Wouter W. Kallemeijn scite author profile

Constitutive activation of the phosphatidylinositol-3-OH kinase (PI3K) and RAS signaling pathways are important events in tumor formation. This is illustrated by the frequent genetic alteration of several key players from these pathways in a wide variety of human cancers. Here, we report a detailed sequence analysis of the PTEN, PIK3CA, KRAS, HRAS, NRAS, and BRAF genes in a collection of 40 human breast cancer cell lines. We identified a surprisingly large proportion of cell lines with mutations in the PI3K or RAS pathways (54% and 25%, respectively), with mutants for each of the six genes. The PIK3CA, KRAS, and BRAF mutation spectra of the breast cancer cell lines were similar to those of colorectal cancers. Unlike in colorectal cancers, however, mutational activation of the PI3K pathway was mutually exclusive with mutational activation of the RAS pathway in all but 1 of 30 mutant breast cancer cell lines (P = 0.001). These results suggest that there is a fine distinction between the signaling activators and downstream effectors of the oncogenic PI3K and RAS pathways in breast epithelium and those in other tissues.

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Ultrasensitive in situ visualization of active glucocerebrosidase molecules

Witte

et al. 2010

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Deficiency of glucocerebrosidase (GBA) underlies Gaucher disease, a common lysosomal storage disorder. Carriership for Gaucher disease has recently been identified as major risk for parkinsonism. Presently, no method exists to visualize active GBA molecules in situ. We here report the design, synthesis and application of two fluorescent activity-based probes allowing highly specific labeling of active GBA molecules in vitro and in cultured cells and mice in vivo. Detection of in vitro labeled recombinant GBA on slab gels after electrophoresis is in the low attomolar range. Using cell or tissue lysates, we obtained exclusive labeling of GBA molecules. We present evidence from fluorescence-activated cell sorting analysis, fluorescence microscopy and pulse-chase experiments of highly efficient labeling of GBA molecules in intact cells as well as tissues of mice. In addition, we illustrate the use of the fluorescent probes to study inhibitors and tentative chaperones in living cells.

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Gaucher disease and Fabry disease: New markers and insights in pathophysiology for two distinct glycosphingolipidoses

Ferraz

Kallemeijn

Mirzaian

et al. 2014

Biochimica et Biophysica Acta (BBA) - Molecular and Cell Biolog

112

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LIMP-2 expression is critical for β-glucocerebrosidase activity and α-synuclein clearance

Rothaug¹,

Zunke²,

Mazzulli

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

110

105

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Significance Our report highlights, for the first time to our knowledge, a distinct relationship between lysosomal integral membrane protein type-2 (LIMP-2) expression, β-glucocerebrosidase (GC) activity, and clearance of α-synuclein. In LIMP-2–deficient mice, increased levels of endogenous α-synuclein led to severe neurological deficits and premature death. We found that loss of LIMP-2 reduced lysosomal GC activity, resulting in lipid storage, disturbed autophagic/lysosomal function, and α-synuclein accumulation leading to neurotoxicity of dopaminergic neurons as well as apoptotic cell death and inflammation. Furthermore, heterologous overexpression of functional LIMP-2 enhanced α-synuclein clearance and improved lysosomal activity of GC. Our results suggest that lysosomal GC activity can be influenced via its interaction with LIMP-2, which could be a promising strategy for the treatment of synucleinopathies.

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Activity-based probes for functional interrogation of retaining β-glucuronidases

Jiang

Jin

et al. 2017

Nat Chem Biol

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Humans express at least two distinct β-glucuronidase enzymes that are involved in disease: exo-acting β-glucuronidase (GUSB), whose deficiency gives rise to mucopolysaccharidosis type VII, and endo-acting heparanase (HPSE), whose overexpression is implicated in inflammation and cancers. The medical importance of these enzymes necessitates reliable methods to assay their activities in tissues. Herein, we present a set of β-glucuronidase-specific activity-based probes (ABPs) that allow rapid and quantitative visualization of GUSB and HPSE in biological samples, providing a powerful tool for dissecting their activities in normal and disease states. Unexpectedly, we find that the supposedly inactive HPSE proenzyme proHPSE is also labeled by our ABPs, leading to surprising insights regarding structural relationships between proHPSE, mature HPSE, and their bacterial homologs. Our results demonstrate the application of β-glucuronidase ABPs in tracking pathologically relevant enzymes and provide a case study of how ABP-driven approaches can lead to discovery of unanticipated structural and biochemical functionality.

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