Zinc-specific autometallographic in vivo selenium methods: tracing of zinc-enriched (ZEN) terminals, ZEN pathways, and pools of zinc ions in a multitude of other ZEN cells.

In vivo-applied sodium selenide or sodium selenite causes the appearance of zinc-selenium nanocrystals in places where free or loosely bound zinc ions are present. These nanocrystals can in turn be silver enhanced by autometallographic (AMG) development. The selenium method was introduced in 1982 as a tool for zinc-ion tracing, e.g., in vesicular compartments such as synaptic vesicles of zinc-enriched (ZEN) terminals in the central nervous system, and for visualization of zinc ions in ZEN secretory vesicles of, e.g., somatotrophic cells in the pituitary, zymogene granules in pancreatic acinar cells, beta-cells of the islets of Langerhans, Paneth cells of the crypts of Lieberkühn, secretory cells of the tubuloacinar glands of prostate, epithelium of parts of ductus epididymidis, and osteoblasts. If sodium selenide/selenite is injected into brain, spinal cord, spinal nerves containing sympathetic axons, or intraperitoneally, retrograde axonal transport of zinc-selenium nanocrystals takes place in ZEN neurons, resulting in accumulation of zinc-selenium nanocrystals in lysosomes of the neuronal somata. The technique is, therefore, also a highly specific tool for tracing ZEN pathways. The present review includes an update of the 1982 paper and presents evidence that only zinc ions are traced with the AMG selenium techniques if the protocols are followed to the letter.     

Expression of the yeast plasma membrane [H+]ATPase in secretory vesicles. A new strategy for directed mutagenesis.

Secretory vesicles that accumulate in the temperature-sensitive sec6-4 strain of yeast have been shown to contain a vanadate-sensitive ATPase, presumably en route to the plasma membrane (Walworth, N. C., and Novick, P. J. (1987) J. Cell Biol. 105, 163-174). We have now established this enzyme to be a fully functional form of the PMA1 [H+]ATPase, identical in its catalytic properties to that found in the plasma membrane. In addition, the secretory vesicles are sealed tightly enough to permit the measurement of ATP-dependent proton pumping with fluorescent probes. We have gone on to exploit the vesicles as an expression system for site-directed mutants of the ATPase. For this purpose, a sec6-4 strain has been constructed in which the chromosomal PMA1 gene is under control of the GAL1 promoter; the mutant pma1 allele to be studied is introduced on a centromeric plasmid under the control of a novel heat shock promoter. In galactose medium at 23 degrees C, the wild-type ATPase is produced and supports normal vegetative growth. When the cells are switched to glucose medium at 37 degrees C, however, the wild-type gene turns off, the mutant gene turns on, and secretory vesicles accumulate. The vesicles contain a substantial amount of newly synthesized, plasmid-encoded ATPase (5-10% of total vesicle protein), but only traces of residual wild-type PMA1 ATPase and no detectable mitochondrial ATPase, vacuolar ATPase, or acid or alkaline phosphatase. To test the expression strategy, we have made use of pma1-105 (Ser368----Phe), a vanadate-resistant mutant previously characterized by standard methods (Perlin, D. S., Harris, S. L., Seto-Young, D., and Haber, J. E. (1989) J. Biol. Chem. 264, 21857-21864). In secretory vesicles, as expected, the plasmid-borne pma1-105 allele gives rise to a mutant enzyme with a reduced rate of ATP hydrolysis and a 100-fold increase in Ki for vanadate. Proton pumping is similarly resistant to vanadate. Thus, the vesicles appear well suited for the production and characterization of mutant forms of the PMA1 [H+]ATPase. They should also aid the study of other yeast membrane proteins that are essential for growth as well as heterologous proteins whose appearance in the plasma membrane may be toxic to the cell.     

