Your search keyword '"Caitlin L Johnston"' showing total 6 results

1. An α-Cyanostilbene Derivative for the Enhanced Detection and Imaging of Amyloid Fibril Aggregates

Author

Kelly M Wray, Yuning Hong, Nicholas R Marzano, Heath Ecroyd, Bishnu P. Paudel, Caitlin L Johnston, and Antoine M. van Oijen

Subjects

Amyloid, Physiology, Cognitive Neuroscience, macromolecular substances, Protein aggregation, Fibril, Biochemistry, Fluorescence, 03 medical and health sciences, symbols.namesake, chemistry.chemical_compound, 0302 clinical medicine, Stokes shift, Benzothiazoles, Fluorescent Dyes, 030304 developmental biology, 0303 health sciences, Total internal reflection fluorescence microscope, Acrylonitrile, Chemistry, Cell Biology, General Medicine, Single-molecule experiment, 3. Good health, alpha-Synuclein, symbols, Biophysics, Thioflavin, 030217 neurology & neurosurgery

Abstract

The aggregation of proteins into amyloid fibrils has been implicated in the pathogenesis of a variety of neurodegenerative diseases, including Alzheimer's disease and Parkinson's disease. Benzothiazole dyes such as Thioflavin T (ThT) are well-characterized and widely used fluorescent probes for monitoring amyloid fibril formation. However, existing dyes lack sensitivity and specificity to oligomeric intermediates formed during fibril formation. In this work, we describe the use of an α-cyanostilbene derivative (called ASCP) with aggregation-induced emission properties as a fluorescent probe for the detection of amyloid fibrils. Similar to ThT, ASCP is fluorogenic in the presence of amyloid fibrils and, upon binding and excitation at 460 nm, produces a red-shifted emission with a large Stokes shift of 145 nm. ASCP has a higher binding affinity to fibrillar α-synuclein than ThT and likely shares the same binding sites to amyloid fibrils. Importantly, ASCP was found to also be fluorogenic in the presence of amorphous aggregates and can detect oligomeric species formed early during aggregation. Moreover, ASCP can be used to visualize fibrils via total internal reflection fluorescence microscopy and, due to its large Stokes shift, simultaneously monitor the fluorescence emission of other labelled proteins following excitation with the same laser used to excite ASCP. Consequently, ASCP possesses enhanced and unique spectral characteristics compared to ThT that make it a promising alternative for the in vitro study of amyloid fibrils and the mechanisms by which they form.

Published

2020

2. Single-molecule fluorescence-based approach reveals novel mechanistic insights into human small heat shock protein chaperone function

Author

Caitlin L. Johnston, Antoine M. van Oijen, Justin L. P. Benesch, Heath Ecroyd, Nicholas R. Marzano, Bishnu P. Paudel, and George G. Wright

Subjects

0301 basic medicine, Protein Folding, SOD1, superoxide dismutase 1, Gene Expression, Protein aggregation, Biochemistry, Is-mean, mean intensity of a single photobleaching event, TIRF, total internal reflection fluorescence, Fluorescence Resonance Energy Transfer, Cloning, Molecular, biology, Chemistry, OSS, oxygen scavenger system, FPP, fluorescently-labeled proteins per point, CLIC1, chloride intracellular channel 1, Single-molecule FRET, molecular chaperone, Carbocyanines, Single-molecule experiment, Recombinant Proteins, Single Molecule Imaging, Solutions, I0, initial fluorescence intensity, Protein folding, αBc, αB-crystallin, Intracellular, sHsp, small heat shock protein, Research Article, proteostasis, protein homeostasis, Protein Binding, Genetic Vectors, chloride intracellular channel 1, total internal reflection fluorescence microscopy, Is, fluorescent intensity of each single-photobleaching event, protein aggregation, 03 medical and health sciences, Chloride Channels, Heat shock protein, mass photometry, GST, glutathione-S-transferase, Escherichia coli, Humans, oligomers, Molecular Biology, Fluorescent Dyes, smFRET, single-molecule FRET, protein complexes, Binding Sites, 030102 biochemistry & molecular biology, Staining and Labeling, Rhodamines, alpha-Crystallin B Chain, Cell Biology, alphaB-crystallin, 030104 developmental biology, Proteostasis, Chaperone (protein), biology.protein, Biophysics, Sulfonic Acids

