System, Clinical Biochemistry, Phospholipase C beta, Biology, Phospholipase C gamma, Hippocampal formation, Toxicology, Hippocampus, Biochemistry, Isozyme, Rats, Sprague-Dawley, Serine, Behavioral Neuroscience, Conditioning, Psychological, Animals, Extracellular Signal-Regulated MAP Kinases, Biological Psychiatry, Mitogen-Activated Protein Kinase 1, Pharmacology, Mitogen-Activated Protein Kinase 3, Phospholipase C, Kinase, Fear, Rats, Cell biology, Isoenzymes, Type C Phospholipases, Synaptic plasticity, Female, Neuroscience, hormones, hormone substitutes, and hormone antagonists
Abstract

The extracellular signal-regulated protein kinases (ERKs) are proline-directed, serine/threonine kinases that regulate a variety of cellular functions, including proliferation, differentiation, and plasticity. In the present report, we provide evidence that ERK2 and phosphatidylinositol-specific phospholipase C (PLC)-beta and -gamma isozymes interact in the rat hippocampal formation. We found that anti-PLC-beta1a, -beta2, -beta4, -gamma1 and -gamma2, but not -beta3, immune complexes isolated from rat hippocampal formation postnuclear fractions contain anti-ERK2 immunoreactivity. Further, we show that PLC catalytic activity is associated with anti-ERK2 immunoprecipitates isolated from the hippocampal formation, and that the amount of enzyme activity is significantly increased following fear-conditioned learning. The observed interactions may be mediated by consensus sequences conforming to an ERK2 docking site, termed a D-domain, that we identified in PLC-beta1a, -beta2, -beta4 -gamma1 and -gamma2. Based on these results, we propose that PLC-beta and PLC-gamma isozymes form signaling complexes with ERK2 in rat brain, and these complexes play critical roles in learning and memory, as well as a variety of other neuronal functions.

Published
2004

47. Two-layer antibody capture of enzymes on the surface of microtiter plates: application to the study of the regulation of phospholipase C-γ1 catalytic activity

Author

Colin T Buckley and Kevin K. Caldwell

Subjects
Gene isoform, Time Factors, Biophysics, Phospholipase, Biochemistry, Antibodies, Chemistry Techniques, Analytical, Rats, Sprague-Dawley, Animals, Molecular Biology, chemistry.chemical_classification, Chromatography, biology, Phospholipase C, Phospholipase C gamma, Cell Biology, Enzyme assay, In vitro, Enzymes, Rats, Enzyme, chemistry, Type C Phospholipases, Biotinylation, biology.protein, Female, Tyrosine kinase
Abstract

In vitro quantification of the catalytic activity of an enzyme isoform requires the availability of selective agents that allow for either measurements in the presence of the other enzyme isoforms or purification of the isoform and subsequent performance of these measurements on the purified enzyme. Isozyme-specific antibodies are useful tools for these types of analyses. In the present report, we detail a method for the measurement of phospholipase C-gamma1 enzyme activity employing native enzyme that is immobilized on microtiter plates. The method uses biotinylated antiglobulin bound to streptavidin-coated microtiter plates to immobilize antiphospholipase C-gamma1 antibody and subsequently capture phospholipase C-gamma1 from brain tissue lysates. This method avoids biotinylation of the primary (antiphospholipase C-gamma1) antibody, making it less labor intensive than previously described methods for using streptavidin-coated plates; in addition, it is highly reproducible and sensitive and allows for quantification of enzyme activity. We employ the technique to show that one or more tyrosine kinases copurify with rat brain phospholipase C-gamma1. The method is applicable to the study of any enzyme isoform for which antibodies that capture the native form of the enzyme are available and could easily be employed in high-throughput procedures.

