Your search keyword '"Warrick JW"' showing total 30 results

1. Gastrectomy for Peptic Ulcer

Author

Eldin Mg and Warrick Jw

Subjects

medicine.medical_specialty, business.industry, General surgery, medicine.medical_treatment, Peptic ulcer, Medicine, Gastrectomy, General Medicine, business, medicine.disease, Selection (genetic algorithm), Surgery

Published

1947

2. Flow-S: A Field-Deployable Device with Minimal Hands-On Effort to Concentrate and Quantify Schistosoma Circulating Anodic Antigen (CAA) from Large Urine Volumes.

Author

de Jong D, Carrell C, Maganga JK, Mhango L, Shigella PS, Gill M, Shogren R, Mullins B, Warrick JW, Changalucha JM, van Dam GJ, Pham K, Downs JA, and Corstjens PLAM

Abstract

A laboratory-based lateral flow (LF) test that utilizes up-converting reporter particles (UCP) for ultrasensitive quantification of Schistosoma circulating anodic antigen (CAA) in urine is a well-accepted test to identify active infection. However, this UCP-LF CAA test requires sample pre-treatment steps not compatible with field applications. Flow, a new low-cost disposable, allows integration of large-volume pre-concentration of urine analytes and LF detection into a single field-deployable device. We assessed a prototype Flow- Schistosoma (Flow-S) device with an integrated UCP-LF CAA test strip, omitting all laboratory-based steps, to enable diagnosis of active Schistosoma infection in the field using urine. Flow-S is designed for large-volume (5-20 mL) urine, applying passive paper-based filtration and antibody-based CAA concentration. Samples tested for schistosome infection were collected from women of reproductive age living in a Tanzania region where S. haematobium infection is endemic. Fifteen negative and fifteen positive urine samples, selected based on CAA levels quantified in paired serum, were analyzed with the prototype Flow-S. The current Flow-S prototype, with an analytical lower detection limit of 1 pg CAA/mL, produced results correlated with the laboratory-based UCP-LF CAA test. Urine precipitates occurred in frozen banked samples and affected accurate quantification; however, this should not occur in fresh urine. Based on the findings of this study, Flow-S appears suitable to replace the urine pre-treatment required for the laboratory-based UCP-LF CAA test, thus allowing true field-based applications with fresh urine samples. The urine precipitates observed with frozen samples, though less important given the goal of testing fresh urines, warrant additional investigation to evaluate methods for mitigation. Flow-S devices permit testing of pooled urine samples with applications for population stratified testing. A field test with fresh urine samples, a further optimized Flow-S device, and larger statistical power has been scheduled.

Published

2024

3. Under-oil open microfluidic systems for rapid phenotypic antimicrobial susceptibility testing.

Author

Li C, McCrone S, Warrick JW, Andes DR, Hite Z, Volk CF, Rose WE, and Beebe DJ

Subjects

Humans, Pilot Projects, Anti-Bacterial Agents pharmacology, Microbial Sensitivity Tests, Microfluidics methods, Anti-Infective Agents

Abstract

Antimicrobial susceptibility testing (AST) remains the cornerstone of effective antimicrobial selection and optimization in patients. Despite recent advances in rapid pathogen identification and resistance marker detection with molecular diagnostics ( e.g. , qPCR, MALDI-TOF MS), phenotypic ( i.e. , microbial culture-based) AST methods - the gold standard in hospitals/clinics - remain relatively unchanged over the last few decades. Microfluidics-based phenotypic AST has been growing fast in recent years, aiming for rapid ( i.e. , turnaround time <8 h), high-throughput, and automated species identification, resistance detection, and antibiotics screening. In this pilot study, we describe the application of a multi-liquid-phase open microfluidic system, named under-oil open microfluidic systems (UOMS), to achieve a rapid phenotypic AST. UOMS provides an open microfluidics-based solution for rapid phenotypic AST (UOMS-AST) by implementing and recording a pathogen's antimicrobial activity in micro-volume testing units under an oil overlay. UOMS-AST allows free physical access ( e.g. , by standard pipetting) to the system and label-free, single-cell resolution optical access. UOMS-AST can accurately and rapidly determine antimicrobial activities [including susceptibility/resistance breakpoint and minimum inhibitory concentration (MIC)] from nominal sample/bacterial cells in a system aligned with clinical laboratory standards where open systems and optical microscopy are predominantly adopted. Further, we combine UOMS-AST with a cloud lab data analytic technique for real-time image analysis and report generation to provide a rapid (<4 h) sample-to-report turnaround time, shedding light on its utility as a versatile ( e.g. , low-resource setting and manual laboratory operation, or high-throughput automated system) phenotypic AST platform for hospital/clinic use.

Published

2023

4. Analytical validation and initial clinical testing of quantitative microscopic evaluation for PD-L1 and HLA I expression on circulating tumor cells from patients with non-small cell lung cancer.

Author

Schehr JL, Sethakorn N, Schultz ZD, Hernandez CI, Bade RM, Eyzaguirre D, Singh A, Niles DJ, Henderson L, Warrick JW, Berry SM, Sundling KE, Beebe DJ, Leal TA, and Lang JM

Abstract

Introduction: PD-L1 expression in non-small cell lung cancer (NSCLC) predicts response to immune checkpoint blockade, however is an imperfect biomarker given tumor heterogeneity, and the antigen presentation pathway requiring other components including HLA I expression. HLA I downregulation may contribute to resistance, warranting its evaluation in attempts to guide patient selection. In addition, earlier detection of acquired resistance could prompt earlier change in treatment and prolong patient survival. Analysis of circulating tumor cells (CTCs) captures heterogeneity across multiple sites of metastases, enables detection of changes in tumor burden that precede radiographic response, and can be obtained in serial fashion., Methods: To quantify the expression of both PD-L1 and HLA I on CTCs, we developed exclusion-based sample preparation technology, achieving high-yield with gentle magnetic movement of antibody-labeled cells through virtual barriers of surface tension. To achieve clinical-grade quantification of rare cells, we employ high quality fluorescence microscopy image acquisition and automated image analysis together termed quantitative microscopy., Results: In preparation for clinical laboratory implementation, we demonstrate high precision and accuracy of these methodologies using a diverse set of control materials. Preliminary testing of CTCs isolated from patients with NSCLC demonstrate heterogeneity in PD-L1 and HLA I expression and promising clinical value in predicting PFS in response to PD-L1 targeted therapies., Conclusions: By confirming high performance, we ensure compatibility for clinical laboratory implementation and future application to better predict and detect resistance to PD-L1 targeted therapy in patients with NSCLC., (© 2022. The Author(s).)

