Andrew L. Niles scite author profile

The therapeutic action of drugs is predicated on their physical engagement with cellular targets. Here we describe a broadly applicable method using bioluminescence resonance energy transfer (BRET) to reveal the binding characteristics of a drug with selected targets within intact cells. Cell-permeable fluorescent tracers are used in a competitive binding format to quantify drug engagement with the target proteins fused to Nanoluc luciferase. The approach enabled us to profile isozyme-specific engagement and binding kinetics for a panel of histone deacetylase (HDAC) inhibitors. Our analysis was directed particularly to the clinically approved prodrug FK228 (Istodax/Romidepsin) because of its unique and largely unexplained mechanism of sustained intracellular action. Analysis of the binding kinetics by BRET revealed remarkably long intracellular residence times for FK228 at HDAC1, explaining the protracted intracellular behaviour of this prodrug. Our results demonstrate a novel application of BRET for assessing target engagement within the complex milieu of the intracellular environment.

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Homogeneous Multiwell Assays for Measuring Cell Viability, Cytotoxicity, and Apoptosis

Hawkins¹,

O‚ÄôBrien²,

Niles³

et al. 2006

246

219

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Elevated Tryptase, Nerve Growth Factor, Neurotrophin-3 and Glial Cell Line-Derived Neurotrophic Factor Levels in the Urine of Interstitial Cystitis and Bladder Cancer Patients

Okragly¹,

Niles²,

Saban³

et al. 1999

Journal of Urology

195

128

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These findings may account for several clinical and pathological features found in interstitial cystitis and bladder cancer. Although preliminary due to the limited numbers of patients, they also suggest that increased levels of neurotrophin-3, nerve growth factor, glial cell line-derived neurotrophic factor and tryptase in the urine could serve as a basis for adjunct diagnosis, monitoring and treatment of interstitial cystitis.

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In Vitro Viability and Cytotoxicity Testing and Same-Well Multi-Parametric Combinations for High Throughput Screening

Niles¹,

Moravec²,

Riss³

2009

Curr Chem Genomics

120

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In vitro cytotoxicity testing has become an integral aspect of drug discovery because it is a convenient, costeffective, and predictive means of characterizing the toxic potential of new chemical entities. The early and routine implementation of this testing is testament to its prognostic importance for humans. Although a plethora of assay chemistries and methods exist for 96-well formats, few are practical and sufficiently sensitive enough for application in high throughput screening (HTS). Here we briefly describe a handful of the currently most robust and validated HTS assays for accurate and efficient assessment of cytotoxic risk. We also provide guidance for successful HTS implementation and discuss unique merits and detractions inherent in each method. Lastly, we discuss the advantages of combining specific HTS compatible assays into multi-parametric, same-well formats.

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A homogeneous assay to measure live and dead cells in the same sample by detecting different protease markers

Niles

Moravec

Hesselberth

et al. 2007

Analytical Biochemistry

143

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Andrew L. Niles

Target engagement and drug residence time can be observed in living cells with BRET

Homogeneous Multiwell Assays for Measuring Cell Viability, Cytotoxicity, and Apoptosis

Elevated Tryptase, Nerve Growth Factor, Neurotrophin-3 and Glial Cell Line-Derived Neurotrophic Factor Levels in the Urine of Interstitial Cystitis and Bladder Cancer Patients

In Vitro Viability and Cytotoxicity Testing and Same-Well Multi-Parametric Combinations for High Throughput Screening

A homogeneous assay to measure live and dead cells in the same sample by detecting different protease markers

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