A new microdialysis-electrochemical device for in vivo simultaneous determination of acetylcholine and choline in rat brain treated with N-methyl-(R)-salsolinol

Acetylcholine (ACh) and choline (Ch) play a critical role in cholinergic neurotransmission and the abnormalities in their concentrations are related to several neural diseases. Therefore, the in vivo determination of ACh and Ch is important to the research on neurodegenerative disorders. In this work, electrochemical biosensors based on poly(m-(1,3)-phenylenediamine) (pmPD) and polytyramine (PTy) modified enzyme electrodes were fabricated. The electropolymerized pmPD polymer was used to exclude interfering substances and the PTy layer facilitated the immobilization of acetylcholinesterase (AChE) and choline oxidase (ChOx). Then, ACh/Ch sensor and Ch sensor were coupled with microdialysis to produce a novel device, which provides a sensitive and selective method for simultaneous determination of ACh and Ch. This method has detection limits of 63.0 ± 3.4 nM for ACh and 25.0 ± 1.2 nM for Ch. The integrated device was successfully applied to assessing the impact of endogenous neurotoxin N-methyl-(R)-salsolinol [1(R),2-dimethyl-6,7-dihydroxy-1,2,3,4-tetrahydroisoquinoline, (R)-NMSal] on ACh and Ch concentration, which is of great benefit to understand the pathogenesis of Parkinson's disease.     

A kinetic and allosteric model for the acetylcholine transporter-vesamicol receptor in synaptic vesicles.

The ligand binding relationship between the acetylcholine transporter (AcChT) and the vesamicol receptor (VR) and the kinetics of active transport were studied in synaptic vesicles purified from the Torpedo electric organ using analogues of AcCh and vesamicol. Methoxyvesamicol, which should exhibit better equilibration properties for kinetics measurements than the more potent parent, inhibits active transport in a nonlinear noncompetitive manner. AcCh analogues competitively inhibit binding of [3H]vesamicol with higher affinity in hyposmotically lysed vesicle ghosts than in intact vesicles, apparently due to removal of a competing internal, osmotically active factor. AcCh and actively transported analogues of AcCh that are up to 57% larger in van der Waals volume exhibit up to a 200-fold ratio for the dissociation constant measured by inhibition of vesamicol binding to ghosts (KIAg) compared to the Michaelis constant for transport (KM) or the IC50 value for inhibition of [3H]AcCh active transport. In contrast, two AcCh analogues that are about 120% larger and that almost surely are not transported exhibit a KIAg/IC50 ratio of about 1. The data demonstrate that the vesamicol family of compounds binds to an allosteric site in the AcChT. Initiation of active transport has no apparent effect on the affinities of vesamicol and AcCh analogues, which suggests that most of the AcChT-VR in purified vesicles is transport incompetent. Vesicle ghosts actively transport [3H]AcCh nearly as well as intact vesicles, which suggests that internal factor does not affect transport-competent AcChT-VR. A kinetics model is proposed that predicts that AcCh analogues exhibiting a KIAg/IC50 ratio significantly greater than 1 are actively transported. Some of the microscopic constants in the model are estimated. The AcChT binds AcCh very weakly with a dissociation constant of about 20-50 mM, but it transports substrates rapidly in a process exhibiting remarkably little selectivity for the detailed shape and volume of the transported ion.     

连接介导PCR及其在体内足迹研究中的应用

连接介导聚合酶链反应是以连接反应为基础的单侧PCR技术,首先在DNA片段的一端连接上一个公共连接子,而后在这个连接子与另一个DNA序列特异的引物间扩增.Vent聚合酶的使用,延伸产物捕获及连接子标记选择策略的采用,大大提高了连接介导聚合酶链反应的敏感性.这一技术的发明大大促进了体内足迹等研究的进行.     

Evolution in Carex L. sect. Spirostachyae (Cyperaceae): A molecular and cytogenetic approach

Carex sect. Spirostachyae comprises 25 species displaying the centre of diversity in Eurasia. Phylogenetic analysis of the ITS nrDNA region of 20 species of sect. Spirostachyae, six species of sect. Ceratocystis, five species of sect. Elatae, and eight outgroup species reveals that neither sect. Spirostachyae nor sect. Elatae is monophyletic. With the exclusion of Carex cretica, the 19 species of sect. Spirostachyae studied form a clade with the five species of tropical-subtropical sect. Elatae. Taxonomy of the core Spirostachyae is not only mostly in agreement with our phylogenetic hypothesis, but also with ecological and new cytogenetic results. Two main groups with different chromosome numbers and edaphic preferences are identified in the core Spirostachyae. One includes primarily acidophilous species with high chromosome numbers (2n=(64)68–84), whereas the other one includes mainly basophilous species with lower chromosome numbers (2n=60–74(75)). Chromosome-number variation is extremely different in the core Spirostachyae, showing great stability in some widespread species (e.g. Carex extensa) but an active chromosome evolution – faster chromosomal rearrangements, fusion and fission events than ITS nucleotide substitutions – in more restricted species (e.g. Carex troodi). Biogeography of the two amphiatlantic pairs of species reveals two independent colonizations of South America from the European continent. The geographical barrier of the Strait of Gibraltar has played different roles in the course of evolution of this section, acting as an effective barrier to gene flow in one case (Carex helodes) but as a limited barrier or recent separation in two others (Carex distans, Carex punctata).     