Published

2022

5. Social motility of biofilm-like microcolonies in a gliding bacterium.

Author

Li C, Hurley A, Hu W, Warrick JW, Lozano GL, Ayuso JM, Pan W, Handelsman J, and Beebe DJ

Subjects

Computer Simulation, Intravital Microscopy, Microfluidic Analytical Techniques, Plant Roots microbiology, Soil Microbiology, Time-Lapse Imaging, Biofilms, Flavobacterium physiology, Locomotion

Abstract

Bacterial biofilms are aggregates of surface-associated cells embedded in an extracellular polysaccharide (EPS) matrix, and are typically stationary. Studies of bacterial collective movement have largely focused on swarming motility mediated by flagella or pili, in the absence of a biofilm. Here, we describe a unique mode of collective movement by a self-propelled, surface-associated biofilm-like multicellular structure. Flavobacterium johnsoniae cells, which move by gliding motility, self-assemble into spherical microcolonies with EPS cores when observed by an under-oil open microfluidic system. Small microcolonies merge, creating larger ones. Microscopic analysis and computer simulation indicate that microcolonies move by cells at the base of the structure, attached to the surface by one pole of the cell. Biochemical and mutant analyses show that an active process drives microcolony self-assembly and motility, which depend on the bacterial gliding apparatus. We hypothesize that this mode of collective bacterial movement on solid surfaces may play potential roles in biofilm dynamics, bacterial cargo transport, or microbial adaptation. However, whether this collective motility occurs on plant roots or soil particles, the native environment for F. johnsoniae, is unknown., (© 2021. The Author(s).)

Published

2021

6. IκBα Nuclear Export Enables 4-1BB-Induced cRel Activation and IL-2 Production to Promote CD8 T Cell Immunity.

Author

Lisiero DN, Cheng Z, Tejera MM, Neldner BT, Warrick JW, Wuerzberger-Davis SM, Hoffmann A, Suresh M, and Miyamoto S

Subjects

Active Transport, Cell Nucleus, Adoptive Transfer, Animals, Antibodies, Monoclonal metabolism, CD28 Antigens immunology, Cells, Cultured, Lymphocyte Activation, Mice, Mice, Inbred C57BL, Mice, Transgenic, NF-KappaB Inhibitor alpha metabolism, Oncogene Proteins v-rel genetics, Receptors, Antigen, T-Cell metabolism, Signal Transduction, Tumor Necrosis Factor Receptor Superfamily, Member 9 metabolism, CD8-Positive T-Lymphocytes immunology, Interleukin-2 metabolism, Mutation genetics, NF-KappaB Inhibitor alpha genetics, Oncogene Proteins v-rel metabolism

Abstract

Optimal CD8 T cell immunity is orchestrated by signaling events initiated by TCR recognition of peptide Ag in concert with signals from molecules such as CD28 and 4-1BB. The molecular mechanisms underlying the temporal and spatial signaling dynamics in CD8 T cells remain incompletely understood. In this study, we show that stimulation of naive CD8 T cells with agonistic CD3 and CD28 Abs, mimicking TCR and costimulatory signals, coordinately induces 4-1BB and cRel to enable elevated cytosolic cRel:IκBα complex formation and subsequent 4-1BB-induced IκBα degradation, sustained cRel activation, heightened IL-2 production and T cell expansion. Nfkbia NES/NES CD8 T cells harboring a mutated IκBα nuclear export sequence abnormally accumulate inactive cRel:IκBα complexes in the nucleus following stimulation with agonistic anti-CD3 and anti-CD28 Abs, rendering them resistant to 4-1BB induced signaling and a disrupted chain of events necessary for efficient T cell expansion. Consequently, CD8 T cells in Nfkbia NES/NES mice poorly expand during viral infection, and this can be overcome by exogenous IL-2 administration. Consistent with cell-based data, adoptive transfer experiments demonstrated that the antiviral CD8 T cell defect in Nfkbia NES/NES mice was cell intrinsic. Thus, these results reveal that IκBα, via its unique nuclear export function, enables, rather than inhibits 4-1BB-induced cRel activation and IL-2 production to facilitate optimal CD8 T cell immunity., (Copyright © 2020 by The American Association of Immunologists, Inc.)

Published

2020

7. Under oil open-channel microfluidics empowered by exclusive liquid repellency.

Author

Li C, Hite Z, Warrick JW, Li J, Geller SH, Trantow VG, McClean MN, and Beebe DJ

Abstract

Recently, the functionality of under oil open microfluidics was expanded from droplet-based operations to include lateral flow in under oil aqueous channels. However, the resolution of the under oil fluidic channels reported so far is still far from comparable with that of closed-channel microfluidics (millimeters versus micrometers). Here, enabled by exclusive liquid repellency and an under oil sweep technique, open microchannels can now be prepared under oil (rather than in air), which shrinks the channel dimensions up to three orders of magnitude compared to previously reported techniques. Spatial trapping of different cellular samples and advanced control of mass transport (i.e., enhanced upper limit of flow rate, steady flow with passive pumping, and reversible fluidic valves) were achieved with open-channel designs. We apply these functional advances to enable dynamic measurements of dispersion from a pathogenic fungal biofilm. The ensemble of added capabilities reshapes the potential application space for open microfluidics., (Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).)

Published

2020

8. Pairing Microwell Arrays with an Affordable, Semiautomated Single-Cell Aspirator for the Interrogation of Circulating Tumor Cell Heterogeneity.

