Squaraine dyes for two-photon fluorescence bioimaging applications

Colon Gomez, Maria

01 May 2013

No description available.

Chemistry

Regulation of Fluid-Shear Stress Sensing by Mechanosensory Primary Cilia

Abdul-Majeed, Shakila

13 September 2011

No description available.

Biomedical Research

cilia

hypertension

polycystic kidney disease

immuno fluorescence microscopy

scanning electron microscopy

Single Molecule Studies of Enzymes Horseradish Peroxidase and Alkaline Phosphatase Using Total Internal Reflection Fluorescence Microscopy and Confocal Microscopy

Kaldaras, Leonora

29 July 2013

No description available.

Chemistry

The Effect of Exogenous Nitric Oxide on Neuronal Zn ²⁺ Homeostasis

Mohandas, Bhavna

20 October 2005

No description available.

Fluorescence microscopy

ZnAF-2F

Radioactive Zn2+

Primary cortical neuronal cultures

Nitric oxide

NO

Fluorescent Zn2+ probes

The Influence of 3D Cell Organization in Tumor Spheroid on Natural Killer Cell Infiltration and Migration / Inverkan av 3D-cellorganisation i tumörsfäroid på naturlig mördarcellinfiltration och migration

Morrone, Luigi

January 2020

Natural Killer cells are a type of lymphocyte belonging to the innate immune system and they operate cell-mediated cytotoxicity and release of pro-inflammatory cytokines against cancerous cells. However, in vivo testings have shown a reduced activity of NK cells against solid tumors probably due to the negative influence of the immunosuppressive tumor microenvironment. Multicellular tumor spheroids may constitute an advantageous model in cancer biology for studying the mechanisms behind cancer immune editing since it more closely mimics the complexity of the human body compared with the 2D model counterpart. This study investigated the interaction between NK cells isolated from blood and tumor spheroids obtained from A498 renal carcinoma cells, using light-sheet microscopy imaging which allows satisfactory cell tracking in the inner layers of the spheroids. NK cells not only indeed interact with tumor spheroids, but many of them were able to penetrate the spheroids inducing some changes in the structure of the latter. NK cells were also tracked over time, displaying the migration path and calculating the speed. The fluorescence intensity of the NK cells was found reduced as soon as they penetrate the spheroid but, conversely, the speed seems to increase inside the spheroid, a possible sign of the fallibility of the tracking algorithm in this specific case. We propose solutions for more sophisticated future implementations, involving the use of marks during the experimental phase and drift corrections at the data analysis level.

Natural Killer Cells

Tumor Spheroids

Fluorescence Microscopy

Infiltration

Migration

Killing

Medical Engineering

Medicinteknik

Dynamics of Cell Fate Decisions Mediated by the Interplay of Autophagy and Apoptosis in Cancer Cells:  Mathematical Modeling and Experimental Observations

Tavassoly, Iman

21 August 2013

Autophagy is a conserved biological stress response in mammalian cells that is responsible for clearing damaged proteins and organelles from the cytoplasm and recycling their contents via the lysosomal pathway. In cases where the stress is not too severe, autophagy acts as a survival mechanism. In cases of severe stress, it may lead to programmed cell death. Autophagy is abnormally regulated in a wide-range of diseases, including cancer. To integrate the existing knowledge about this decision process into a rigorous, analytical framework, we built a mathematical model of cell fate decision mediated by autophagy. The model treats autophagy as a gradual response to stress that delays the initiation of apoptosis to give the cell an opportunity to survive. We show that our dynamical model is consistent with existing quantitative measurements of time courses of autophagic responses to cisplatin treatment. To understand the function of this response in cancer cells we have provided a systems biology experimental framework to study dynamical aspects of autophagy in single cancer cells using live-cell imaging and quantitative uorescence microscopy. This framework can provide new insights on function of autophagic response in cancer cells. / Ph. D.

Apoptosis

Autophagy

Cancer

Cell Death

Dynamic Modeling

Live Cell Imaging

Quantitative Fluorescence Microscopy

Single-Cell

Localization of Type IV Pilin Polymerization Proteins in Clostridium perfringens

Nikraftar, Sarah

13 January 2015

Clostridium perfringens is a spore-forming anaerobic Gram-positive rod which has gliding motility through type IV Pili (TFP). Since the discovery of TFP in Gram-positive bacteria is relatively new, more studies are required to understand the mechanism and interaction of the proteins of this machinery. Moreover, the similarities between TFP and type 2 secretion system (T2SS) suggest that C. perfringens has also a T2SS. We studied the localization of TFP ATPases, PilB1, PilB2 and PilT in Bacillus subtilis to compare the localization in an organism other than C. perfringens and which lacks any known genes similar to TFP. Unlike the case in C. perfringens, PilB1 in B. subtilis localized to the poles in the absence of PilT, with some central foci at the future division sites. Colocalization of PilB1 was also studied with PilT and the results suggested that PilB1 needs PilT to migrate from the poles to the center. Localization of PilB2 in B. subtilis, was similar to the results in C. perfringens and to the localization of PilB1 in B. subtilis. We have not been able to co-express PilB2 with PilT yet. Succeeding in this study will help us better understand the interactions between PilB proteins and PilT. In another project, we studied a von Willebrand factor Type A-Domain Containing protein (vWA) which is secreted from C. perfringens strain 13. We overexpressed and purified this protein and tested the effects on mammalian cells. We found that the vWA is probably not a toxin but since it seems to bind to macrophage membranes, we propose that the vWA could be part of a toxin complex, probably the subunit of the complex that binds to the host cells. / Master of Science

Clostridium perfringens

Type IV Pili

Type 2 Secretion System

Fluorescence microscopy

Evaluating histological methods for assessing hair fibre degradation

Wilson, Andrew S., Dodson, Hilary I., Janaway, Robert C., Pollard, A. Mark, Tobin, Desmond J.

