Publications by authors named "Frances A Brook"

We compared commonly used BAPTA-derived chemical Ca dyes (fura2, Fluo-4, and Rhod-2) with a newer genetically encoded indicator (R-GECO) in single cell models of the heart. We assessed their performance and effects on cardiomyocyte contractility, determining fluorescent signal-to-noise ratios and sarcomere shortening in primary ventricular myocytes from adult mouse and guinea pig, and in human iPSC-derived cardiomyocytes. Chemical Ca dyes displayed dose-dependent contractile impairment in all cell types, and we observed a negative correlation between contraction and fluorescence signal-to-noise ratio, particularly for fura2 and Fluo-4.

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Rationale: Subcellular Ca indicators have yet to be developed for the myofilament where disease mutation or small molecules may alter contractility through myofilament Ca sensitivity. Here, we develop and characterize genetically encoded Ca indicators restricted to the myofilament to directly visualize Ca changes in the sarcomere.

Objective: To produce and validate myofilament-restricted Ca imaging probes in an adenoviral transduction adult cardiomyocyte model using drugs that alter myofilament function (MYK-461, omecamtiv mecarbil, and levosimendan) or following cotransduction of 2 established hypertrophic cardiomyopathy disease-causing mutants (cTnT [Troponin T] R92Q and cTnI [Troponin I] R145G) that alter myofilament Ca handling.

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Identification of drug induced electrical instability of the heart curtails development, and introduction, of potentially proarrhythmic drugs. This problem usually requires complimentary contact based approaches such as patch-clamp electrophysiology combined with field stimulation electrodes to observe and control the cell. This produces data with high signal to noise but requires direct physical contact generally preventing high-throughput, or prolonged, phenotyping of single cells or tissues.

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Experimental manipulation of hESCs has been hampered by their fragility and susceptibility to apoptosis when dissociated into single cells. The OxF lines are particularly robust and may be successfully passaged as single cells, with the inclusion of ROCK inhibitor in the medium. The protocols here describe the enzymatic dissociation of hESCs into a single-cell suspension and the plating of these cells onto either feeder cells or a protein-coated surface.

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OxF1 is a human embryonic stem cell line derived from a surplus embryo donated through the Oxford IVF clinic. The cells have a stable 46 XX karyotype and show expression of Oct 4, Nanog and TRA-1-60. Embryoid bodies differentiate into cells that represent all three germ layers as demonstrated by immunohistochemical localisation of beta III tubulin, nestin, desmin, smooth muscle actin, Gata 6 and cytokeratin 18.

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The mammalian gonad arises as a bipotential primordium from which a testis or ovary develops depending on the chromosomal sex of the individual. We have previously used DNA microarrays to screen for novel genes controlling the developmental fate of the indifferent embryonic mouse gonad. Maestro (Mro), which encodes a HEAT-repeat protein, was originally identified as a gene exhibiting sexually dimorphic expression during mouse gonad development.

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Although human embryonic stem (ES) cells may one day provide a renewable source of tissues for cell replacement therapy (CRT), histoincompatibility remains a significant barrier to their clinical application. Current estimates suggest that surprisingly few cell lines may be required to facilitate rudimentary tissue matching. Nevertheless, the degree of disparity between donor and recipient that may prove acceptable, and the extent of matching that is therefore required, remain unknown.

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The application of human embryonic stem (ES) cells in medicine and biology has an inherent reliance on understanding the starting cell population. Human ES cells differ from mouse ES cells and the specific embryonic origin of both cell types is unclear. Previous work suggested that mouse ES cells could only be obtained from the embryo before implantation in the uterus.

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It would be extremely advantageous to the analysis of disease mechanisms in the spontaneous mouse model of type 1 diabetes, the nonobese diabetic (NOD) strain, if genes in this strain could be modified in vivo using embryonic stem (ES) cells and homologous recombination. However, a NOD ES cell line with adequate germline transmission has not yet been reported. We report the development of highly germline-competent ES cell lines from the F1 hybrid of NOD and 129 for use in NOD gene targeting.

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