Author

Tokar JJ, Stahlfeld CN, Sperger JM, Niles DJ, Beebe DJ, Lang JM, and Warrick JW

Subjects

Automation, Cell Count, Cell Line, Tumor, Humans, Male, Probability, Prostatic Neoplasms, Castration-Resistant pathology, Microfluidics instrumentation, Microfluidics methods, Neoplastic Cells, Circulating pathology, Single-Cell Analysis instrumentation

Abstract

Comprehensive analysis of tumor heterogeneity requires robust methods for the isolation and analysis of single cells from patient samples. An ideal approach would be fully compatible with downstream analytic methods, such as advanced genomic testing. These endpoints necessitate the use of live cells at high purity. A multitude of microfluidic circulating tumor cell (CTC) enrichment technologies exist, but many of those perform bulk sample enrichment and are not, on their own, capable of single-cell interrogation. To address this, we developed an affordable semiautomated single-cell aspirator (SASCA) to further enrich rare-cell populations from a specialized microwell array, per their phenotypic markers. Immobilization of cells within microwells, integrated with a real-time image processing software, facilitates the detection and precise isolation of targeted cells that have been optimally seeded into the microwells. Here, we demonstrate the platform capabilities through the aspiration of target cells from an impure background population, where we obtain purity levels of 90%-100% and demonstrate the enrichment of the target population with high-quality RNA extraction. A range of low cell numbers were aspirated using SASCA before undergoing whole transcriptome and genome analysis, exhibiting the ability to obtain endpoints from low-template inputs. Lastly, CTCs from patients with castration-resistant prostate cancer were isolated with this platform and the utility of this method was confirmed for rare-cell isolation. SASCA satisfies a need for an affordable option to isolate single cells or highly purified subpopulations of cells to probe complex mechanisms driving disease progression and resistance in patients with cancer.

Published

2020

9. Bone Marrow Stromal Cells Transcriptionally Repress ESR1 but Cannot Overcome Constitutive ESR1 Mutant Activity.

Author

Lung DK, Warrick JW, Hematti P, Callander NS, Mark CJ, Miyamoto S, and Alarid ET

Subjects

Estrogen Receptor alpha genetics, Gene Expression Regulation, Humans, MCF-7 Cells, Mitogen-Activated Protein Kinase Kinases, Mutation, Protein Processing, Post-Translational, RNA, Messenger genetics, RNA, Messenger metabolism, Transcription, Genetic, Estrogen Receptor alpha metabolism, Mesenchymal Stem Cells metabolism

Abstract

Estrogen receptor α (ER) is the target of endocrine therapies in ER-positive breast cancer (BC), but their therapeutic effectiveness diminishes with disease progression. Most metastatic BCs retain an ER-positive status, but ER expression levels are reduced. We asked how the bone tumor microenvironment (TME) regulates ER expression. We observed ESR1 mRNA and ER protein downregulation in BC cells treated with conditioned media (CM) from patient-derived, cancer-activated bone marrow stromal cells (BMSCs) and the BMSC cell line HS5. Decreases in ESR1 mRNA were attributed to decreases in nascent transcripts as well as decreased RNA polymerase II occupancy and H3K27Ac levels on the ESR1 promoter and/or distal enhancer (ENH1). Repression extended to neighboring genes of ESR1, including ARMT1 and SYNE1. Although ERK/MAPK signaling pathway can repress ER expression by other TME cell types, MAPK inhibition did not reverse decreases in ER expression by BMSC-CM. ESR1 mRNA and ER protein half-lives in MCF7 cells were unchanged by BMSC-CM treatment. Whereas ER phosphorylation was induced, ER activity was repressed by BMSC-CM as neither ER occupancy at known binding sites nor estrogen response element-luciferase activity was detected. BMSC-CM also repressed expression of ER target genes. In cells expressing the Y537S and D538G ESR1 mutations, BMSC-CM reduced ESR1, but expression of target genes PGR and TFF1 remained significantly elevated compared with that of control wild-type cells. These studies demonstrate that BMSCs can transcriptionally corepress ESR1 with neighboring genes and inhibit receptor activity, but the functional consequences of the BMSC TME can be limited by metastasis-associated ESR1 mutations., (Copyright © 2019 Endocrine Society.)

Published

2019

10. User-defined morphogen patterning for directing human cell fate stratification.

Author

Regier MC, Tokar JJ, Warrick JW, Pabon L, Berthier E, Beebe DJ, and Stevens KR

Subjects

Cell Differentiation, Cell Line, Collagen chemistry, Drug Combinations, Finite Element Analysis, Gastrulation physiology, Human Umbilical Vein Endothelial Cells physiology, Humans, Induced Pluripotent Stem Cells physiology, Lab-On-A-Chip Devices, Laminin chemistry, Proteoglycans chemistry, Body Patterning physiology, Cell Culture Techniques, Human Umbilical Vein Endothelial Cells cytology, Induced Pluripotent Stem Cells cytology, Signal Transduction physiology

Abstract

Concentration gradients of biochemical stimuli such as morphogens play a critical role in directing cell fate patterning across species and throughout development but are not commonly recapitulated in vitro. While in vitro biomolecule gradients have been generated using customized microfluidic platforms, broad implementation has been limited because these platforms introduce new variables to cell culture such as externally driven flow, culture in a specialized matrix, or extended time for in situ long range diffusion. Here we introduce a method that enables preforming and then transferring user-controlled gradients to cells in standard "open" cultures. Our gradient patterning devices are modular and decoupled from the culture substrate. We find that gradient generation and transfer are predictable by finite element modeling and that device and loading parameters can be used to tune the stimulus pattern. Furthermore, we demonstrate use of these devices to spatially define morphogen signal gradients and direct peri-gastrulation fate stratification of human pluripotent stem cells. This method for extrinsic application of biochemical signal gradients can thus be used to spatially influence cellular fate decisions in a user-controlled manner.