January 2010

No / The hair shaft has increasing importance in bioarchaeology, since it is now possible to retrieve detailed biomolecular information on recent life history using individual fibres (e.g., on diet, drug use and DNA). Data on hair condition is an important cornerstone to ensuring that reliable information is obtained. The following study defines morphological features of degradative change in human terminal scalp hair using different microscopy techniques. Evidence of degradative change is translated into a ranked histology for assessing hair sample condition. The approach is applied to samples of cut modern scalp hair subjected to degradation under soil burial/simulated grave conditions.

Histological methods

Hair fibre degradation

Hair shaft

Bioarchaeology

Forensic taphonomy

Keratin

Fluorescence microscopy

Microelectrode and MicroLED Arrays for Neural Applications

Kumar, Vikrant

January 2024

Advancements in neural interfacing technologies, such as microelectrode arrays, have significantly contributed to understanding brain function and treating neurological disorders. Decoding the intricacies and functioning of neural circuits is key to further unlocking its potential. Two key approaches, electrical neural recording and optical imaging, have been the basis of stimulating and monitoring neural circuits. Despite the remarkable progress, several key issues such as reliable stimulation of neurons, closed-loop stimulation and monitoring, and undesired background fluorescence during widefield optical imaging remain challenging. After giving a brief background on electrode and microLED arrays, the dissertation delves into the design, microfabrication, and characterization of microelectrode arrays for neural electrical stimulation, recordings, and microLED arrays as a light source for improving optical microscopy. We first discuss a dense conformal electrode array for high spatial resolution stimulation in electrosensory systems. The performance metrics of the integrated system are thoroughly examined through meticulous characterization and optimization processes. Special emphasis is placed on evaluating biocompatibility, electrical properties, and spatial resolution to ensure robust and reliable neural stimulation capability. Next, we discuss a microelectrode device that combines simultaneous electrical recording and 2-photon imaging. We use an Indium Tin Oxide (ITO) material to fabricate a transparent electrode array with a design capable of single neuron recordings. The design, microfabrication, and electrooptical characterization are presented to demonstrate the device’s capability. A system integrating the array with a GRIN lens is also presented to record and image deeper into the brain tissue. Combining both the electrical and optical recordings of neuron ensembles and finding correlations can shed further light on the functioning of neural circuits. To address the problem of unwanted background fluorescence during neural cell imaging, two microLED arrays as light sources are presented. With a microstripe array, we implement optical sectioning structured illumination microscopy (OS-SIM), and with the 2D microLED array, we implemented targeted illumination to reject background fluorescence and improve contrast. We examine the capability of the microLED as a light source with luminance-current-voltage, directivity, and transient measurements. Both implementations highlight the novel non-display application of microLED to address challenges in neural imaging. This research represents a significant contribution to the burgeoning field of neural engineering, offering novel methodologies and technologies that promise to revolutionize our approach to understanding brain functions.

Electrical engineering

Brain--Imaging

Nervous system--Diseases--Treatment

Microscopy

Neurons

Photonics

Indium tin oxide

Fluorescence microscopy

Development of Enhanced Molecular Diagnostic Tools for Protein Detection and Analysis

Ebai, Tonge

January 2017

Improved diagnosis, prognosis and disease follow-up is a fundamental procedure and a constant challenge in medicine.  Among the different molecular biomarkers, proteins are the essential regulatory component in blood; hence, by developing enhanced specific and sensitive molecular tools will gives great insight into the different processes in disease treatment.  In this thesis, we build on the proximity ligation assay to develop and apply new adaptable methods to facilitate protein detection. In paper I, I present a variant of the proximity ligation assay (we call PLARCA) using micro titer plate for detection and quantification of protein using optical density as readout in the fluorometer. PLARCA detected femtomolar levels of these proteins in patient samples, which was considerably below the detection threshold for ELISA. In paper II, we developed and adapted a new method into the in situ PLA methods for detection and identification of extracellular vesicles (EVs) using flow cytometry as readout (a method we call ExoPLA).  We identified five target proteins on the surface of the Evs and using three colors, we identified the EV using flow cytometer. In paper III, we aim to improve the efficiency of in situ PLA by creating and developing new designs and versions of the assay we called Unfold probes Through comparison of detection of protein using in situ PLA versus Unfold probes, we observed considerable decrease in non-specific signals, and also a lower detection threshold. In paper IV, we describe the development of a solid phase proximity extension (sp-PEA) assay for protein detection and quantification. We compared detection of IL-8, TNF-alpha, IL-10 and IL-6 using spPEA and PEA; spPEA demonstrations over 2 orders of magnitudes in the lower detection concentrations by decreased in background noise.

protein detection

proximity ligation assays

proximity extension assay

rolling circle amplification

ELISA

flow cytometry

fluorescence microscopy

Medical Biotechnology

Medicinsk bioteknologi