Abstract 6489: Paradoxical activation of kinases occurs directly with ATP-competitive kinase inhibitors and is observable biochemically at physiologically relevant drug concentrations
The sequencing of the Strongylocentrotus purpuratus genome provides a unique opportunity to inves... more The sequencing of the Strongylocentrotus purpuratus genome provides a unique opportunity to investigate the function and evolution of neural genes. The neurobiology of sea urchins is of particular interest because they have a close phylogenetic relationship with chordates, yet a distinctive pentaradiate body plan and unusual neural organization. Orthologues of transcription factors that regulate neurogenesis in other animals have been identified and several are expressed in neurogenic domains before gastrulation indicating that they may operate near the top of a conserved neural gene regulatory network. A family of genes encoding voltage-gated ion channels is present but, surprisingly, genes encoding gap junction proteins (connexins and pannexins) appear to be absent. Genes required for synapse formation and function have been identified and genes for synthesis and transport of neurotransmitters are present. There is a large family of G-protein-coupled receptors, including 874 rhodopsin-type receptors, 28 metabotropic glutamate-like receptors and a remarkably expanded group of 161 secretin receptor-like proteins. Absence of cannabinoid, lysophospholipid and melanocortin receptors indicates that this group may be unique to chordates. There are at least 37 putative G-protein-coupled peptide receptors and precursors for several neuropeptides and peptide hormones have been identified, including SALMFamides, NGFFFamide, a vasotocin-like peptide, glycoprotein hormones and insulin/insulin-like growth factors. Identification of a neurotrophin-like gene and Trk receptor in sea urchin indicates that this neural signaling system is not unique to chordates. Several hundred chemoreceptor genes have been predicted using several approaches, a number similar to that for other animals. Intriguingly, genes encoding homologues of rhodopsin, Pax6 and several other key mammalian retinal transcription factors are expressed in tube feet, suggesting tube feet function as photosensory organs. Analysis of the sea urchin genome presents a unique perspective on the evolutionary history of deuterostome nervous systems and reveals new approaches to investigate the development and neurobiology of sea urchins.
The mechanisms by which gene expression patterns emerge during evolution are poorly understood. T... more The mechanisms by which gene expression patterns emerge during evolution are poorly understood. The sea urchin spec genes offer a useful means to investigate evolutionary mechanisms. Genes of the spec family from Strongylocentrotus purpuratus and Lytechinus pictus have identical patterns of aboral ectoderm-specific expression but exhibit species-specific differences in copy number, genomic structure, temporal expression, and cis-regulatory architecture. Here, we identify spec genes from a phylogenetic intermediate, Strongylocentrotus franciscanus, to gain insight into the evolution of the spec gene family and its transcriptional regulation. We identified two spec genes in the S. franciscanus genome, sfspec1a and sfspec1b, that were orthologous to spec1 from S. purpuratus. sfspec1b transcripts began to accumulate at the blastula stage and became progressively more abundant; this was reminiscent of spec expression in L. pictus but different from that in S. purpuratus. As expected, sfspec1b expression was restricted to aboral ectoderm cells. The six-exon structure of the sfspec1b genomic locus was identical to that of the S. purpuratus spec genes and was bounded by two repeatspacer-repeat (RSR) repetitive sequence elements, which are conserved features of S. purpuratus spec genes and function as transcriptional enhancers. The enhancer activity of the sfspec1b RSRs was comparable to that of their S. purpuratus counterparts, although the placement and orientation of crucial cis-regulatory elements within the RSRs differed. We discovered a spec gene in S. franciscanus that was only distantly related to other spec genes but was highly conserved in S. purpuratus. Unexpectedly, this gene was expressed exclusively in endoderm lineages. Our results show that the evolution of spec cis-regulatory elements is highly dynamic and that substantial alterations can occur when maintaining or grossly modifying gene expression patterns.
Abstract 3649: Broad profiling reveals opportunities for selective inhibition of disease-associated mutant kinases
Cancer Research, 2015
Small molecule kinase inhibitors are promising therapeutic agents in a number of diseases, most n... more Small molecule kinase inhibitors are promising therapeutic agents in a number of diseases, most notably cancer. However, mutations in kinases, both intrinsic and acquired, can drastically alter inhibitor sensitivity. To identify inhibitors of disease-associated mutant kinases, we conducted an unbiased functional screen of 182 small molecule kinase inhibitors against 76 mutated recombinant kinases arising from 21 cognate wild-type kinases. The results revealed novel lead compounds that were exquisitely selective for mutant kinases, including several that exhibited preferred inhibition of mutant kinases over their cognate wild-type kinases. This study provides a resource for the development of novel small molecule inhibitors against disease-associated mutant kinases and illustrates the potential of unbiased large-scale profiling as an approach to compound-centric kinase inhibitor discovery. Citation Format: Krisna C. Duong-Ly, Karthik Devarajan, Shuguang Liang, Kurumi Horiuchi, Yuren ...