Published

2019

11. Open multi-culture platform for simple and flexible study of multi-cell type interactions.

Author

Álvarez-García YR, Ramos-Cruz KP, Agostini-Infanzón RJ, Stallcop LE, Beebe DJ, Warrick JW, and Domenech M

Subjects

Animals, Cell Line, Tumor, Cell Proliferation, Humans, Mesoderm pathology, Mice, Cell Culture Techniques instrumentation

Abstract

The study of multi-cell-type (MCT) interactions has the potential to significantly impact our understanding of tissue and disease biology. Such studies require innovative culture tools for unraveling the contributions of each cell type. Micro- and macro-scale platforms for MCT culture each have different advantages and disadvantages owing to their widely different capabilities, availability, and ease-of-use. However, as evidenced in the literature, there are very few examples of MCT studies and culture platforms, suggesting both biological and technical barriers. We have developed an open multi-culture platform to promote more rapid progress by integrating advantages of both micro- and macro-scale culture devices. The proposed open multi-culture platform addresses technical barriers by allowing easy customization, independent control of basic physical culture parameters, and incorporation of multiple culture modalities (e.g., 2D, 3D, transwell, and spheroid). The design also permits the user to obtain independent endpoints for each culture region. We demonstrate use of the platform in two example studies where we evaluated how cell ratio and cell types influence the response of triple negative breast cancer cells to heat damage and Hedgehog signaling. We also show that the platform can improve soluble factor transport between cell types compared to compartmentalized macro- and micro-scale alternatives. Last, we examine current and future challenges of the platform. We envision simple, yet flexible and customizable, platforms such as this will be important for advancing in vitro study of tissue and tumor biology.

Published

2018

12. Integrating Electrochemical Immunosensing and Cell Adhesion Technologies for Cancer Cell Detection and Enumeration.

Author

Seenivasan R, Warrick JW, Rodriguez CI, Mattison W, Beebe DJ, Setaluri V, and Gunasekaran S

Abstract

We have successfully integrated techniques for controlling cell adhesion and performing electrochemical differential pulse voltammetry (DPV) through the use of digitally controlled microfluidics and patterned transparent indium tin oxide electrode arrays to enable rapid and sensitive enumeration of cancer cells in a scalable microscale format. This integrated approach leverages a dual-working electrode (WE) surface to improve the specificity of the detection system. Here, one of the WE surfaces is functionalized with anti-Melanocortin 1 Receptor antibodies specific to melanoma cancer cells, while the other WE acts as a control (i.e., without antibody), for detecting non-specific interactions between cells and the electrode. The method is described and shown to provide effective detection of melanoma cells at concentrations ranging between 25 to 300 cells per 20 μL sample volume after a 5 min incubation and 15 s of DPV measurements. The estimated limit of detection was ~17 cells. The sensitivity and specificity of the assay were quantified using addition of large fractions of non-target cells and resulted in a detection reproducibility of ~97%. The proposed approach demonstrates a unique integration of electrochemical sensing and microfluidic cell adhesion technologies with multiple advantages such as label-free detection, short detection times, and low sample volumes. Next steps for this platform include testing with patient samples and use of other cell-surface biomarkers for detection and enumeration of circulating tumor cells in prostate, breast, and colon cancer.

Published

2018

13. Mammary fibroblasts reduce apoptosis and speed estrogen-induced hyperplasia in an organotypic MCF7-derived duct model.

Author

Morgan MM, Livingston MK, Warrick JW, Stanek EM, Alarid ET, Beebe DJ, and Johnson BP

Subjects

Apoptosis genetics, Breast pathology, Breast Neoplasms pathology, Cell Proliferation genetics, Coculture Techniques, Epithelial Cells metabolism, Epithelial Cells pathology, Estradiol metabolism, Estradiol pharmacology, Estrogen Receptor alpha genetics, Female, Fibroblasts metabolism, Fibroblasts pathology, Humans, Hyperplasia genetics, Hyperplasia pathology, MCF-7 Cells, Mammary Glands, Human pathology, Signal Transduction genetics, Tumor Microenvironment genetics, Breast metabolism, Breast Neoplasms metabolism, Hyperplasia metabolism, Mammary Glands, Human metabolism

Abstract

The estrogen receptor (ER) regulates the survival and growth of breast cancer cells, but it is less clear how components of the tissue microenvironment affect ER-mediated responses. We set out to test how human mammary fibroblasts (HMFs) modulate ER signaling and downstream cellular responses. We exposed an organotypic mammary model consisting of a collagen-embedded duct structure lined with MCF7 cells to 17-β estradiol (E2), with and without HMFs in the surrounding matrix. MCF7 cells grown as ductal structures were polarized and proliferated at rates comparable to in vivo breast tissue. In both culture platforms, exposure to E2 increased ER transactivation, increased proliferation, and induced ductal hyperplasia. When the surrounding matrix contained HMFs, the onset and severity of E2-induced ductal hyperplasia was increased due to decreased apoptosis. The reduced apoptosis may be due to fibroblasts modulating ER signaling in MCF7 cells, as suggested by the increased ER transactivation and reduced ER protein in MCF7 cells grown in co-culture. These findings demonstrate the utility of organotypic platforms when studying stromal:epithelial interactions, and add to existing literature that implicate the mammary microenvironment in ER + breast cancer progression.

Published

2018

14. Razor-printed sticker microdevices for cell-based applications.

Author

Stallcop LE, Álvarez-García YR, Reyes-Ramos AM, Ramos-Cruz KP, Morgan MM, Shi Y, Li L, Beebe DJ, Domenech M, and Warrick JW

Subjects

Animals, Cell Line, Equipment Design, Humans, Mice, Microscopy, Fluorescence, Printing, Reproducibility of Results, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Cytological Techniques instrumentation, Microfluidic Analytical Techniques instrumentation

Abstract

Tape-based razor-printing is a flexible and affordable ultra-rapid prototyping approach for microscale device fabrication. However, integration of this prototyping approach into cell-based assay development has been limited to proof of principle demonstrations. This is in large part due to lack of an established or well-characterized option for biocompatible adhesive tape. Without such an option, integration of these areas will remain unexplored. Therefore, to address this critical hurdle, we characterized microscale devices made using a potentially biocompatible double-sided adhesive, ARCare 90106. We validated tape-based device performance against 96-well plates and PDMS microdevices with respect to cell viability, hydrophobic small molecule sequestration, the potential for leaching compounds, use in fluorescence microscopy, and outgassing (bubble formation). Results supported the tape as a promising tool for future cell-based assay development. Therefore, we subsequently demonstrated specific strengths enabled by the ultra-rapid (<1 h per prototype) and affordable (∼$1200 cutting plotter, <$0.05 per prototype) approach. Specifically, data demonstrate the ability to integrate disparate materials for advanced sticker-device functionality such as bonding of polystyrene devices to glass substrates for microscopy applications, inclusion of membranes, and incorporation of different electrospun biomaterials into a single device. Likewise, the approach allowed rapid adoption by uninitiated users. Overall, this study provides a necessary and unique contribution to the largely separate fields of tape-based razor-printing and cell-based microscale assay development by addressing a critical barrier to widespread integration and adoption while also demonstrating the potential for new and future applications.

