Evert Hoefnagel scite author profile

Akt (also known as PKB or RAC-PK) is an intracellular serine/threonine kinase involved in regulating cell survival. Although this makes it a promising target for the discovery of drugs to treat human cancer, a complicating factor may be the role played by Akt in insulin signalling. Two human isoforms, Akt-1 and Akt-2, have been described previously and a third isoform has been identified in rats (here termed Akt-3, but also called RAC-PK-g or PKB-g). We describe the identification of the corresponding human isoform of Akt-3. The gene encoding human Akt-3 was localized to chromosome 1q43±44. The predicted protein sequence is 83% identical to human Akt-1 and 78% identical to human Akt-2, and contains a pleckstrin homology domain and a kinase domain. In contrast to the published rat Akt-3 isoform, human and mouse Akt-3 also possess a C-terminal`tail' that contains a phosphorylation site (Ser472) thought to be involved in the activation of Akt kinases. In addition to phosphorylation of Ser472, phosphorylation of Thr305 also appears to contribute to the activation of Akt-3 because mutation of both these residues to aspartate increased the catalytic activity of Akt-3, whereas mutation to alanine inhibited activation. Akt-3 activity could be inhibited by the broad spectrum kinase inhibitor staurosporine and by the PKC inhibitor Ro 31-8220, but not by other PKC or PKA inhibitors tested. Although Akt-3 is expressed widely, it is not highly expressed in liver or skeletal muscle, suggesting that its principle function may not be in regulating insulin signalling. These observations suggest that Akt-3 is a promising target for the discovery of novel chemotherapeutic agents which do not interfere with insulin signalling.

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Enovin, a member of the glial cell‐line‐derived neurotrophic factor (GDNF) family with growth promoting activity on neuronal cells

Masure

Geerts

Cik

et al. 1999

European Journal of Biochemistry

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Glial cell-line-derived neurotrophic factor (GDNF), neurturin and persephin are neurotrophic factors involved in neuroneal differentiation, development and maintenance. They act on different types of neuroneal cells and signal through a receptor complex composed of a specific ligand-binding subunit of the GDNF family receptor a (GFRa) family together with a common signaling partner, the cRET protein tyrosine kinase. We describe the molecular cloning, expression, chromosomal localization and functional characterization of enovin, a fourth GDNF family member almost identical to the recently described artemin. We show the occurence in most tissues of several differently spliced mRNA variants for enovin, of which only two are able to translate into functional enovin protein. Some tissues seem to express only nonfunctional transcripts. These observations may underlie a complex transcriptional regulation pattern. Enovin mRNA expression is detectable in all adult and fetal human tissues examined, but expression levels are highest in peripheral tissues including prostate, placenta, pancreas, heart and kidney. This tissue distribution pattern is in accordance with that of GFRa-3, which here is shown to be the preferred ligand-binding receptor for enovin (K d = 3.1 nm). The human enovin gene is localized on chromosome 1, region p31.3-p32. In vitro, enovin stimulates neurite outgrowth and counteracts taxol-induced neurotoxicity in staurosporine-differentiated SH-SY5Y human neuroblastoma cells. The peripheral expression pattern of enovin and its receptor together with its effects on neuroneal cells suggest that enovin might be useful for the treatment of neurodegenerative diseases in general and peripheral neuropathies in particular.

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Mammalian GFRα-4, a Divergent Member of the GFRα Family of Coreceptors for Glial Cell Line-derived Neurotrophic Factor Family Ligands, Is a Receptor for the Neurotrophic Factor Persephin

