A. Preuss scite author profile

We used differential screening of cDNAs from individual taste receptor cells to identify candidate taste transduction elements in mice. Among the differentially expressed clones, one encoded Trpm5, a member of the mammalian family of transient receptor potential (TRP) channels. We found Trpm5 to be expressed in a restricted manner, with particularly high levels in taste tissue. In taste cells, Trpm5 was coexpressed with taste-signaling molecules such as alpha-gustducin, Ggamma13, phospholipase C-beta2 (PLC-beta2) and inositol 1,4,5-trisphosphate receptor type III (IP3R3). Our heterologous expression studies of Trpm5 indicate that it functions as a cationic channel that is gated when internal calcium stores are depleted. Trpm5 may be responsible for capacitative calcium entry in taste receptor cells that respond to bitter and/or sweet compounds.

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In vitro Neuronal Production and Differentiation by Precursor Cells Derived from the Adult Human Forebrain

Kirschenbaum

et al. 1994

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It has traditionally been held that the adult brain is incapable of significant self-repair, due in part to its inability to generate new neurons. Nevertheless, rodents and birds have been found to harbor neural precursor cells in adulthood. We asked whether the adult human brain might retain such precursors, by culturing samples of temporal lobe under conditions permissive for neuronal differentiation, while exposed to 3H-thymidine. Adult human temporal lobe cultures, derived from cortex, subcortex, and periventricular subependymal zone (SZ), were incubated for 7-28 d, stained for neuronal and glial antigens, and autoradiographed. Neuron-like cells were found in explant outgrowths and monolayer dissociates of SZ and periventricular white matter, but not cortex; they expressed neuronal antigens including MAP-2, MAP-5, NF, and N-CAM, and were GFAP-. Neurons responded to K+ depolarization with rapid and reversible increases in intracellular Ca2+, with much greater increments than those noted in glia. Although most neurons were not 3H-thymidine labeled, a small number of MAP-2+ and MAP-5+/GFAP- cells did incorporate 3H-thymidine, suggesting neuronal production from precursor mitosis. Rare 3H-thymidine+ neurons were also found in cultures of subventricular white matter; in these, GFAP+ astrocytic mitogenesis was common, while O4+ oligodendrocytes, although the predominant cell type, were largely postmitotic. Thus, the adult human forebrain harbors precursor cells that retain the potential for neuronal production and differentiation in vitro.

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Vitamin E, Ascorbate, Glutathione, Glutathicne Disulfide, and Enzymes of Glutathione Metabolism in Cultures of Chick Astrocytes and Neurons: Evidence that Astrocytes Play an Important Role in Antioxidative Processes in the Brain

Makar

Nedergaard

Preuss

et al. 1994

Journal of Neurochemistry

398

122

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GSH, GSSG, vitamin E, and ascorbate were measured in 14‐day cultures of chick astrocytes and neurons and compared with levels in the forebrains of chick embryos of comparable age. Activities of enzymes involved in GSH metabolism were also measured. These included ‐γ‐glutamylcysteine synthetase, GSH synthetase, γ‐glutamyl cyclotransferase, γ‐glutamyltranspeptidase, glutathione transferase (GST), GSH peroxidase, and GSSG reductase. The concentration of lipid‐soluble vitamin E in the cultured neurons was found to be comparable with that in the forebrain. On the other hand, the concentration of vitamin E in the astrocytes was significantly greater in the cultured astrocytes than in the neurons, suggesting that the astrocytes are able to accumulate exogenous vitamin E more extensively than neurons. The concentrations of major fatty acids were higher in the cell membranes of cultured neurons than those in the astrocytes. Ascorbate was not detected in cultured cells although the chick forebrains contained appreciable levels of this antioxidant. GSH, total glutathione (i.e., GSH and GSSG), and GST activity were much higher in cultured astrocytes than in neurons. γ‐Glutamylcysteine synthetase activity was higher in the cultured astrocytes than in the cultured neurons. GSH reductase and GSH peroxidase activities were roughly comparable in cultured astrocytes and neurons. The high levels of GSH and GST in cultured astrocytes appears to reflect the situation in vivo. The data suggest that astrocytes are resistant to reactive oxygen species (and potentially toxic xenobiotics) and may play a protective role in the brain. Because enzymes of GSH metabolism are generally well represented in cultured astrocytes and neurons these cells may be ideally suited as probes for manipulating GSH levels in neural tissues in vitro. Cultured astrocytes and neurons should be amenable to the study of the effects of various metabolic insults on the GSH system. Such studies may provide insights into the design of therapeutic strategies to combat oxidative and xenobiotic stresses.

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Monitoring Expression and Clustering of the Ionotropic 5HT₃Receptor in Plasma Membranes of Live Biological Cells

et al. 2003

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The ionotropic 5HT(3) receptor was expressed in transiently transfected mammalian cells, yielding an unprecedented high concentration of up to 12 million receptors per cell. Receptor traffic in the plasma membrane of live cells was observed continuously over 24 h by fluorescence scanning confocal microscopy. This was possible by using 5HT(3) receptor-specific fluorescent ligands with high binding affinity and low off-rate to pulse label receptors at any time after appearance on the cell surface, and label subsequently those receptors expressed later by another, spectrally distinguishable, high-affinity fluorescent ligand. Having reached a critical cell surface concentration of approximately 3000 receptors/microm(2), the receptors started to aggregate in patches with a 4-fold increased surface concentration. The clusters were constantly delivered from a pool of freshly expressed receptors isotropically distributed within the basolateral region of the cell membrane. From there, they migrated to and accumulated on the apical cell surface approximately 9 h after transfection. Individual clusters grew until they reached a critical size of 1-2 microm when they merged to form with 3-5 microm large macroclusters. Clustered receptors were immobile on the minute time scale but always coexisted with monomeric receptors in the regions surrounding the clusters as revealed by fluorescence correlation spectroscopy. Because the receptor density of 12 000 receptors/microm(2) in the patches is as high as that found in two-dimensional crystals of certain membrane proteins, such patches might be a proper source for direct crystallization of membrane proteins without prior purification.

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A. Preuss

A transient receptor potential channel expressed in taste receptor cells

In vitro Neuronal Production and Differentiation by Precursor Cells Derived from the Adult Human Forebrain

Vitamin E, Ascorbate, Glutathione, Glutathicne Disulfide, and Enzymes of Glutathione Metabolism in Cultures of Chick Astrocytes and Neurons: Evidence that Astrocytes Play an Important Role in Antioxidative Processes in the Brain

Monitoring Expression and Clustering of the Ionotropic 5HT₃Receptor in Plasma Membranes of Live Biological Cells

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A. Preuss

A transient receptor potential channel expressed in taste receptor cells

In vitro Neuronal Production and Differentiation by Precursor Cells Derived from the Adult Human Forebrain

Vitamin E, Ascorbate, Glutathione, Glutathicne Disulfide, and Enzymes of Glutathione Metabolism in Cultures of Chick Astrocytes and Neurons: Evidence that Astrocytes Play an Important Role in Antioxidative Processes in the Brain

Monitoring Expression and Clustering of the Ionotropic 5HT3Receptor in Plasma Membranes of Live Biological Cells

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Monitoring Expression and Clustering of the Ionotropic 5HT₃Receptor in Plasma Membranes of Live Biological Cells