Published

2018

15. Quantitative profiling of innate immune activation by viral infection in single cells.

Author

Timm AC, Warrick JW, and Yin J

Subjects

Cell Line, Tumor, Data Interpretation, Statistical, Gene Expression Profiling, Genes, Reporter, Genes, Viral, Green Fluorescent Proteins genetics, Host-Pathogen Interactions genetics, Host-Pathogen Interactions immunology, Humans, Image Processing, Computer-Assisted, Luminescent Proteins genetics, Male, Single-Cell Analysis, Vesiculovirus genetics, Vesiculovirus immunology, Vesiculovirus pathogenicity, Red Fluorescent Protein, Immunity, Innate genetics

Abstract

Cells infected by viruses can exhibit diverse patterns of viral and cellular gene expression. The patterns arise in part from the stochastic or noisy reaction kinetics associated with the small number of genomes, enzymes, and other molecules that typically initiate virus replication and activate cellular anti-viral defenses. It is not known what features, if any, of the early viral or cellular gene expression correlate with later processes of viral replication or cell survival. Here we used two fluorescent reporters to visualize innate immune activation of human prostate cancer (PC3) cells against infection by vesicular stomatitis virus. The cells were engineered to express green-fluorescent protein under control of the promoter for IFIT2, an interferon-sensitive component of the anti-viral response, while red-fluorescent protein was expressed as a byproduct of virus infection. To isolate and quantitatively analyze single-cells, we used a unique microwell array device and open-source image processing software. Kinetic analysis of viral and cellular reporter profiles from hundreds of cells revealed novel relationships between gene expression and the outcome of infection. Specifically, the relative timing rather than the magnitude of the viral gene expression and innate immune activation correlated with the infection outcome. Earlier viral or anti-viral gene expression favored or hindered virus growth, respectively. Further, analysis of kinetic parameters estimated from these data suggests a trade-off between robust antiviral signaling and cell death, as indicated by a higher rate of detectable cell lysis in infected cells with a detectable immune response. In short, cells that activate an immune response lyse at a higher rate. More broadly, we demonstrate how the intrinsic heterogeneity of individual cell behaviors can be exploited to discover features of viral and host gene expression that correlate with single-cell outcomes, which will ultimately impact whether or not infections spread.

Published

2017

16. Microfluidic-integrated patterned ITO immunosensor for rapid detection of prostate-specific membrane antigen biomarker in prostate cancer.

Author

Seenivasan R, Singh CK, Warrick JW, Ahmad N, and Gunasekaran S

Subjects

Humans, Male, Metal Nanoparticles, Microfluidics, Neoplastic Cells, Circulating, Antigens, Surface blood, Biomarkers, Tumor blood, Biosensing Techniques, Glutamate Carboxypeptidase II blood, Prostatic Neoplasms blood

Abstract

An optically transparent patterned indium tin oxide (ITO) three-electrode sensor integrated with a microfluidic channel was designed for label-free immunosensing of prostate-specific membrane antigen (PSMA), a prostate cancer (PCa) biomarker, expressed on prostate tissue and circulating tumor cells but also found in serum. The sensor relies on cysteamine capped gold nanoparticles (N-AuNPs) covalently linked with anti-PSMA antibody (Ab) for target specificity. A polydimethylsiloxane (PDMS) microfluidic channel is used to efficiently and reproducibly introduce sample containing soluble proteins/cells to the sensor. The PSMA is detected and quantified by measuring the change in differential pulse voltammetry signal of a redox probe ([Fe(CN) 6 ] 3- /[Fe(CN) 6 ] 4- ) that is altered upon binding of PSMA with PSMA-Ab immobilized on N-AuNPs/ITO. Detection of PSMA expressing cells and soluble PSMA was tested. The limit of detection (LOD) of the sensor for PSMA-based PCa cells is 6/40µL (i.e., 150 cells/mL) (n=3) with a linear range of 15-400 cells/40µL (i.e., 375-10,000 cells/mL), and for the soluble PSMA is 0.499ng/40µL (i.e., 12.5ng/mL) (n=3) with the linear range of 0.75-250ng/40µL (i.e., 19-6250ng/mL), both with an incubation time of 10min. The results indicate that the sensor has a suitable sensitivity and dynamic range for routine detection of PCa circulating tumor cells and can be adapted to detect other biomarkers/cancer cells., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

17. Interrogating Bronchoalveolar Lavage Samples via Exclusion-Based Analyte Extraction.

Author

Tokar JJ, Warrick JW, Guckenberger DJ, Sperger JM, Lang JM, Ferguson JS, and Beebe DJ

Subjects

Biomarkers, Tumor analysis, Cell Line, Tumor, Humans, Immunohistochemistry instrumentation, Specimen Handling instrumentation, Bronchoalveolar Lavage Fluid cytology, Epithelial Cells chemistry, Immunohistochemistry methods, Lung Neoplasms diagnosis, Specimen Handling methods

Abstract

Although average survival rates for lung cancer have improved, earlier and better diagnosis remains a priority. One promising approach to assisting earlier and safer diagnosis of lung lesions is bronchoalveolar lavage (BAL), which provides a sample of lung tissue as well as proteins and immune cells from the vicinity of the lesion, yet diagnostic sensitivity remains a challenge. Reproducible isolation of lung epithelia and multianalyte extraction have the potential to improve diagnostic sensitivity and provide new information for developing personalized therapeutic approaches. We present the use of a recently developed exclusion-based, solid-phase-extraction technique called SLIDE (Sliding Lid for Immobilized Droplet Extraction) to facilitate analysis of BAL samples. We developed a SLIDE protocol for lung epithelial cell extraction and biomarker staining of patient BALs, testing both EpCAM and Trop2 as capture antigens. We characterized captured cells using TTF1 and p40 as immunostaining biomarkers of adenocarcinoma and squamous cell carcinoma, respectively. We achieved up to 90% (EpCAM) and 84% (Trop2) extraction efficiency of representative tumor cell lines. We then used the platform to process two patient BAL samples in parallel within the same sample plate to demonstrate feasibility and observed that Trop2-based extraction potentially extracts more target cells than EpCAM-based extraction.

