Mike Whitney scite author profile

Proximal spinal muscular atrophy (SMA) is a common motor neuron disorder caused by mutation of the telomeric survival of motor neuron gene SMN1. The centromeric survival of motor neuron SMN2 gene is retained in all SMA patients but does not produce sufficient SMN protein to prevent the development of clinical symptoms. The SMN1 and SMN2 genes differ functionally by a single nucleotide change. This change affects the efficiency with which exon 7 is incorporated into the mRNA transcript. Thus, SMN2 produces less full-length mRNA and protein than SMN1. We have screened a library of compounds in order to identify ones that can alter the splicing pattern of the SMN2 gene. Here, we report that the compound aclarubicin increases the retention of exon 7 into the SMN2 transcript. We show that aclarubicin effectively induces incorporation of exon 7 into SMN2 transcripts from the endogenous gene in type I SMA fibroblasts as well as into transcripts from a SMN2 minigene in the motor neuron cell line NSC34. In type I fibroblasts, treatment resulted in an increase in SMN protein and gems to normal levels. Our results suggest that alteration of splicing pattern represents a new approach to modification of gene expression in disease treatment and demonstrate the feasibility of high throughput screens to detect compounds that affect the splicing pattern of a gene.

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A genome-wide functional assay of signal transduction in living mammalian cells

Whitney¹,

Rockenstein²,

Cantin³

et al. 1998

Nat Biotechnol

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We describe a genome-wide functional assay for rapid isolation of cell clones and genetic elements responsive to specific stimuli. A promoterless beta-lactamase reporter gene was transfected into a human T-cell line to generate a living library of reporter-tagged clones. When loaded with a cell-permeable fluorogenic substrate, the cell library simultaneously reports the expression of a large number of endogenous genes. Flow cytometry was used to recover individual clones whose reporter-tagged genes were either induced or repressed following T-cell activation. Responsive clones were expanded and analyzed pharmacologically to identify patterns of regulation associated with specific genes. Although demonstrated using T cells, the genomic assay could be applied to map downstream transcriptional consequences for any propagating cell line in response to any stimulus of interest.

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A Collaborative Screening Program for the Discovery of Inhibitors of HCV NS2/3 cis-Cleaving Protease Activity

Whitney¹,

Stack²,

Darke

et al. 2002

J Biomol Screen

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This report describes the development of a cell-based assay for high-throughput screening and detection of small-molecule inhibitors for hepatitis C virus (HCV) NS2/3 protease. The HCV NS2/3 protease is essential for the normal infectious cycle of HCV. Generation of a cell-based assay for this cis-acting viral protease involved reporter constructs in which the NS2/3 protease sequence was inserted between the ,B-lactamase (BLA) reporter and a ubiquitin-based destabilization domain. In stable cell lines, NS2/3 cis cleavage of the NS2/3-BLA fusion protein resulted in differential stability of the cleaved versus uncleaved BLA reporter, providing a robust readout for protease activity. BLA reporter activity was shown to be a function of NS2/3-specific protease activity, by using genetic mutants of the NS2/3 sequence. In addition, the cell-based assay was validated and screened in a 384-well format on a fully automated robotic platform where small-molecule inhibitors of NS2/3 protease activity were identified.

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Cellular Therapies for Myocardial Infarct Repair

Murry¹,

Whitney²,

Laflamme³

et al. 2002

Cold Spring Harbor Symposia on Quantitative Biology

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A Collaborative Screening Program for the Discovery of Inhibitors of HCV NS2/3 cis-Cleaving Protease Activity

Whitney¹,

Stack²,

Darke

et al. 2002

SLAS Discovery

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Mike Whitney

Aclarubicin treatment restores SMN levels to cells derived from type I spinal muscular atrophy patients

A genome-wide functional assay of signal transduction in living mammalian cells

A Collaborative Screening Program for the Discovery of Inhibitors of HCV NS2/3 cis-Cleaving Protease Activity

Cellular Therapies for Myocardial Infarct Repair

A Collaborative Screening Program for the Discovery of Inhibitors of HCV NS2/3 cis-Cleaving Protease Activity

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