Jonie Deleon scite author profile

Jonie Deleon

2Publications

2Citation Statements Received

16Citation Statements Given

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California State University, Northridge

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A Kinetic Assay for Drug Discovery: Part 2, Sodium Sulfate

Crocker¹,

Deleon²,

Telliyan³

et al. 2020

AJASR

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Clumped cells are generally more dangerous than single cells in cancer spread, thrombocytosis and biofilm infectivity. Here a simple direct kinetic assay is used to examine a specific reagent for anti-clumping activity using a Prefer fixed yeast (Saccharomyces cerevisiae) model that has been recently described by us in detail using other reagents. In 1212 trials by 17 investigators sodium sulfate (1-3 mg per ml deionized water) was examined by measuring percentage single cells, number of clumps and number of cells per clump over a 60 min time course, with standard deviations and t-tests to determine any significant differences between controls and experimentals. Sodium sulfate showed sometimes inconsistent unclumping activity especially in magnitude of effects. When percentage of single cells increased, clump number and/or number of cells per clump generally decreased, helping to validate the assay. An example of these findings in 60 trials at 60 min with 1-3 mg sodium sulfate per ml deionized water: 1 mg 15% increased singles (p<0.01), 29% decreased clumps (p<0.01), 11% decreased cells per clump (p>0.05); 2 mg 12% increased singles (p<0.01), 20% decreased clumps (p<0.01), 30% decreased cells per clump (p<0.01); 3 mg 27% increased singles (p<0.01), 36% decreased clumps (p<0.01), 28% decreased cells per clump (p<0.02). Here sodium sulfate showed promise as an anti-cell-clumping reagent together with sodium citrate reported previously in part 1 of this study. Sodium citrate is a known human anticoagulant independently identified with this assay, helping to validate the assay for drug discovery applications.

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Cell Unclumping Assay in Drug Discovery: Sodium Sulfate

et al. 2020

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Clumped cells are generally more dangerous than single cells in cancer spread, thrombocytosis and biofilm infectivity. Here a simple 3 component direct kinetic assay is used to examine 2 reagents for anti‐clumping activity using a Prefer (Anatech Ltd., Battle Creek, MI) fixed yeast (Saccharomyces cerevisiae) model that has been recently described by us in detail using other reagents (Amer J Applied Scientific Research 5:28–34 March 2019). In 1212 trials by 17 investigators sodium sulfate and sodium bicarbonate (1–3 mg per ml deionized water) were examined by measuring percentage single cells, number of clumps and number of cells per clump over a 60 min time course, with standard deviations and t‐tests to determine any significant differences between controls and experimentals. Both reagents showed sometimes inconsistent unclumping activity especially in magnitude of effects. When percentage of single cells increased, clump number and/or number of cells per clump generally decreased, helping to validate the assay. An example of these findings in 60 trials at 60 min with 1–3 mg sodium sulfate per ml deionized water: 1 mg 15% increased singles (p<0.01), 29% decreased clumps (p<0.01), 11% decreased cells per clump (p>0.05); 2 mg 12% increased singles (p<0.01), 20% decreased clumps (p<0.01), 30% decreased cells per clump (p<0.01); 3 mg 27% increased singles (p<0.01), 36% decreased clumps (p<0.01), 28 % decreased cells per clump (p<0.02). Here sodium sulfate showed promise as an anti‐cell‐clumping reagent together with sodium citrate reported previously (Amer J Applied Scientific Research 5: 28–34 March 2019). Sodium citrate is a known human anticoagulant (Platelets 29 (2018) 21–26) independently identified with this assay, helping to validate the assay for drug discovery applications. Support or Funding Information Supported by California State University, Northridge, Department of Biology and Center for Cancer and Developmental Biology

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Jonie Deleon

A Kinetic Assay for Drug Discovery: Part 2, Sodium Sulfate

Cell Unclumping Assay in Drug Discovery: Sodium Sulfate

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