Faithful expression of GFP from the PLCbeta2 promoter in a functional class of taste receptor cells

Phospholipase C-type beta2 (PLCbeta2) is expressed in a subset of cells within mammalian taste buds. This enzyme is involved in the transduction of sweet, bitter, and umami stimuli and thus is believed to be a marker for gustatory sensory receptor cells. We have developed transgenic mice expressing green fluorescent protein (GFP) under the control of the PLCbeta2 promoter to enable one to identify these cells and record their physiological activity in living preparations. Expression of GFP (especially in lines with more than one copy integrated) is strong enough to be detected in intact tissue preparations using epifluorescence microscopy. By immunohistochemistry, we confirmed that the overwhelming majority of cells expressing GFP are those that endogenously express PLCbeta2. Expression of the GFP transgene in circumvallate papillae occurs at about the same time during development as endogenous PLCbeta2 expression. When loaded with a calcium-sensitive dye in situ, GFP-positive taste cells produce typical Ca2+ responses to a taste stimulus, the bitter compound cycloheximide. These PLCbeta2 promoter-GFP transgenic lines promise to be useful for studying taste transduction, sensory signal processing, and taste bud development.     

Counter-selectable marker for bacterial-based interaction trap systems

Counter-selectable markers can be used in two-hybrid systems to search libraries for a protein or compound that interferes with a macromolecular interaction or to identify macromolecules from a population that cannot mediate a particular interaction. In this report, we describe the adaptation of the yeast URA3/5-FOA counter-selection system for use in bacterial interaction trap experiments. Two different URA3 reporter systems were developed that allow robust counter-selection: (i) a single copy F' episome reporter and (ii) a co-cistronic HIS3-URA3 reporter vector. The HIS3-URA3 reporter can be used for either positive or negative selections in appropriate bacterial strains. These reagents extend the utility of the bacterial two-hybrid system as an alternative to its yeast-based counterpart.     

Regulation of the 5‐HT3A Receptor‐Mediated Current by Alkyl 4‐Hydroxybenzoates Isolated from the Seeds of Nelumbo nucifera

Four known alkyl 4‐hydroxybenzoates, i.e., methyl 4‐hydroxybenzoate ( 1 ), ethyl 4‐hydroxybenzoate ( 2 ), propyl 4‐hydroxybenzoate ( 3 ), and butyl 4‐hydroxybenzoate ( 4 ), were isolated from the seeds of Nelumbo nucifera Gaertner (Nymphaeaceae) for the first time. The structures of the isolates were identified by 1D‐ and 2D‐NMR spectroscopy and comparison with published values. The compounds were evaluated for their effects on the 5‐HT‐stimulated inward current (I_5‐HT) mediated by the human 5‐HT₃A receptors expressed in Xenopus oocytes. Compounds 1 and 2 enhanced the I_5‐HT, but 4 reduced it. These results indicate that 4 is an inhibitor of the 5‐HT₃A receptors expressed in Xenopus oocytes.     

Synthesis of Tc-99m labeled 1,2,3-triazole-4-yl c-met binding peptide as a potential c-met receptor kinase positive tumor imaging agent

The mesenchymal-epithelial transition factor (c-Met), which is related to tumor cell growth, angiogenesis and metastases, is known to be overexpressed in several tumor types. In this study, we synthesized technetium-99m labeled 1,2,3-triazole-4-yl c-Met binding peptide (cMBP) derivatives, prepared by solid phase peptide synthesis and the ‘click-to-chelate’ protocol for the introduction of tricarbonyl technetium-99m, as a potential c-Met receptor kinase positive tumor imaging agent, and evaluated their in vitro c-Met binding affinity, cellular uptake, and stability. The ^99mTc labeled cMBP derivatives ([^99mTc(CO)₃]12, [^99mTc(CO)₃]13, and [^99mTc(CO)₃]14) were prepared in 85-90% radiochemical yields. The cold surrogate cMBP derivatives, [Re(CO)₃]12, [Re(CO)₃]13, and [Re(CO)₃]14, were shown to have high binding affinities (0.13 μM, 0.06 μM, and 0.16 μM, respectively) to a purified cMet/Fc chimeric recombinant protein. In addition, the in vitro cellular uptake and inhibition studies demonstrated the high specific binding of these ^99mTc labeled cMBP derivatives ([^99mTc(CO)₃]12–14) to c-Met receptor positive U87MG cells.     