Published

2017

18. High Specificity in Circulating Tumor Cell Identification Is Required for Accurate Evaluation of Programmed Death-Ligand 1.

Author

Schehr JL, Schultz ZD, Warrick JW, Guckenberger DJ, Pezzi HM, Sperger JM, Heninger E, Saeed A, Leal T, Mattox K, Traynor AM, Campbell TC, Berry SM, Beebe DJ, and Lang JM

Subjects

Humans, Immunophenotyping methods, Immunophenotyping standards, Neoplasm Metastasis, Neoplasm Staging, Reproducibility of Results, Sensitivity and Specificity, B7-H1 Antigen metabolism, Biomarkers, Tumor, Carcinoma, Non-Small-Cell Lung diagnosis, Carcinoma, Non-Small-Cell Lung metabolism, Lung Neoplasms diagnosis, Lung Neoplasms metabolism, Neoplastic Cells, Circulating metabolism

Abstract

Background: Expression of programmed-death ligand 1 (PD-L1) in non-small cell lung cancer (NSCLC) is typically evaluated through invasive biopsies; however, recent advances in the identification of circulating tumor cells (CTCs) may be a less invasive method to assay tumor cells for these purposes. These liquid biopsies rely on accurate identification of CTCs from the diverse populations in the blood, where some tumor cells share characteristics with normal blood cells. While many blood cells can be excluded by their high expression of CD45, neutrophils and other immature myeloid subsets have low to absent expression of CD45 and also express PD-L1. Furthermore, cytokeratin is typically used to identify CTCs, but neutrophils may stain non-specifically for intracellular antibodies, including cytokeratin, thus preventing accurate evaluation of PD-L1 expression on tumor cells. This holds even greater significance when evaluating PD-L1 in epithelial cell adhesion molecule (EpCAM) positive and EpCAM negative CTCs (as in epithelial-mesenchymal transition (EMT))., Methods: To evaluate the impact of CTC misidentification on PD-L1 evaluation, we utilized CD11b to identify myeloid cells. CTCs were isolated from patients with metastatic NSCLC using EpCAM, MUC1 or Vimentin capture antibodies and exclusion-based sample preparation (ESP) technology., Results: Large populations of CD11b+CD45lo cells were identified in buffy coats and stained non-specifically for intracellular antibodies including cytokeratin. The amount of CD11b+ cells misidentified as CTCs varied among patients; accounting for 33-100% of traditionally identified CTCs. Cells captured with vimentin had a higher frequency of CD11b+ cells at 41%, compared to 20% and 18% with MUC1 or EpCAM, respectively. Cells misidentified as CTCs ultimately skewed PD-L1 expression to varying degrees across patient samples., Conclusions: Interfering myeloid populations can be differentiated from true CTCs with additional staining criteria, thus improving the specificity of CTC identification and the accuracy of biomarker evaluation.

Published

2016

19. Tools for Single-Cell Kinetic Analysis of Virus-Host Interactions.

Author

Warrick JW, Timm A, Swick A, and Yin J

Subjects

Apoptosis Regulatory Proteins, Cell Line, Tumor, DEAD Box Protein 58, DEAD-box RNA Helicases genetics, DEAD-box RNA Helicases metabolism, Epithelial Cells metabolism, Epithelial Cells pathology, Fluorescent Dyes, Genes, Reporter, Green Fluorescent Proteins genetics, Green Fluorescent Proteins metabolism, Humans, Interferon Regulatory Factor-3 genetics, Interferon Regulatory Factor-3 metabolism, Interferon Regulatory Factor-7 genetics, Interferon Regulatory Factor-7 metabolism, Interferon Type I genetics, Interferon Type I metabolism, Kinetics, Luminescent Proteins genetics, Luminescent Proteins metabolism, Male, Prostate metabolism, Prostate pathology, Prostate virology, Proteins genetics, Proteins metabolism, RNA-Binding Proteins, Receptors, Immunologic, Signal Transduction, Single-Cell Analysis, Vesiculovirus metabolism, Red Fluorescent Protein, Epithelial Cells virology, Gene Expression Regulation, High-Throughput Screening Assays instrumentation, Host-Pathogen Interactions genetics, Software, Vesiculovirus genetics

Abstract

Measures of cellular gene expression or behavior, when performed on individual cells, inevitably reveal a diversity of behaviors and outcomes that can correlate with normal or diseased states. For virus infections, the potential diversity of outcomes are pushed to an extreme, where measures of infection reflect features of the specific infecting virus particle, the individual host cell, as well as interactions between viral and cellular components. Single-cell measures, while revealing, still often rely on specialized fluid handling capabilities, employ end-point measures, and remain labor-intensive to perform. To address these limitations, we consider a new microwell-based device that uses simple pipette-based fluid handling to isolate individual cells. Our design allows different experimental conditions to be implemented in a single device, permitting easier and more standardized protocols. Further, we utilize a recently reported dual-color fluorescent reporter system that provides dynamic readouts of viral and cellular gene expression during single-cell infections by vesicular stomatitis virus. In addition, we develop and show how free, open-source software can enable streamlined data management and batch image analysis. Here we validate the integration of the device and software using the reporter system to demonstrate unique single-cell dynamic measures of cellular responses to viral infection.

Published

2016

20. A negative selection methodology using a microfluidic platform for the isolation and enumeration of circulating tumor cells.

