Chelsea Pilgrim scite author profile

Chelsea Pilgrim

4Publications

26Citation Statements Received

91Citation Statements Given

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Affiliations

University of Sydney, UNSW Sydney

Publications

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Studies of Hematopoietic Cell Differentiation with a Ratiometric and Reversible Sensor of Mitochondrial Reactive Oxygen Species

Kaur

Jankowska

Pilgrim

et al. 2016

Antioxidants & Redox Signaling

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Aims: Chronic elevations in cellular redox state are known to result in the onset of various pathological conditions, but transient increases in reactive oxygen species (ROS)/reactive nitrogen species (RNS) are necessary for signal transduction and various physiological functions. There is a distinct lack of reversible fluorescent tools that can aid in studying and unraveling the roles of ROS/RNS in physiology and pathology by monitoring the variations in cellular ROS levels over time. In this work, we report the development of ratiometric fluorescent sensors that reversibly respond to changes in mitochondrial redox state. Results: Photophysical studies of the developed flavin-rhodamine redox sensors, flavin-rhodamine redox sensor 1 (FRR1) and flavin-rhodamine redox sensor 2 (FRR2), confirmed the reversible response of the probes upon reduction and re-oxidation over more than five cycles. The ratiometric output of FRR1 and FRR2 remained unaltered in the presence of other possible cellular interferants (metals and pH). Microscopy studies indicated clear mitochondrial localization of both probes, and FRR2 was shown to report the time-dependent increase of mitochondrial ROS levels after lipopolysaccharide stimulation in macrophages. Moreover, it was used to study the variations in mitochondrial redox state in mouse hematopoietic cells at different stages of embryonic development and maturation. Innovation: This study provides the first ratiometric and reversible probes for ROS, targeted to the mitochondria, which reveal variations in mitochondrial ROS levels at different stages of embryonic and adult blood cell production. Conclusions: Our results suggest that with their ratiometric and reversible outputs, FRR1 and FRR2 are valuable tools for the future study of oxidative stress and its implications in physiology and pathology. Antioxid. Redox Signal. 24, 667-679.

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Intracellular flow cytometric lipid analysis – a multiparametric system to assess distinct lipid classes in live cells

Boumelhem

Pilgrim

Zwicker

et al. 2021

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The lipid content of mammalian cells varies greatly between cell type. Current methods for analysing lipid components of cells are technically challenging and destructive. Here, we report a facile, inexpensive method to identify lipid content: intracellular flow cytometric lipid analysis (IFCLA). Distinct lipid classes can be distinguished by Nile Blue, Nile Red fluorescence or violet autofluorescence. Nile Blue is fluorescent in the presence of unsaturated fatty acids with a carbon chain length greater than 16. Cis-configured fatty acids induce greater Nile Blue fluorescence than their trans-configured counterparts. In contrast, Nile Red exhibits greatest fluorescence in the presence of cholesterol, cholesteryl esters, some triglycerides and phospholipids. Multiparametric SPADE analysis of hepatic cellular lipid distribution including Vitamin A autofluorescence is presented. This flow cytometric system allows for the rapid, inexpensive, non-destructive identification of lipid content and highlights the differences in lipid biology between cell types by imaging and flow cytometry.

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Surface CD45 expression levels distinguish normal erythroblasts from stress erythroblasts during haemolytic anaemia and pregnancy-induced anaemia

Colonne

Yao

Pilgrim

et al. 2015

Experimental Hematology

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Hematopoiesis and Regenerative Medicine

Colonne¹,

Antas²,

Yeo³

et al. 2017

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Chelsea Pilgrim

Studies of Hematopoietic Cell Differentiation with a Ratiometric and Reversible Sensor of Mitochondrial Reactive Oxygen Species

Intracellular flow cytometric lipid analysis – a multiparametric system to assess distinct lipid classes in live cells

Surface CD45 expression levels distinguish normal erythroblasts from stress erythroblasts during haemolytic anaemia and pregnancy-induced anaemia

Hematopoiesis and Regenerative Medicine

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