In this study, we used a photocross-linking method to identify specific contact of CCAAT-binding ... more In this study, we used a photocross-linking method to identify specific contact of CCAAT-binding factor (CBF) subunits in a CBF-DNA complex. The analysis showed that all three subunits in the CBF-DNA complex were cross-linked to DNA and that CBF-B and CBF-C were cross-linked more strongly than CBF-A. None of the CBF-A and CBF-C subunits, which together formed a CBF-A/CBF-C heterodimer, were cross-linked without CBF-B; in contrast, CBF-B was cross-linked in the absence of CBF-A/CBF-C. No subunit of heterotrimeric CBF containing DNA-binding domain mutant of either CBF-B or CBF-C was cross-linked to DNA, and interestingly, cross-linking of CBF-B that occurred without CBF-A/CBF-C was inhibited in presence of mutant CBF-C/CBF-A heterodimer. Altogether, these results indicated that the specific DNA contact surface of each CBF subunit is generated as a result of interaction between CBF-B and CBF-A/CBF-C heterodimer and that the three CBF subunits interact interdependently with DNA to form a CBF-DNA complex. Equilibrium interactions among the three CBF subunits and between CBF subunits and DNA were studied by electrophoretic mobility shift assay. This showed that at equilibrium DNA-binding conditions, the CBF-A/CBF-C heterodimer is very stable, but association between CBF-B and CBF-A/ CBF-C is very weak. The nature of the association of CBF-B with CBF-A/CBF-C was also revealed by studying the inhibition of CBF-DNA complex formation by the mutant CBF-B. This study indicated that the association between CBF-B and CBF-A/CBF-C is stabilized upon interaction with DNA, a process likely to favor formation of a high-affinity CBF-DNA complex.
Even a cursory inspection of the available retinal data-bases of cDNAs/expressed sequence tags (E... more Even a cursory inspection of the available retinal data-bases of cDNAs/expressed sequence tags (ESTs) reveals the existence of thousands of expressed sequences with unknown functions [1,2] (see NEIBank). Although many of these uncharacterized sequences are likely to ...
The vertebrate retina develops from an amorphous sheet of dividing retinal progenitor cells (RPCs... more The vertebrate retina develops from an amorphous sheet of dividing retinal progenitor cells (RPCs) through a sequential process that culminates in an exquisitely patterned neural tissue [1]. A current model for retinal development posits that sequential cell-type differentiation ...
PURPOSE Bioinformatics has emerged as a powerful tool for identifying novel genes and pathways as... more PURPOSE Bioinformatics has emerged as a powerful tool for identifying novel genes and pathways associated with retinal biology and disease. The developing mouse retina expresses an exceedingly large and complex variety of genes. Many of these genes have not been characterized but nevertheless are likely to have important developmental or physiological functions. The purpose of this study was to use an in silico approach with a mouse embryonic retinal database of cDNAs/expressed sequence tags (ESTs) named RetinalExpress to identify previously uncharacterized genes that are represented in the developing retina. METHODS cDNA clones unique to the RetinalExpress database were identified by comparing clones in the RetinalExpress database with those in other cDNA/EST databases. We used a hierarchical filtering procedure with high stringency criteria that included sequence quality, colinearity with hypothetical gene sequences, and absence of any substantial existing annotation to select clo...
Highlights d Unbiased screen of 183 small molecule compounds against 76 mutant kinases d Lead com... more Highlights d Unbiased screen of 183 small molecule compounds against 76 mutant kinases d Lead compounds targeting EGFR, PDGFRa, and other mutant kinases d Opportunities for repurposing FDA-approved kinase inhibitors d Prediction of chemical modifications to optimize of inhibitors of T674I PDGFRa
The nuclear receptor CAR mediates specific xenobiotic induction of drug metabolism
Nature, Jan 19, 2000
Organisms encounter a wide range of foreign compounds--or 'xenobiotics'--with potentially... more Organisms encounter a wide range of foreign compounds--or 'xenobiotics'--with potentially harmful consequences. The cytochrome P450 (CYP) enzymes metabolize xenobiotics and thus are a primary defence against these compounds. Increased expression of specific CYP genes in response to particular xenobiotics is a central component of this defence, although such induction can also increase production of toxic metabolites. Here we show that the nuclear receptor CAR mediates the response evoked by a class of xenobiotics known as the 'phenobarbital-like inducers'. The strong activation of Cyp2b10 gene expression by phenobarbital, or by the more potent TCPOBOP, is absent in mice lacking the CAR gene. These animals also show decreased metabolism of the classic CYP substrate zoxazolamine and a complete loss of the liver hypertrophic and hyperplastic responses to these inducers. Cocaine causes acute hepatotoxicity in wild-type mice previously exposed to phenobarbital-like induce...