Author

Casavant BP, Mosher R, Warrick JW, Maccoux LJ, Berry SM, Becker JT, Chen V, Lang JM, McNeel DG, and Beebe DJ

Subjects

Antigens, Neoplasm blood, Cell Adhesion Molecules blood, Cell Count, Enzyme-Linked Immunospot Assay methods, Epithelial Cell Adhesion Molecule, Humans, Male, Microfluidic Analytical Techniques instrumentation, Neoplasm Metastasis, Neoplasms blood, Cell Separation methods, Microfluidic Analytical Techniques methods, Neoplastic Cells, Circulating pathology

Abstract

Circulating tumor cells (CTCs) exist in the peripheral blood stream of metastatic cancer patients at rates of approximately 1 CTC per billion background cells. In order to capture and analyze this rare cell population, various techniques exist that range from antibody-based surface marker positive selection to methods that use physical properties of CTCs to negatively exclude background cells from a CTC population. However, methods to capture cells for functional downstream analyses are limited due to inaccessibility of the captured sample or labeling techniques that may be prohibitive to cell function. Here, we present a negative selection method that leverages a Microfluidic Cell Concentrator (MCC) to allow collection and analysis of this rare cell population without needing cell adhesion or other labeling techniques to keep the cells within the chamber. Because the MCC is designed to allow collection and analysis of non-adherent cell populations, multiple staining steps can be applied in parallel to a given CTC population without losing any of the population. The ability of the MCC for patient sample processing of CTCs for enumeration was demonstrated with five patient samples, revealing an average of 0.31 CTCs/mL. The technique was compared to a previously published method - the ELISPOT - that showed similar CTC levels among the five patient samples tested. Because the MCC method does not use positive selection, the method can be applied across a variety of tumor types with no changes to the process., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

21. High-content adhesion assay to address limited cell samples.

Author

Warrick JW, Young EW, Schmuck EG, Saupe KW, and Beebe DJ

Subjects

Equipment Design, Equipment Failure Analysis, Humans, Biological Assay instrumentation, Cell Adhesion physiology, Cell Separation instrumentation, Mechanotransduction, Cellular physiology, Microfluidic Analytical Techniques instrumentation, Tissue Array Analysis instrumentation

Abstract

Cell adhesion is a broad topic in cell biology that involves physical interactions between cells and other cells or the surrounding extracellular matrix, and is implicated in major research areas including cancer, development, tissue engineering, and regenerative medicine. While current methods have contributed significantly to our understanding of cell adhesion, these methods are unsuitable for tackling many biological questions requiring intermediate numbers of cells (10(2)-10(5)), including small animal biopsies, clinical samples, and rare cell isolates. To overcome this fundamental limitation, we developed a new assay to quantify the adhesion of ~10(2)-10(3) cells at a time on engineered substrates, and examined the adhesion strength and population heterogeneity via distribution-based modeling. We validated the platform by testing adhesion strength of cancer cells from three different cancer types (breast, prostate, and multiple myeloma) on both IL-1β activated and non-activated endothelial monolayers, and observed significantly increased adhesion for each cancer cell type upon endothelial activation, while identifying and quantifying distinct subpopulations of cell-substrate interactions. We then applied the assay to characterize adhesion of primary bone marrow stromal cells to different cardiac fibroblast-derived matrix substrates to demonstrate the ability to study limited cell populations in the context of cardiac cell-based therapies. Overall, these results demonstrate the sensitivity and robustness of the assay as well as its ability to enable extraction of high content, functional data from limited and potentially rare primary samples. We anticipate this method will enable a new class of biological studies with potential impact in basic and translational research.

Published

2013

22. Subtropical grass pollen allergens are important for allergic respiratory diseases in subtropical regions.

Author

Davies JM, Li H, Green M, Towers M, and Upham JW

Abstract

Background: Grass pollen allergens are a major cause of allergic respiratory disease but traditionally prescribing practice for grass pollen allergen-specific immunotherapy has favoured pollen extracts of temperate grasses. Here we aim to compare allergy to subtropical and temperate grass pollens in patients with allergic rhinitis from a subtropical region of Australia., Methods: Sensitization to pollen extracts of the subtropical Bahia grass (Paspalum notatum), Johnson grass (Sorghum halepense) and Bermuda grass (Cynodon dactylon) as well as the temperate Ryegrass (Lolium perenne) were measured by skin prick in 233 subjects from Brisbane. Grass pollen-specific IgE reactivity was tested by ELISA and cross-inhibition ELISA., Results: Patients with grass pollen allergy from a subtropical region showed higher skin prick diameters with subtropical Bahia grass and Bermuda grass pollens than with Johnson grass and Ryegrass pollens. IgE reactivity was higher with pollen of Bahia grass than Bermuda grass, Johnson grass and Ryegrass. Patients showed asymmetric cross-inhibition of IgE reactivity with subtropical grass pollens that was not blocked by temperate grass pollen allergens indicating the presence of species-specific IgE binding sites of subtropical grass pollen allergens that are not represented in temperate grass pollens., Conclusions: Subtropical grass pollens are more important allergen sources than temperate grass pollens for patients from a subtropical region. Targeting allergen-specific immunotherapy to subtropical grass pollen allergens in patients with allergic rhinitis in subtropical regions could improve treatment efficacy thereby reducing the burden of allergic rhinitis and asthma.

Published

2012

23. Infection on a chip: a microscale platform for simple and sensitive cell-based virus assays.

Author

Zhu Y, Warrick JW, Haubert K, Beebe DJ, and Yin J

Subjects

Animals, Antiviral Agents pharmacology, Cell Culture Techniques, Cell Line, Cricetinae, Dose-Response Relationship, Drug, Equipment Design, Fluorescent Dyes metabolism, Fluorouracil pharmacology, Immunohistochemistry, Indoles metabolism, Microfluidic Analytical Techniques methods, Microtechnology, Rhabdoviridae Infections immunology, Rhabdoviridae Infections virology, Sensitivity and Specificity, Vesicular stomatitis Indiana virus drug effects, Microfluidic Analytical Techniques instrumentation, Rhabdoviridae Infections drug therapy, Vesicular stomatitis Indiana virus growth & development, Vesicular stomatitis Indiana virus immunology, Viral Plaque Assay standards

Abstract

The plaque assay has long served as the "gold standard" to measure virus infectivity and test antiviral drugs, but the assay is labor-intensive, lacks sensitivity, uses excessive reagents, and is hard to automate. Recent modification of the assay to exploit flow-enhanced virus spread with quantitative imaging has increased its sensitivity. Here we performed flow-enhanced infection assays in microscale channels, employing passive fluid pumping to inoculate cell monolayers with virus and drive infection spread. Our test of an antiviral drug (5-fluorouracil) against vesicular stomatitis virus infections of BHK cell monolayers yielded a two-fold improvement in sensitivity, relative to the standard assay based on plaque counting. The reduction in scale, simplified fluid handling, image-based quantification, and higher assay sensitivity will enable infection measurements for high-throughput drug screening, sero-conversion testing, and patient-specific diagnosis of viral infections.