Effects of progestagens and Org OD14 in in vitro and in vivo tumor models

Sex steroids, in particular estradiol (E2) and progesterone (P4), play, together with other hormones and growth factors, a role in the development of normal breast tissue. The effect of four progestagens (norethisterone, 3-ketodesogestrel, gestodene and P4) and Org OD14, a steroid with weak estrogenic, progestagenic and androgenic properties were studied on growth of breast tumor cells in vitro using two subclones of MCF-7 (H and A) and T47D (S and A) cells. In addition, we investigated the effects of 3-ketodesogestrel, gestodene and Org OD14 on the growth of 7,12-dimethyl-benz(a)anthracene(DMBA)-induced mammary tumors in rats. In the in vitro assays with MCF-7 cells norethisterone, 3-ketodesogestrel and gestodene stimulated growth only at high doses (10⁻⁷ M), whereas P4 had no effect. Gestodene was more potent than 3-ketodesogestrel and norethisterone. Org OD14, stimulated cell growth at a dose of 10⁻⁸ M, while E2 is active at 10⁻¹⁰ M. In T47D-A cells similar effects were found, but the subclone S did not respond to the progestagens and Org OD14. The two T47D subclones also reacted differently to progestagens during growth stimulation with E2. In T47D-S the progestagens and Org OD14 inhibited, while in T47D-A these compounds did not modulate the effect of E2. In the DMBA model we found that gestodene and 3-ketodesogestrel were able to inhibit tumor growth to the same extent. Surprisingly, Org OD14 was even more effective in the DMBA model using the therapeutic approach. Using the prophylaxic approach tumor development was delayed and tumor growth was strongly suppressed. The inhibitory effects of Org OD14 on tumor growth in the DMBA model may be attributed to its mixed hormonal profile. From these studies we conclude that different cell lines and even subclones thereof respond quite differently to steroids. Both in vitro and in vivo studies are required to judge whether synthetic steroids might be involved in an increased risk for the development of breast tumors.     

The efficacy of new colchicine derivatives and viability of the T-Lymphoblastoid cells in three-dimensional culture using F MRI and HPLC-UV ex vivo

The paper describes ex vivo applications of colchicine derivatives for the treatment of human T-Lymphoblastoid (CEM) cells. Moreover, the role of the substitutions of ring A at C-1 and C-7 side chain of colchicine analogues was probed by the synthesis and examination of their effects on the three-dimensional (3-D) CEM cells’ growth. The CEM cells were cultured in the hollow fiber bioreactor (HFB) device. We used ¹H and ¹⁹F magnetic resonance imaging (MRI) to monitor changes in 3-D CEM cell culture. ¹⁹F MRI was used for visualization of the cellular uptake of new fluorine derivatives. Before and after treatment CEM cells profile was investigated with high performance liquid chromatography (HPLC-UV).     

The subcellular localizations of atypical synaptotagmins III and VI. Synaptotagmin III is enriched in synapses and synaptic plasma membranes but not in synaptic vesicles.