Masure¹,

Cik²,

Hoefnagel³

et al. 2000

Journal of Biological Chemistry

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Four members of the glial cell line-derived neurotrophic factor family have been identified (GDNF, neurturin, persephin, and enovin/artemin). They bind to a specific membrane-anchored GDNF family receptor as follows: GFR␣-1 for GDNF, GFR␣-2 for neurturin, GFR␣-3 for enovin/artemin, and (chicken) GFR␣-4 for persephin. Subsequent signaling occurs through activation of a common transmembrane tyrosine kinase, cRET. GFR␣-4, the coreceptor for persephin, was previously identified in chicken only. We describe the cloning and characterization of a mammalian persephin receptor GFR␣-4. The novel GFR␣ receptor is substantially different in sequence from all known GFR␣s, including chicken GFR␣-4, and lacks the first cysteine-rich domain present in all previously characterized GFR␣s. At least two different GFR␣-4 splice variants exist in rat tissues, differing at their respective COOH termini. GFR␣-4 mRNA is expressed at low levels in different brain areas in the adult as well as in some peripheral tissues including testis and heart. Recombinant rat GFR␣-4 variants were expressed in mammalian cells and shown to be at least partially secreted from the cells. Persephin binds specifically and with high affinity (K D ‫؍‬ 6 nM) to the rat GFR␣-4 receptor, but no cRET activation could be demonstrated. Although the newly characterized mammalian GFR␣-4 receptor is structurally divergent from previously characterized GFR␣ family members, we suggest that it is a mammalian orthologue of the chicken persephin receptor. This discovery will allow a more detailed investigation of the biological targets of persephin action and its potential involvement in diseases of the nervous system.

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Detection and Genotyping of Human Rotavirus VP4 and VP7 Genes by Reverse Transcriptase PCR and Reverse Hybridization

et al. 2009

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Rotavirus infections can be diagnosed in stool samples by serological and molecular methods. We developed a novel reverse transcriptase PCR (RT-PCR) method for the amplification of rotavirus RNA and a reverse hybridization assay on a strip to detect amplimers and identify the specific G and P genotypes present in human stool specimens. An additional aim was to permit specific identification of the rotavirus G1P[8] strain, used in the Rotarix vaccine. Novel broad-spectrum PCR primers were developed for both VP4 and VP7, permitting the amplification of a wide range of rotavirus genotypes. Primer sets comprise mixtures of defined primer sequences. For the identification of G and P genotypes, two reverse hybridization strip assays were developed. Both the VP4 and the VP7 strip contain universal probes for the detection of VP4 and VP7 sequences, irrespective of the G or P genotype. The VP4 strip contains type-specific probes for P[4], P[6], P[8], P[9], and P[10]. The VP7 strip contains type-specific probes for G1, G2, G3, G4, G5, G6, G8, and G9. In addition, probes to distinguish between wild-type G1 and G1 vaccine strain sequences were present. Testing by analysis of multiple reference strains confirmed that both RT-PCR methods allowed the detection of a broad spectrum of genotypes. RT-PCR for VP7 was more sensitive than RT-PCR for VP4, but all samples identified as positive for rotavirus antigen by an enzyme-linked immunosorbent assay (ELISA) were also positive for both VP4 and VP7. The high specificity of the reverse hybridization method was confirmed by sequence analysis as well as by type-specific PCR, and the vaccine strain could also be specifically identified. The reverse hybridization method permits accurate identification of mixed infections with different genotypes. Rotavirus genotypes for which no type-specific probes were present on the strip were adequately identified by the universal detection probes. The assay was formally validated by analyses of specificity, sensitivity, precision, accuracy, and robustness. In a panel of 149 ELISA-positive stool samples, comparison with conventional type-specific RT-PCR methods revealed the superiority of the novel method, mainly in cases of mixed rotavirus infections. This novel method permits highly accurate detection and identification of human rotavirus infections in stool samples. This validated assay could be useful for large-scale epidemiological and clinical trials.

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Evert Hoefnagel

Molecular cloning, expression and characterization of the human serine/threonine kinase Akt‐3

Enovin, a member of the glial cell‐line‐derived neurotrophic factor (GDNF) family with growth promoting activity on neuronal cells

Mammalian GFRα-4, a Divergent Member of the GFRα Family of Coreceptors for Glial Cell Line-derived Neurotrophic Factor Family Ligands, Is a Receptor for the Neurotrophic Factor Persephin

Detection and Genotyping of Human Rotavirus VP4 and VP7 Genes by Reverse Transcriptase PCR and Reverse Hybridization

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