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Amanda R. Decker Matthew S. McNeill Aaron M. Lambert Jeffrey D. Overton Yu-Chia Chen Ramón A. Lorca Nicolas A. Johnson Susan E. Brockerhoff Durga P. Mohapatra Heather MacArthur Pertti Panula Mark A. Masino Loren W. Runnels Robert A. Cornell 《Developmental biology》2014
Transient receptor potential, melastatin-like 7 (Trpm7) is a combined ion channel and kinase implicated in the differentiation or function of many cell types. Early lethality in mice and frogs depleted of the corresponding gene impedes investigation of the functions of this protein particularly during later stages of development. By contrast, zebrafish trpm7 mutant larvae undergo early morphogenesis normally and thus do not have this limitation. The mutant larvae are characterized by multiple defects including melanocyte cell death, transient paralysis, and an ion imbalance that leads to the development of kidney stones. Here we report a requirement for Trpm7 in differentiation or function of dopaminergic neurons in vivo. First, trpm7 mutant larvae are hypomotile and fail to make a dopamine-dependent developmental transition in swim-bout length. Both of these deficits are partially rescued by the application of levodopa or dopamine. Second, histological analysis reveals that in trpm7 mutants a significant fraction of dopaminergic neurons lack expression of tyrosine hydroxylase, the rate-limiting enzyme in dopamine synthesis. Third, trpm7 mutants are unusually sensitive to the neurotoxin 1-methyl-4-phenylpyridinium, an oxidative stressor, and their motility is partially rescued by application of the iron chelator deferoxamine, an anti-oxidant. Finally, in SH-SY5Y cells, which model aspects of human dopaminergic neurons, forced expression of a channel-dead variant of TRPM7 causes cell death. In summary, a forward genetic screen in zebrafish has revealed that both melanocytes and dopaminergic neurons depend on the ion channel Trpm7. The mechanistic underpinning of this dependence requires further investigation. 相似文献
173.
Zvezdan Pavlovic Lin Zhu Leanne Pereira Ratnesh Kumar Singh Rosemary B. Cornell Marica Bakovic 《The Journal of biological chemistry》2014,289(13):9053-9064
CTP:phosphoethanolamine cytidylyltransferase (Pcyt2) is the main regulatory enzyme for de novo biosynthesis of phosphatidylethanolamine by the CDP-ethanolamine pathway. There are two isoforms of Pcyt2, -α and -β; however, very little is known about their specific roles in this important metabolic pathway. We previously demonstrated increased phosphatidylethanolamine biosynthesis subsequent to elevated activity and phosphorylation of Pcyt2α and -β in MCF-7 breast cancer cells grown under conditions of serum deficiency. Mass spectroscopy analyses of Pcyt2 provided evidence for isoform-specific as well as shared phosphorylations. Pcyt2β was specifically phosphorylated at the end of the first cytidylyltransferase domain. Pcyt2α was phosphorylated within the α-specific motif that is spliced out in Pcyt2β and on two PKC consensus serine residues, Ser-215 and Ser-223. Single and double mutations of PKC consensus sites reduced Pcyt2α phosphorylation, activity, and phosphatidylethanolamine synthesis by 50–90%. The phosphorylation and activity of endogenous Pcyt2 were dramatically increased with phorbol esters and reduced by specific PKC inhibitors. In vitro translated Pcyt2α was phosphorylated by PKCα, PKCβI, and PKCβII. Pcyt2α Ser-215 was also directly phosphorylated with PKCα. Mapping of the Pcyt2α- and -β-phosphorylated sites to the solved structure of a human Pcyt2β showed that they clustered within and flanking the central linker region that connects the two catalytic domains and is a novel regulatory segment not present in other cytidylyltransferases. This study is the first to demonstrate differences in phosphorylation between Pcyt2 isoforms and to uncover the role of the PKC-regulated phosphorylation. 相似文献
174.
Roeland Kindt Jens‐Peter B. Lillesø Paulo van Breugel Michael Bingham Sebsebe Demissew Cornell Dudley Ib Friis Francis Gachathi James Kalema Frank Mbago Heriel N. Moshi John W. Mulumba Mary Namaganda Henry J. Ndangalasi Christopher K. Ruffo Védaste Minani Ramni H. Jamnadass Lars Graudal 《应用植被学》2014,17(1):162-171
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Angiotensin stimulates a cellular mitogenic response via the AT1 receptor. We have examined the effect of angiotensin on the rate of phosphatidylcholine (PC) synthesis and have begun to dissect the pathway linking the AT1 receptor to the rate-limiting enzyme in PC synthesis, CTP: phosphocholine cytidylyltransferase (CCT), using CHO cells engineered to express the AT1a receptor. Since CCT can be directly activated by lipid mediators, we probed for their involvement in the PC synthesis response to angiotensin. Angiotensin stimulated CCT activity and PC synthesis two- to threefold after a 30-min delay. The kinetics of this stimulation most closely paralleled an increase in diacylglycerol (DAG) derived from myristic acid-enriched phospholipids. The production of arachidonic acid, phosphatidic acid, or reactive oxygen species either peaked much earlier or not at all. Moreover, manipulation of the intracellular supply of oxygen free radicals, arachidonic acid, HETEs, or phosphatidic acid (using inhibitors and/or exogenous addition) did not generate parallel effects on the rate of PC synthesis. Restricting the production of DAG by inhibition of PLCbeta with U73122 reduced both basal and angiotensin-stimulated PC synthesis. The U73122 inhibition of PC synthesis was accompanied by a similar inhibition of ERK1/2 phosphorylation. Addition of exogenous DAG stimulated basal and angiotensin-dependent PC synthesis, and partially reversed the effect of the PLC inhibitor on PC synthesis. These results do not provide support for lipid mediators as direct stimulators of CCT and PC synthesis downstream of angiotensin, but give rise to the idea that angiotensin effects might be mediated via ERK1/2. 相似文献
178.
Brown SP Cornell SJ Sheppard M Grant AJ Maskell DJ Grenfell BT Mastroeni P 《PLoS biology》2006,4(11):e349
An understanding of within-host dynamics of pathogen interactions with eukaryotic cells can shape the development of effective preventive measures and drug regimes. Such investigations have been hampered by the difficulty of identifying and observing directly, within live tissues, the multiple key variables that underlay infection processes. Fluorescence microscopy data on intracellular distributions of Salmonella enterica serovar Typhimurium (S. Typhimurium) show that, while the number of infected cells increases with time, the distribution of bacteria between cells is stationary (though highly skewed). Here, we report a simple model framework for the intensity of intracellular infection that links the quasi-stationary distribution of bacteria to bacterial and cellular demography. This enables us to reject the hypothesis that the skewed distribution is generated by intrinsic cellular heterogeneities, and to derive specific predictions on the within-cell dynamics of Salmonella division and host-cell lysis. For within-cell pathogens in general, we show that within-cell dynamics have implications across pathogen dynamics, evolution, and control, and we develop novel generic guidelines for the design of antibacterial combination therapies and the management of antibiotic resistance. 相似文献
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