Published
2003

48. Evaluation of mechanical stresses in silicon substrates due to lead–tin solder bumps via synchrotron X-ray topography and finite element modeling

Author

T. Tuomi, A. N. Danilewsky, Patrick J. McNally, J J Pérez-Camacho, M. O'Hare, D. Lowney, T. Buckley, W.M. Chen, Juha Riikonen, R. Rantamäki, J. Kanatharana, and L. Knuuttila

Subjects
Materials science, Silicon, Electronic packaging, chemistry.chemical_element, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Stress (mechanics), Reflow soldering, chemistry, Ball grid array, Soldering, Forensic engineering, Wafer, Electrical and Electronic Engineering, Composite material, Flip chip
Abstract

Solder-based flip-chip packaging has prompted interest in integrated circuit (IC) packaging applications due to its many advantages in terms of cost, package size, electrical performance, input/output density, etc. The ball grid array (BGA) is one of the most common flip-chip packaging techniques used for microprocessor applications. However, mechanical stresses induced by the flip-chip process can impact adversely on the reliability of products. Synchrotron X-ray topography (SXRT), a non-destructive technique, has been employed to investigate the spatial extent of strain fields imposed on the underlying silicon substrate for Intel® Pentium® III microprocessors due to the lead-tin solder bump process for BGA packaging. Large area and section back-reflection SXRT images were taken before and after a simulation of the reflow process at 350 °C in atmosphere. The presence of induced strain fields in the Si substrate due to the overlying bump structures has been observed via the extinction contrast effect in these X-ray topographs. In addition, orientational contrast effects have also been found after the reflow process due to the severe stresses in the underlying silicon beneath the lead bumps. The estimated magnitudes of stress, |σ|, imposed on the underlying silicon were calculated to be of the order of 100 MPa. The spatial strains in the underlying silicon were relieved dramatically after the lead bumps were removed from the wafer, which confirms that the bumps are indeed a major source of strain in the underlying Si. Finite element modeling (FEM) has also been performed in two-dimensional (2-D) plane strain mode. The magnitudes and spatial distribution of the stresses after the reflow process are in good agreement with the SXRT results.

Published
2003

49. A Randomised Double Blind Placebo-Controlled Trial of Metoprolol and Aspirin in Early Bereavement

Author

G. Tofler, M. Spinaze, J. Dent, Morel-M. Kopp, R. Bartrop, C. Ward, S. McKinley, A. Mihailidou, J. Havyatt, V. Whitfield, J. Fethney, H. Prigerson, and T. Buckley

Subjects
Pulmonary and Respiratory Medicine, Double blind, Aspirin, business.industry, Anesthesia, Placebo-controlled study, Medicine, Cardiology and Cardiovascular Medicine, business, Metoprolol, medicine.drug
Published
2017

50. Isoprene emissions from a Florida scrub oak species grown in ambient and elevated carbon dioxide

Author

Paul T Buckley

Subjects
Atmospheric Science, biology, Ecology, Florida scrub, Quercus chapmanii, Air pollution, Vegetation, medicine.disease_cause, biology.organism_classification, Fagaceae, chemistry.chemical_compound, Light intensity, chemistry, Environmental chemistry, Carbon dioxide, medicine, Environmental science, Isoprene, General Environmental Science
Abstract

The emission of isoprene (2-methyl-1,3-butadiene) by terrestrial vegetation is an important biosphere–atmosphere exchange which significantly impacts tropospheric chemistry. Isoprene emissions from Chapman oak ( Quercus chapmanii ) grown for over two years in elevated CO 2 levels were measured and compared to emissions from trees grown in ambient CO 2 levels in identical open-topped chambers, and emissions from ambient-grown trees were compared to emissions from trees grown in chamberless control plots. Emission rates were adjusted to 30 μmol m −2 s −1 of light intensity and 30°C, and standard T -tests were performed to compare emission rates. No significant differences in isoprene emission were found in ambient vs. elevated CO 2 grown trees, while emissions from ambient vs. control trees showed a significant chamber effect.

Published
2001

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