Abstract

Small heat shock proteins (sHsps) are a family of ubiquitous intracellular molecular chaperones; some sHsp family members are upregulated under stress conditions and play a vital role in protein homeostasis (proteostasis). It is commonly accepted that these chaperones work by trapping misfolded proteins to prevent their aggregation; however, fundamental questions regarding the molecular mechanism by which sHsps interact with misfolded proteins remain unanswered. The dynamic and polydisperse nature of sHsp oligomers has made studying them challenging using traditional biochemical approaches. Therefore, we have utilized a single-molecule fluorescence-based approach to observe the chaperone action of human alphaB-crystallin (αBc, HSPB5). Using this approach we have, for the first time, determined the stoichiometries of complexes formed between αBc and a model client protein, chloride intracellular channel 1. By examining the dispersity and stoichiometries of these complexes over time, and in response to different concentrations of αBc, we have uncovered unique and important insights into a two-step mechanism by which αBc interacts with misfolded client proteins to prevent their aggregation.

Published

2020

3. An α-cyanostilbene derivative for the enhanced detection and imaging of amyloid fibril aggregates

Author

Nicholas R Marzano, Yuning Hong, Caitlin L Johnston, Antoine M. van Oijen, Bishnu P. Paudel, Kelly M Wray, and Heath Ecroyd

Subjects

Total internal reflection fluorescence microscope, Chemistry, macromolecular substances, Fibril, Fluorescence, symbols.namesake, chemistry.chemical_compound, Benzothiazole, Stokes shift, Microscopy, symbols, Biophysics, Thioflavin, Binding site

Abstract

The aggregation of proteins into amyloid fibrils has been implicated in the pathogenesis of a variety of neurodegenerative diseases, including Alzheimer’s and Parkinson’s disease. Benzothiazole dyes such as Thioflavin T (ThT) are well characterised and widely used fluorescent probes for monitoring amyloid fibril formation. However, existing dyes lack sensitivity and specificity to oligomeric intermediates formed during fibril formation. In this work we describe the use of an α-cyanostilbene derivative with aggregation-induced emission properties (called ASCP) as a fluorescent probe for the detection of amyloid fibrils. Similar to ThT, ASCP is fluorogenic in the presence of amyloid fibrils and upon binding and excitation at 460 nm produces a red-shifted emission with a large Stokes shift of 145 nm. ASCP has a higher binding affinity to fibrillar α-synuclein than ThT and likely shares the same binding sites to amyloid fibrils. Importantly, ASCP was found to also be fluorogenic in the presence of amorphous aggregates and can detect oligomeric species formed early during aggregation. Moreover, ASCP can be used to visualise fibrils via Total Internal Reflection Fluorescence (TIRF) microscopy and, due to its large Stokes shift, simultaneously monitor the fluorescence emission of other labelled proteins following excitation with the same laser used to excite ASCP. Consequently, ASCP possesses enhanced and unique spectral characteristics compared to ThT that make it a promising alternative for the in vitro study of amyloid fibrils and the mechanisms by which they form.

Published

2020

4. Single-molecule fluorescence-based approach reveals novel mechanistic insights into small heat shock protein chaperone function

Author

Caitlin L. Johnston, George G. Wright, Heath Ecroyd, Antoine M. van Oijen, Justin L. P. Benesch, Bishnu P. Paudel, and Nicholas R. Marzano

Subjects

Proteostasis, biology, Chemistry, Chaperone (protein), Heat shock protein, Biophysics, biology.protein, Molecular mechanism, Protein folding, Single-molecule experiment, Small Heat-Shock Proteins, Intracellular