Multiple synaptotagmins are expressed in brain, but only synaptotagmins I and II have known functions in fast, synchronous Ca2+-triggered neurotransmitter release. Synaptotagmin III was proposed to regulate other aspects of synaptic vesicle exocytosis, particularly its slow component. Such a function predicts that synaptotagmin III should be an obligatory synaptic vesicle protein, as would also be anticipated from its high homology to synaptotagmins I and II. To test this hypothesis, we studied the distribution, developmental expression, and localization of synaptotagmin III and its closest homolog, synaptotagmin VI. We find that synaptotagmins III and VI are present in all brain regions in heterogeneous distributions and that their levels increase during development in parallel with synaptogenesis. Furthermore, we show by immunocytochemistry that synaptotagmin III is concentrated in synapses, as expected. Surprisingly, however, we observed that synaptotagmin III is highly enriched in synaptic plasma membranes but not in synaptic vesicles. Synaptotagmin VI was also found to be relatively excluded from synaptic vesicles. Our data suggest that synaptotagmins III and VI perform roles in neurons that are not linked to synaptic vesicle exocytosis but to other Ca2+-related nerve terminal events, indicating that the functions of synaptotagmins are more diverse than originally thought.     

A new experimental approach and signal processing scheme for the detection and quantitation of P brain neurochemicals from in vivo MRS studies using dual tuned (H/P) head coil

Brain ³¹P-neurometabolites play an important role in energy and membrane metabolism. Unambiguous identification and quantification of these neurochemicals in different brain regions would be a great aid in advancing the understanding of metabolic processes in the nervous system. Phosphomonoester (PME), consisting of phosphoethanolamine (PE) and phosphocholine (PC), is the “building block” for membranes, while phosphodiesters (PDE), consisting of glycerophosphocholine (GPC) and glycerophosphoethanolamine (GPE) metabolites are involved in the membrane breakdown process. In the clinical setting, generating well-resolved spectra for PC, PE, GPC, and GPE could be crucial phospholipids in providing information regarding membrane metabolism. We present here a new experimental approach for generating well-resolved ³¹P spectra for PC and PE as well as for GPC, GPE, and other ³¹P metabolites. Our results (based on uni-dimensional (1D) and multi-voxel ³¹P studies) indicate that an intermediate excitation pulse angle (35°) is best suited to obtain well-resolved PC/PE and GPC/GPE resonance peaks. Our novel signal processing scheme allows generating metabolite maps of different phospholipids include PC/PE and GPC/GPE using the ‘time-domain–frequency-domain’ method as referred to in the MATLAB programming language.     

A method for continuous in vivo measurement of hemolymph conductivity in crabs

A miniaturized conductivity measuring device has been developed to monitor in vivo hemolymph conductivity in crabs. The device measures the conductivity by means of implanted platinum electrodes, and transmits the data via radiotelemetry to a receiving station through 6 ft of water. Crabs used in these investigations survived the insertion of the conductivity probe and appeared to behave and feed normally for up to one week with the probe in position. Blue crabs, Callinectes sapidus Rathbun, which were acclimated to either 5 or 35 ‰ were abruptly transferred to 35 and 5 ‰, respectively and the rate of change of hemolymph conductivity sucessfully monitored. The time required for the conductivity (ionic composition) change in the hemolymph of the crabs after transfer varied from 12 to 16 h for crabs transferred from 35 to 5 ‰ to less than an hour when the change was from 5 to 35 ‰.     

罗汉果花气味物质量化分析方法研究

罗汉果(Siraitia grosvenorii)是葫芦科著名的药食两用植物,广泛种植于广西桂林地区,其开花后传粉不良现象迫切需要研究解决。为了探讨罗汉果花朵气味物质与传粉者访花频率的关系以及查明传粉不良产生的原因,该文选择罗汉果雄花为材料,研究了罗汉果花朵气味物质的量化分析方法。实验采用动态顶空吸附法收集新鲜花朵的气味物质,经过洗脱、洗脱液吹氮和GC-MS分析等步骤,先后完成了花朵气味物质的收集、浓缩、分离和鉴定,最后以峰面积归一化法计算各化学组分的相对含量。结果表明:从供试花朵中检测到挥发性组分(包括萜烯类物质) 5种,以及芳香烃类、烷烃类、酯类物质各1种,其中萜烯类物质的相对含量达71.07%,是供试花朵最主要的挥发性化合物。该结果高度符合葫芦科植物花朵气味的化学组分特征,并具有良好的实验重复性,表明该实验体系是收集和鉴定罗汉果花朵气味组分的理想方法,为后续开展罗汉果花气味物质研究奠定了重要基础。同时通过与葫芦科多种植物比较,发现罗汉果的花朵气味物质可能存在雌雄二型性。