During Strongylocentrotus purpuratus embryogenesis, aboral ectoderm-specific expression of spec2a... more During Strongylocentrotus purpuratus embryogenesis, aboral ectoderm-specific expression of spec2a relies on an upstream enhancer that confers its spatial specificity largely through repression. The purpose of this study was to determine how spec2a expression is repressed in endoderm and oral ectoderm territories. A 78-base pair DNA sequence within the enhancer contains five tightly spaced cis-regulatory elements including proximal (TAATCT) and distal (TAATCC) elements that bind to both SpOtx, a broadly distributed transcriptional activator, and SpGoosecoid (SpGsc), an oral ectoderm-restricted transcriptional repressor. We show here that these two seemingly redundant Otx/Gsc elements have distinct functions. The proximal element bound to SpGATA-E, an endomesoderm-specific transcription factor. Treatment with SpGATA-E and SpGsc morpholino antisense oligonucleotides (MASOs) resulted in enhanced transcriptional activity from the proximal element, suggesting that both factors functioned as repressors at this site. SpGATA-E MASO-treated embryos failed to express ectoderm markers, indicating a role for SpGATA-E in ectoderm differentiation. The spec2a proximal element was distinct from the corresponding element in the related spec1 enhancer, and swaps between spec1 and spec2a cis-regulatory elements indicated, that for optimal repression, the proximal element had to interact with a nearby CCAAT-binding factor element. Our results show that the recently evolved proximal element contributes to the repression of spec2a in endomesoderm and oral ectoderm territories. D
The creation, preservation, and degeneration of cis-regulatory elements controlling developmental... more The creation, preservation, and degeneration of cis-regulatory elements controlling developmental gene expression are fundamental genome-level evolutionary processes about which little is known. Here, we identify critical differences in cis-regulatory elements controlling the expression of the sea urchin aboral ectoderm-specific spec genes. We found multiple copies of a repetitive sequence element termed RSR in genomes of species within the Strongylocentrotidae family, but RSRs were not detected in genomes of species outside Strongylocentrotidae. spec genes in Strongylocentrotus purpuratus are invariably associated with RSRs, and the spec2a RSR functioned as a transcriptional enhancer and displayed greater activity than did spec1 or spec2c RSRs. Single-base pair differences at two cis-regulatory elements within the spec2a RSR increased the binding affinities of four transcription factors, SpCCAAT-binding factor at one element and SpOtx, SpGoosecoid, and SpGATA-E at another. The cis-regulatory elements to which these four factors bound were recent evolutionary acquisitions that acted to either activate or repress transcription, depending on the cell type. These elements were found in the spec2a RSR ortholog in Strongylocentrotus pallidus but not in RSR orthologs of Strongylocentrotus droebachiensis or Hemicentrotus pulcherrimus. Our results indicated that a dynamic pattern of cis-regulatory element evolution exists for spec genes despite their conserved aboral ectoderm expression.
Enzymes, the catalytic proteins, are playing pivotal roles in regulating basic cell functions. Dr... more Enzymes, the catalytic proteins, are playing pivotal roles in regulating basic cell functions. Drugs that inhibit enzyme activities cover varying aspects of diseases and offer potential cures. One of the major technologies used in the drug discovery industry for finding the enzyme inhibitors is high-throughput screening, which is facing a daunting challenge due to the fast-growing numbers of drug targets arising from genomic and proteomic research and the large chemical libraries generated from high-throughput synthesis. Chemical microarray, as a new technology, could be an excellent alternative for traditional well-based screening, since the technology can screen more compounds against more targets in parallel with a minimum amount of materials, reducing cost and increasing productivity. In this chapter, we have introduced the basic techniques and applications of chemical microarrays, and how to use them routinely for identifying enzyme inhibitors with functional-based assays. Sample assays for kinases, proteases, histone deacetylases, and phosphatases are demonstrated.
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