Abstract

Small heat shock proteins (sHsps) are a family of ubiquitous intracellular molecular chaperones that are up-regulated under stress conditions and play a vital role in protein homeostasis (proteostasis). It is commonly accepted that these chaperones work by trapping misfolded proteins to prevent their aggregation, however fundamental questions regarding the molecular mechanism by which sHsps interact with misfolded proteins remain unanswered. Traditionally, it has been difficult to study sHsp function due to the dynamic and heterogenous nature of the species formed between sHsps and aggregation-prone proteins. Single-molecule techniques have emerged as a powerful tool to study dynamic protein complexes and we have therefore developed a novel single-molecule fluorescence-based approach to observe the chaperone action of human αB-crystallin (αBc, HSPB5). Using this approach we have, for the first time, determined the stoichiometries of complexes formed between αBc and a model client protein, chloride intracellular channel 1 (CLIC1). By examining the polydispersity and stoichiometries of these complexes over time, and in response to different concentrations of αBc, we have uncovered unique and important insights into a two-step mechanism by which αBc interacts with misfolded client proteins to prevent their aggregation. Understanding this fundamental mechanism of sHsp action is crucial to understanding how these molecular chaperone function to protect the cell from protein misfolding and their overall role in the cellular proteostasis network.

Published

2020

5. Using Single-Molecule Approaches to Understand the Molecular Mechanisms of Heat-Shock Protein Chaperone Function

Author

Caitlin L Johnston, Nicholas R Marzano, Heath Ecroyd, and Antoine M. van Oijen

Subjects

0301 basic medicine, Protein Folding, biology, Computer science, Computational biology, Protein Homeostasis, Single Molecule Imaging, Molecular machine, 03 medical and health sciences, Adenosine Triphosphate, 030104 developmental biology, Structural Biology, Heat shock protein, Chaperone (protein), biology.protein, Animals, Humans, Protein Interaction Maps, Molecular Biology, Heat-Shock Proteins, Molecular Chaperones, Protein Binding

Abstract

The heat-shock proteins (Hsp) are a family of molecular chaperones, which collectively form a network that is critical for the maintenance of protein homeostasis. Traditional ensemble-based measurements have provided a wealth of knowledge on the function of individual Hsps and the Hsp network; however, such techniques are limited in their ability to resolve the heterogeneous, dynamic and transient interactions that molecular chaperones make with their client proteins. Single-molecule techniques have emerged as a powerful tool to study dynamic biological systems, as they enable rare and transient populations to be identified that would usually be masked in ensemble measurements. Thus, single-molecule techniques are particularly amenable for the study of Hsps and have begun to be used to reveal novel mechanistic details of their function. In this review, we discuss the current understanding of the chaperone action of Hsps and how gaps in the field can be addressed using single-molecule methods. Specifically, this review focuses on the ATP-independent small Hsps and the broader Hsp network and describes how these dynamic systems are amenable to single-molecule techniques.

Published

2018

6. Offer of financial incentives for unprotected sex in the context of sex work

Author

Caitlin L, Johnston, Cody, Callon, Kathy, Li, Evan, Wood, and Thomas, Kerr

Subjects

Adult, Male, British Columbia, Unsafe Sex, Economics, Substance-Related Disorders, HIV Infections, Sex Work, Article, Cohort Studies, Condoms, Young Adult, Risk-Taking, HIV Seropositivity, Multivariate Analysis, Humans, Female, Longitudinal Studies

Abstract

Commercial sex workers (CSW) are often portrayed as vectors of disease transmission. However, the role clients play in sexual risk taking and related decision making has not been thoroughly characterised.Participants were drawn from the Vancouver Injection Drug Users Study, a longitudinal cohort. Analyses were restricted to those who reported selling sex between June 2001 and December 2005. Using multivariate generalised estimating equation, we evaluated the prevalence of and factors associated with being offered money for sex without a condom.A total of 232 CSW were included in the analyses, with 73.7% reporting being offered more money for condom non-use, and 30.6% of these CSW accepting. Variables independently associated with being offered money for sex without a condom included daily speedball use [adjusted odds ratio (AOR) = 1.21, 95% confidence interval (CI): 0.23-0.62], daily crack smoking (AOR = 1.51, 95% CI: 1.04-2.19), daily heroin injection (AOR = 1.76, 95% CI: 1.27-2.43) and drug use with clients (AOR = 3.22, 95% CI: 2.37-4.37). Human immunodeficiency virus seropositivity was not significant (AOR = 0.98, 95% CI: 0.67-1.44).Findings highlight the role clients play in contributing to unprotected sex through economic influence and exploitation of CSW drug use. HIV serostatus has no bearing on whether more money is offered for sex without a condom. Novel interventions should target both CSW and clients.

Published

2010