Kinase inhibitors are a new class of therapeutics with a propensity to inhibit multiple targets. The biological consequences of multi-kinase activity are poorly defined, and an important step toward understanding the relationship between selectivity, efficacy and safety is the exploration of how inhibitors interact with the human kinome. We present interaction maps for 38 kinase inhibitors across a panel of 317 kinases representing >50% of the predicted human protein kinome. The data constitute the most comprehensive study of kinase inhibitor selectivity to date and reveal a wide diversity of interaction patterns. To enable a global analysis of the results, we introduce the concept of a selectivity score as a general tool to quantify and differentiate the observed interaction patterns. We further investigate the impact of panel size and find that small assay panels do not provide a robust measure of selectivity.
Activating mutations in the receptor tyrosine kinase FLT3 are present in up to approximately 30% of acute myeloid leukemia (AML) patients, implicating FLT3 as a driver of the disease and therefore as a target for therapy. We report the characterization of AC220, a second-generation FLT3 inhibitor, and a comparison of AC220 with the first-generation FLT3 inhibitors CEP-701, MLN-518, PKC-412, sorafenib, and sunitinib. AC220 exhibits low nanomolar potency in biochemical and cellular assays and exceptional kinase selectivity, and in animal models is efficacious at doses as low as 1 mg/kg given orally once daily. The data reveal that the combination of excellent potency, selectivity, and pharmacokinetic properties is unique to AC220, which therefore is the first drug candidate with a profile that matches the characteristics desirable for a clinical FLT3 inhibitor. (Blood. 2009; 114:2984-2992) IntroductionThe presence of genetic changes in cancer cells that lead to dysregulated activation of kinases frequently signals that the activated kinase is a contributing driver of disease, 1-4 and inhibitors of activated kinases can have a dramatic impact on disease progression in patients with these genetic alterations. 5,6 To clearly define the role of the dysregulated kinase, and to determine whether inhibition of the mutant kinase is sufficient to induce a therapeutic benefit, requires drugs capable of selectively, potently, and preferably sustainably inhibiting the activated kinase in patients.Activating mutations in the FLT3 receptor tyrosine kinase have been identified in up to 30% of acute myeloid leukemia (AML) patients. 7,8 The most common class of mutation is internal tandem duplications (ITDs) in the juxtamembrane domain 7,9 that lead to constitutive, ligand-independent activation of the kinase. 7,10 The prognosis for patients with FLT3-ITD mutations is significantly worse than that for patients with wild-type FLT3 when treated with standard therapy. [7][8][9][11][12][13][14][15][16] The presence of activating FLT3 mutations and the correlation of FLT3 activation with a poor prognosis strongly suggest that FLT3 is a driver of disease in AML, at least in patients with FLT3-ITD mutations. Several small molecule kinase inhibitors with activity against FLT3 have been evaluated in AML patients, including CEP-701 (lestaurtinib), PKC-412 (midostaurin), MLN-518 (tandutinib; previously known as CT-53518), sunitinib (SU-11248), sorafenib , and KW-2449. The compounds inhibit FLT3 in cellular assays and are efficacious in mouse models of FLT3-ITD AML. [17][18][19][20][21][22] In phase 1 and phase 2 clinical trials, conducted primarily in relapsed or refractory AML patients, responses were consistently observed with each of these drugs, 21,[23][24][25][26][27][28][29][30][31] however, responses generally were relatively limited and not durable. 21,[23][24][25]30 The studies did reveal a relationship between the likelihood of observing a clinical response and the pharmacokinetics/pharmacodynamics of FLT3 inhibition, and highlight...
