Christopher Weier scite author profile

The BCR-ABL inhibitor dasatinib achieves clinical remissions in chronic myeloid leukemia (CML) patients using a dosing schedule that achieves potent but transient BCR-ABL inhibition. In vitro, transient potent BCR-ABL inhibition with either dasatinib or imatinib is cytotoxic to CML cell lines, as is transient potent EGFR inhibition with erlotinib in a lung cancer cell line. Cytotoxicity correlates with the magnitude as well as the duration of kinase inhibition. Moreover, cytotoxicity with transient potent target inhibition is equivalent to prolonged target inhibition and in both cases is associated with BIM activation and rescued by BCL-2 overexpression. In CML patients receiving dasatinib once daily, response correlates with the magnitude of BCR-ABL kinase inhibition, thereby demonstrating the potential clinical utility of intermittent potent kinase inhibitor therapy.

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Regioisomeric SCFA Attachment to Hexosamines Separates Metabolic Flux from Cytotoxicity and MUC1 Suppression

Aich

et al. 2008

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Chemical biology studies, exemplified by metabolic glycoengineering experiments that employ short chain fatty acid (SCFA)-hexosamine monosaccharide hybrid molecules, often suffer from off-target effects. Here we demonstrate that systematic structure-activity relationship (SAR) studies can deconvolute multiple biological activities of SCFA-hexosamine analogues by demonstrating that triacylated monosaccharides, including both n-butyrate- and acetate-modified ManNAc analogues, had dramatically different activities depending on whether the free hydroxyl group was at the C1 or C6 position. The C1-OH (hemiacetal) analogues enhanced growth inhibition in MDA-MB-231 human breast cancer cells and suppressed expression of MUC1, which are attractive properties for an anticancer agent. By contrast, C6-OH analogues supported high metabolic flux into the sialic acid pathway with negligible growth inhibition or toxicity, which are desirable properties for glycan labeling in healthy cells. Importantly, these SAR were general, applying to other hexosamines ( e.g., GlcNAc) and non-natural sugar "scaffolds" ( e.g., ManNLev). From a practical standpoint, the ability to separate toxicity from flux will facilitate the use of MOE analogues for cancer treatment and glycomics applications, respectively. Mechanistically, these findings overturn the premise that the bioactivities of SCFA-monosaccharide hybrid molecules result from their hydrolysis products ( e.g., n-butyrate, which acts as a histone deacetylase inhibitor, and ManNAc, which activates sialic acid biosynthesis); instead the SAR establish that inherent properties of partially acylated hexosamines supersede the cellular responses supported by either the acyl or monosaccharide moieties.

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Targeting Pro-Invasive Oncogenes with Short Chain Fatty Acid-Hexosamine Analogues Inhibits the Mobility of Metastatic MDA-MB-231 Breast Cancer Cells

et al. 2008

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Per-butanoylated N-acetyl-D-mannosamine (Bu 4 ManNAc), a SCFA-hexosamine cancer drug candidate with activity manifest through intact n-butyrate-carbohydrate linkages, reduced the invasion of metastatic MDA-MB-231 breast cancer cells unlike per-butanoylated-D-mannose (Bu 5 Man), a clinically-tested compound that did not alter cell mobility. To gain molecular-level insight, therapeutic targets implicated in metastasis were investigated. The active compound Bu 4 ManNAc reduced both MUC1 expression and MMP-9 activity (via down-regulation of CXCR4 transcription) whereas 'inactive' Bu 5 Man had counterbalancing effects on these oncogenes. This divergent impact on transcription was linked to interplay between HDACi activity (held by both Bu 4 ManNAc and Bu 5 Man) and NF-κB activity, which was selectively down-regulated by Bu 4 ManNAc. Overall, these results establish a new therapeutic endpoint (control of invasion) for SCFA-hexosamine hybrid molecules, define relative contributions of molecular players involved in cell mobility, and demonstrate that Bu 4 ManNAc breaks the confounding link between beneficial HDACi activity and the simultaneous deleterious activation of NF-κB often found in epigenetic drug candidates.

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Molecular evidence that invasive adenocarcinoma can mimic prostatic intraepithelial neoplasia (PIN) and intraductal carcinoma through retrograde glandular colonization

Haffner

Weier

et al. 2015

The Journal of Pathology

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Prostate cancer often manifests as morphologically distinct tumour foci and is frequently found adjacent to presumed precursor lesions such as high-grade prostatic intraepithelial neoplasia (HGPIN). While there is some evidence to suggest that these lesions can be related and exist on a pathological and morphological continuum, the precise clonal and temporal relationships between precursor lesions and invasive cancers within individual tumours remain undefined. Here, we used molecular genetic, cytogenetic, and histological analyses to delineate clonal, temporal, and spatial relationships between HGPIN and cancer lesions with distinct morphological and molecular features. First, while confirming the previous finding that a substantial fraction of HGPIN lesions associated with ERG-positive cancers share rearrangements and overexpression of ERG, we found that a significant subset of such HGPIN glands exhibit only partial positivity for ERG. This suggests that such ERG-positive HGPIN cells either rapidly invade to form adenocarcinoma or represent cancer cells that have partially invaded the ductal and acinar space in a retrograde manner. To clarify these possibilities, we used ERG expression status and TMPRSS2–ERG genomic breakpoints as markers of clonality, and PTEN deletion status to track temporal evolution of clonally related lesions. We confirmed that morphologically distinct HGPIN and nearby invasive cancer lesions are clonally related. Further, we found that a significant fraction of ERG-positive, PTEN-negative HGPIN and intraductal carcinoma (IDC-P) lesions are most likely clonally derived from adjacent PTEN-negative adenocarcinomas, indicating that such PTEN-negative HGPIN and IDC-P lesions arise from, rather than give rise to, the nearby invasive adenocarcinoma. These data suggest that invasive adenocarcinoma can morphologically mimic HGPIN through retrograde colonization of benign glands with cancer cells. Similar clonal relationships were also seen for intraductal carcinoma adjacent to invasive adenocarcinoma. These findings represent a potentially undervalued indicator of pre-existing invasive prostate cancer and have significant implications for prostate cancer diagnosis and risk stratification.

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