Ultrastructural changes in Cryptosporidium parvum oocysts by gamma irradiation

Cryptosporidium parvum is known as one of the most highly resistant parasites to gamma irradiation. To morphologically have an insight on the radioresistance of this parasite, ultrastructural changes in C. parvum sporozoites were observed after gamma irradiation using various doses (1, 5, 10, and 25 kGy) following a range of post-irradiation incubation times (10 kGy for 6, 12, 24, 48, 72, and 96 hr). The ultrastructures of C. parvum oocysts changed remarkably after a 10-kGy irradiation. Nuclear membrane changes and degranulation of dense granules were observed with high doses over 10 kGy, and morphological changes in micronemes and rhoptries were observed with very high doses over 25 kGy. Oocyst walls were not affected by irradiation, whereas the internal structures of sporozoites degenerated completely 96 hr post-irradiation using a dose of 10 kGy. From this study, morphological evidence of radioresistance of C. parvum has been supplemented.     

Improving antioxidant activity in transgenic <Emphasis Type="Italic">Codonopsis lanceolata</Emphasis> plants via overexpression of the γ-tocopherol methyltransferase (γ-<Emphasis Type="Italic">tmt)</Emphasis> gene

Codonopsis lanceolata Trautv (Companulaceae) is a folk medicine in Korea. To shift the content of tocopherol and enhance its antioxidant properties, we overexpressed the γ-tocopherol methyltransferase (γ-tmt) gene in C. lanceolata. The antioxidant activity of methanolic crude extracts of the transgenic plants was compared to that of control plants using the 1,1-diphenyl-2-picrylhydrazyl radical scavenging method, with α-tocopherol and butylated hydroxy toluene as standard antioxidants. The antioxidant activity of the leaf and root extracts of transgenic plants was higher (IC ₅₀ 12–17.33 and 408–524 μg/ml, respectively) than that of control plant leaf and root extracts (18 and 529 μg/ml, respectively). High-performance liquid chromatography analysis of phenolic compounds confirmed an increase in the levels of 12 major phenolic acids and flavonoids in the leaf and root extracts of transgenic plants compared to control plants. We also found that the rate of photosynthesis was 48% higher in transgenic plants than in control plants. Based on these results, we suggest that increases in the α-tocopherol level in transgenic C. lanceolata plants may result in increases in the photosynthetic performance and antioxidant metabolism of these plants.     

Hsp90-Cdc37 chaperone complex regulates Ulk1- and Atg13-mediated mitophagy

Autophagy, the primary recycling pathway of cells, plays a critical role in mitochondrial quality control under normal growth conditions and in the response to cellular stress. The Hsp90-Cdc37 chaperone complex coordinately regulates the activity of select kinases to orchestrate many facets of the stress response. Although both maintain mitochondrial integrity, the relationship between Hsp90-Cdc37 and autophagy has not been well characterized. Ulk1, one of the mammalian homologs of yeast Atg1, is a serine-threonine kinase required for mitophagy. Here we show that the interaction between Ulk1 and Hsp90-Cdc37 stabilizes and activates Ulk1, which in turn is required for the phosphorylation and release of Atg13 from Ulk1, and for the recruitment of Atg13 to damaged mitochondria. Hsp90-Cdc37, Ulk1, and Atg13 phosphorylation are all required for efficient mitochondrial clearance. These findings establish a direct pathway that integrates Ulk1- and Atg13-directed mitophagy with the stress response coordinated by Hsp90 and Cdc37.