Although mantle cell lymphoma (MCL) frequently harbors inactivated ataxia telangiectasia mutated (ATM) and p53 alleles, little is known about the molecular phenotypes caused by these genetic changes. We identified point mutations and genomic deletions in these genes in a series of cyclin D1-positive MCL cases and correlated genotype with gene expression profiles and overall survival. Mutated and͞or deleted ATM and p53 alleles were found in 56% (40͞72) and 26% (21͞82) of the cases examined, respectively. Although MCL patients with inactive p53 alleles showed a significant reduction in median overall survival, aberrant ATM status did not predict for survival. Nevertheless, specific gene expression signatures indicative of the mutation and genomic deletion status of each gene were identified that were different from wild-type cases. These signatures were comprised of a select group of genes related to apoptosis, stress responses, and cell cycle regulation that are relevant to ATM or p53 function. Importantly, we found the molecular signatures are different between cases with mutations and deletions, because the latter are characterized by loss of genes colocalized in the same chromosome region of ATM or p53. This information on molecular phenotypes may provide new areas of investigation for ATM function or may be exploited by designing specific therapies for MCL cases with p53 aberrations.cancer ͉ cell cycle ͉ genetics ͉ microarray ͉ signature M antle cell lymphoma (MCL) is an aggressive tumor that accounts for Ϸ6% of all non-Hodgkin lymphoma cases in the U.S., with higher rates in North America (1, 2). Although the median survival of MCL patients is only 3 years, some individuals survive Ͼ10 years from the time of diagnosis (2, 3). There is considerable interest in defining the molecular basis for this clinical heterogeneity to develop better prognostic markers and more effective therapies.MCL corresponds to B cells of the mantle zone of the lymphoid follicles that have acquired distinctive alterations in genes related to cell cycle control and apoptosis (4). The hallmark of these genetic alterations is the t(11;14)(q13;q32) translocation that juxtaposes the IGH locus near the CCND1 gene, resulting in the overexpression of cyclin D1 (5). A subset of MCL cases acquire p53 mutations, and these patients have a significantly shortened median survival relative to cases with wild-type p53 (6-8). Interestingly, the ataxia telangiectasia mutated (ATM) gene, whose product regulates some p53-dependent apoptosis pathways, is mutated or deleted in 25-40% of MCL cases (reviewed in refs. 9 and 10). Although preliminary studies suggest that ATM mutation status does not have a significant impact on patient survival (7, 11), they may have lacked the statistical power to identify more subtle effects on survival, such as the effect of functional subsets of mutations.We determined the ATM and p53 genotypes in a large cohort of MCL cases with previous gene expression profiles to further elucidate the relationship between molecular phe...
Comparative Analysis of Gene-Expression Patterns in Human and African Great Ape Cultured Fibroblasts
Although much is known about genetic variation in human and African great ape (chimpanzee, bonobo, and gorilla) genomes, substantially less is known about variation in gene-expression profiles within and among these species. This information is necessary for defining transcriptional regulatory networks that contribute to complex phenotypes unique to humans or the African great apes. We took a systematic approach to this problem by investigating gene-expression profiles in well-defined cell populations from humans, bonobos, and gorillas. By comparing these profiles from 18 human and 21 African great ape primary fibroblast cell lines, we found that gene-expression patterns could predict the species, but not the age, of the fibroblast donor. Several differentially expressed genes among human and African great ape fibroblasts involved the extracellular matrix, metabolic pathways, signal transduction, stress responses, as well as inherited overgrowth and neurological disorders. These gene-expression patterns could represent molecular adaptations that influenced the development of species-specific traits in humans and the African great apes.
To gain a better understanding of the mechanism of action of the metal cation-containing chemotherapeutic drug motexafin gadolinium (MGd), gene expression profiling analyses were conducted on plateau phase human lung cancer (A549) cell cultures treated with MGd. Drug treatment elicited a highly specific response that manifested in elevated levels of metallothionein isoform and zinc transporter 1 (ZnT1) transcripts. A549 cultures incubated with MGd in the presence of exogenous zinc acetate displayed synergistic increases in the levels of intracellular free zinc, metallothionein transcripts, inhibition of thioredoxin reductase activity, and cell death. Similar effects were observed in PC3 prostate cancer and Ramos B-cell lymphoma cell lines. Intracellular free zinc levels increased in response to treatment with MGd in the absence of exogenous zinc, indicating that MGd can mobilize bound intracellular zinc. These findings lead us to suggest that an important component of the anticancer activity of MGd is related to its ability to disrupt zinc metabolism and alter cellular availability of zinc. This class of compounds may provide insight into the development of novel cancer drugs targeting control of intracellular free zinc and the roles that zinc and other metal cations play in biochemical pathways relevant to cancer. (Cancer Res 2005; 65(9): 3837-45)
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