H. Becker scite author profile

Mutations of the KRAS oncogene are predictive for resistance to treatment with antibodies against the epithelial growth factor receptor in patients with colorectal cancer. Overcoming this therapeutic dilemma could potentially be achieved by the introduction of drugs that inhibit signaling pathways that are activated by KRAS mutations. To identify comprehensively such signaling pathways we profiled pretreatment biopsies and normal mucosa from 65 patients with locally advanced rectal cancer - 30 of which carried mutated KRAS - using global gene expression microarrays. By comparing all tumor tissues exclusively to matched normal mucosa, we could improve assay sensitivity, and identified a total of 22,297 features that were differentially expressed (adjusted P-value <0.05) between normal mucosa and cancer, including several novel potential rectal cancer genes. We then used this comprehensive description of the rectal cancer transcriptome as the baseline for identifying KRAS-dependent alterations. The presence of activating KRAS mutations is significantly correlated to an upregulation of 13 genes (adjusted P-value <0.05), among them DUSP4, a MAP-kinase phosphatase, and SMYD3, a histone methyltransferase. Inhibition of the expression of both genes has previously been shown using the MEK1-inhibitor PD98059 and the antibacterial compound Novobiocin, respectively. These findings suggest a potential approach to overcome resistance to treatment with antibodies against the epithelial growth factor receptor in patients with KRAS-mutant rectal carcinomas.

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Bacillus cereus in infant foods and dried milk products

Becker¹,

Schaller²,

Wiese³

et al. 1994

International Journal of Food Microbiology

147

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A TNF-Regulated Recombinatorial Macrophage Immune Receptor Implicated in Granuloma Formation in Tuberculosis

et al. 2011

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Macrophages play a central role in host defense against mycobacterial infection and anti- TNF therapy is associated with granuloma disorganization and reactivation of tuberculosis in humans. Here, we provide evidence for the presence of a T cell receptor (TCR) αβ based recombinatorial immune receptor in subpopulations of human and mouse monocytes and macrophages. In vitro, we find that the macrophage-TCRαβ induces the release of CCL2 and modulates phagocytosis. TNF blockade suppresses macrophage-TCRαβ expression. Infection of macrophages from healthy individuals with mycobacteria triggers formation of clusters that express restricted TCR Vβ repertoires. In vivo, TCRαβ bearing macrophages abundantly accumulate at the inner host-pathogen contact zone of caseous granulomas from patients with lung tuberculosis. In chimeric mouse models, deletion of the variable macrophage-TCRαβ or TNF is associated with structurally compromised granulomas of pulmonary tuberculosis even in the presence of intact T cells. These results uncover a TNF-regulated recombinatorial immune receptor in monocytes/macrophages and demonstrate its implication in granuloma formation in tuberculosis.

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A genomic strategy for the functional validation of colorectal cancer genes identifies potential therapeutic targets

Grade

Hummon

Camps

et al. 2010

Intl Journal of Cancer

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Genes that are highly overexpressed in tumor cells can be required for tumor cell survival and have the potential to be selective therapeutic targets. In an attempt to identify such targets, we combined a functional genomics and a systems biology approach to assess the consequences of RNAi-mediated silencing of overexpressed genes that were selected from 140 gene expression profiles from colorectal cancers (CRCs) and matched normal mucosa. In order to identify credible models for in-depth functional analysis, we first confirmed the overexpression of these genes in 25 different CRC cell lines. We then identified five candidate genes that profoundly reduced the viability of CRC cell lines when silenced with either siRNAs or short-hairpin RNAs (shRNAs), i.e., HMGA1, TACSTD2, RRM2, RPS2 and NOL5A. These genes were further studied by systematic analysis of comprehensive gene expression profiles generated following siRNA-mediated silencing. Exploration of these RNAispecific gene expression signatures allowed the identification of the functional space in which the five genes operate and showed enrichment for cancer-specific signaling pathways, some known to be involved in CRC. By comparing the expression of the RNAi signature genes with their respective expression levels in an independent set of primary rectal carcinomas, we could recapitulate these defined RNAi signatures, therefore, establishing the biological relevance of our observations. This strategy identified the signaling pathways that are affected by the prominent oncogenes HMGA1 and TACSTD2, established a yet unknown link between RRM2 and PLK1 and identified RPS2 and NOL5A as promising potential therapeutic targets in CRC.The application of parallel gene expression profiling techniques to large sets of primary tumor samples has revealed profound alterations in the cancer transcriptome. The catalogs of deregulated genes defined by such approaches are not only important because they provide new insight into tumor biology but also because they reveal those genes that are specifically upregulated in tumors, some of which may represent promising new antitumor molecular targets.Finding such critical genes within a complex expression signature, however, remains a formidable challenge. One possible approach to this problem is to modulate the expression of these genes in cell line models. For example, loss-of-function (LOF) analysis can be used to identify genes whose reduction of expression may have a direct impact on cancer cell survival.We recently presented comprehensive gene expression signatures of colorectal cancer (CRC) and matched normal mucosa.1,2 In order to identify those genes that could directly influence tumor survival and thus, may represent candidate molecular targets, we first identified CRC cell lines in which the expression of these genes was upregulated accordingly. We then used RNAi-mediated gene silencing to reduce their expression and quantified cell survival. To uncover their roles in cell viability, we monitored genome-wide transcriptional c...

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Lifesaving liver transplantation for multi‐organ failure caused by Bacillus cereus food poisoning

Tschiedel

Rath

Steinmann

et al. 2014

Pediatric Transplantation

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Bacillus cereus is a spore-forming, gram-positive bacterium that causes food poisoning presenting with either emesis or diarrhea. Diarrhea is caused by proteinaceous enterotoxin complexes, mainly hemolysin BL, non-hemolytic enterotoxin (NHE), and cytotoxin K. In contrast, emesis is caused by the ingestion of the depsipeptide toxin cereulide, which is produced in B. cereus contaminated food, particularly in pasta or rice. In general, the illness is mild and self-limiting. However, due to cereulide intoxication, nine severe cases with rhabdomyolysis and/or liver failure, five of them lethal, are reported in literature. Here we report the first case of life-threatening liver failure and severe rhabdomyolysis in this context that could not be survived without emergency hepatectomy and consecutive liver transplantation.

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H. Becker

Mutated KRAS results in overexpression of DUSP4, a MAP‐kinase phosphatase, and SMYD3, a histone methyltransferase, in rectal carcinomas

Bacillus cereus in infant foods and dried milk products

A TNF-Regulated Recombinatorial Macrophage Immune Receptor Implicated in Granuloma Formation in Tuberculosis

A genomic strategy for the functional validation of colorectal cancer genes identifies potential therapeutic targets

Lifesaving liver transplantation for multi‐organ failure caused by Bacillus cereus food poisoning

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