Published

2009

24. An adaptable hydrogel array format for 3-dimensional cell culture and analysis.

Author

Jongpaiboonkit L, King WJ, Lyons GE, Paguirigan AL, Warrick JW, Beebe DJ, and Murphy WL

Subjects

Animals, Cell Adhesion, Cell Count, Cell Culture Techniques instrumentation, Cell Line, Cells, Cultured, Collagen Type I chemistry, Culture Media chemistry, Endothelial Cells cytology, Humans, Materials Testing, Mesenchymal Stem Cells cytology, Mice, Myocytes, Cardiac cytology, NIH 3T3 Cells, Polyethylene Glycols chemistry, Biocompatible Materials chemistry, Cell Culture Techniques methods, Hydrogels chemistry

Abstract

Hydrogels have been commonly used as model systems for 3-dimensional (3-D) cell biology, as they have material properties that resemble natural extracellular matrices (ECMs), and their cell-interactive properties can be readily adapted in order to address a particular hypothesis. Natural and synthetic hydrogels have been used to gain fundamental insights into virtually all aspects of cell behavior, including cell adhesion, migration, and differentiated function. However, cell responses to complex 3-D environments are difficult to adequately explore due to the large number of variables that must be controlled simultaneously. Here we describe an adaptable, automated approach for 3-D cell culture within hydrogel arrays. Our initial results demonstrate that the hydrogel network chemistry (both natural and synthetic), cell type, cell density, cell adhesion ligand density, and degradability within each array spot can be systematically varied to screen for environments that promote cell viability in a 3-D context. In a test-bed application we then demonstrate that a hydrogel array format can be used to identify environments that promote viability of HL-1 cardiomyocytes, a cell line that has not been cultured previously in 3-D hydrogel matrices. Results demonstrate that the fibronectin-derived cell adhesion ligand RGDSP improves HL-1 viability in a dose-dependent manner, and that the effect of RGDSP is particularly pronounced in degrading hydrogel arrays. Importantly, in the presence of 70mum RGDSP, HL-1 cardiomyocyte viability does not decrease even after 7 days of culture in PEG hydrogels. Taken together, our results indicate that the adaptable, array-based format developed in this study may be useful as an enhanced throughput platform for 3-D culture of a variety of cell types.

Published

2008

25. Automated cell culture in high density tubeless microfluidic device arrays.

Author

Meyvantsson I, Warrick JW, Hayes S, Skoien A, and Beebe DJ

Subjects

Animals, Epithelial Cells, Mice, Surface Tension, Cell Culture Techniques instrumentation, Cell Culture Techniques methods, Microfluidic Analytical Techniques instrumentation, Microfluidic Analytical Techniques methods

Abstract

Microfluidics is poised to have an impact on life sciences research. However, current microfluidic methods are not compatible with existing laboratory liquid dispensing and detection infrastructure. This incompatibility is a barrier to adoption of microfluidic systems and calls for improved approaches that will enhance performance and promote acceptance of microfluidic systems in the life sciences. Ease of use, standardized interfaces and automation remain critical challenges. We present a platform based on surface tension effects, where the difference in pressure inside drops of unequal volume drives flow in passive structures. We show integration with existing laboratory infrastructure, microfluidic operations such as pumping, routing and compartmentalization without discrete micro-components as well as cell patterning in both monolayer and three-dimensional cell culture.

Published

2008

26. Screening the cellular microenvironment: a role for microfluidics.

Author

Warrick JW, Murphy WL, and Beebe DJ

Subjects

Animals, Cell Culture Techniques instrumentation, Humans, Microfluidic Analytical Techniques instrumentation, Systems Biology instrumentation, Cell Culture Techniques methods, Cellular Microenvironment, Microfluidic Analytical Techniques methods, Models, Biological, Systems Biology methods

Abstract

The cellular microenvironment is an increasingly discussed topic in cell biology as it has been implicated in the progression of cancer and the maintenance of stem cells. The microenvironment of a cell is an organized combination of extracellular matrix (ECM), cells, and interstitial fluid that influence cellular phenotype through physical, mechanical, and biochemical mechanisms. Screening can be used to map combinations of cells and microenvironments to phenotypic outcomes in a way that can help develop more predictive in vitro models and to better understand phenotypic mechanisms from a systems biology perspective. This paper examines microenvironmental screening in terms of outcomes and benefits, key elements of the screening process, challenges for implementation, and a possible role for microfluidics as the screening platform. To assess microfluidics for use in microenvironmental screening, examples and categories of micro-scale and microfluidic technology are highlighted. Microfluidic technology shows promise for simultaneous control of multiple parameters of the microenvironment and can provide a base for scaling advanced cell-based experiments into automated high-throughput formats.

Published

2008

27. Balanced anaesthesia for partial gastrectomy.

Author

WARRICK JW

Subjects

Humans, Anesthesia, Anesthesiology, Balanced Anesthesia, Gastrectomy

Published

1947

28. Delayed recovery after anaesthesia.

Author

EDWARDS PM and WARRICK JW

Subjects

Humans, Anesthesia

Published

1947

29. Monoamine oxidase inhibitors and anesthesia.

Author

Warrick JW

Subjects

Family Practice, Humans, Surgical Procedures, Operative, Anesthesia, Monoamine Oxidase Inhibitors

Published

1968

30. Stellate ganglion block in the treatment of Ménière's disease and in the symptomatic relief of tinnitus.

Author

Warrick JW

Subjects

Adult, Anilides, Female, Humans, Labyrinth Diseases therapy, Male, Middle Aged, Otitis Media therapy, Pipecolic Acids, Vertigo therapy, Anesthesia, Conduction adverse effects, Meniere Disease therapy, Stellate Ganglion, Tinnitus therapy

Published

1969