Leo Hawel scite author profile

The clinicopathological features of the hamster model of visceral leishmaniasis (VL) closely mimic active human disease. Studies in humans and hamsters indicate that the inability to control parasite replication in VL could be related to ineffective classical macrophage activation. Therefore, we hypothesized that the pathogenesis of VL might be driven by a program of alternative macrophage activation. Indeed, the infected hamster spleen showed low NOS2 but high arg1 enzyme activity and protein and mRNA expression (p<0.001) and increased polyamine synthesis (p<0.05). Increased arginase activity was also evident in macrophages isolated from the spleens of infected hamsters (p<0.05), and arg1 expression was induced by L. donovani in primary hamster peritoneal macrophages (p<0.001) and fibroblasts (p<0.01), and in a hamster fibroblast cell line (p<0.05), without synthesis of endogenous IL-4 or IL-13 or exposure to exogenous cytokines. miRNAi-mediated selective knockdown of hamster arginase 1 (arg1) in BHK cells led to increased generation of nitric oxide and reduced parasite burden (p<0.005). Since many of the genes involved in alternative macrophage activation are regulated by Signal Transducer and Activator of Transcription-6 (STAT6), and because the parasite-induced expression of arg1 occurred in the absence of exogenous IL-4, we considered the possibility that L. donovani was directly activating STAT6. Indeed, exposure of hamster fibroblasts or macrophages to L. donovani resulted in dose-dependent STAT6 activation, even without the addition of exogenous cytokines. Knockdown of hamster STAT6 in BHK cells with miRNAi resulted in reduced arg1 mRNA expression and enhanced control of parasite replication (p<0.0001). Collectively these data indicate that L. donovani infection induces macrophage STAT6 activation and STAT6-dependent arg1 expression, which do not require but are amplified by type 2 cytokines, and which contribute to impaired control of infection.

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Identification and Characterization of a Diamine Exporter in Colon Epithelial Cells

Uemura

Yerushalmi

Tsaprailis³

et al. 2008

Journal of Biological Chemistry

100

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SLC3A2, a member of the solute carrier family, was identified by proteomics methods as a component of a transporter capable of exporting the diamine putrescine in the Chinese hamster ovary (CHO) cells selected for resistance to growth inhibition by high exogenous concentrations of putrescine. Putrescine transport was increased in inverted plasma membrane vesicles prepared from cells resistant to growth inhibition by putrescine compared with transport in inverted vesicles prepared from non-selected cells. Knockdown of SLC3A2 in human cells, using short hairpin RNA, caused an increase in putrescine uptake and a decrease in arginine uptake activity. SLC3A2 knockdown cells accumulated higher polyamine levels and grew faster than control cells. The growth of SLC3A2 knockdown cells was inhibited by high concentrations of putrescine. Knockdown of SLC3A2 reduced export of polyamines from cells. Expression of SLC3A2 was suppressed in human HCT116 colon cancer cells, which have an activated K-RAS, compared with their isogenic clone, Hkh2 cells, which lack an activated K-RAS allele. Spermidine/ spermine N 1 -acetyltransferase (SAT1) was co-immunoprecipitated by an anti-SLC3A2 antibody as was SLC3A2 with an anti-SAT1 antibody. SLC3A2 and SAT1 colocalized on the plasma membrane. These data provide the first molecular characterization of a polyamine exporter in animal cells and indicate that the diamine putrescine is exported by an arginine transporter containing SLC3A2, whose expression is negatively regulated by K-RAS. The interaction between SLC3A2 and SAT1 suggests that these proteins may facilitate excretion of acetylated polyamines.Polyamines are essential for normal cellular functions (1, 2). They bind to intracellular polyanions such as nucleic acids and ATP and modulate their functions (3). Intracellular polyamine content is increased in response to growth stimuli (4) and regulated by biosynthesis and degradation (5). Uptake and export also play important roles in the regulation of cellular polyamine levels (5).In recent years, polyamine transporters have been identified in bacteria, yeast, and protozoa, and their properties have been studied. In Escherichia coli, polyamine uptake is mediated by three systems, the spermidine-preferential uptake system PotABCD (6, 7), the putrescine-specific uptake system Pot-FGHI (8), and PuuP (9). Export of polyamines is mediated by PotE (10), CadB (11), and MdtJI (12) in E. coli. Blt is a polyamine exporter in Bacillus subtilis (13). In Saccharomyces cerevisiae, uptake of polyamines is mediated by DUR3, SAM3, GAP1 (14, 15), and AGP2 (16) on the plasma membrane and UGA4 on vacuolar membranes (17). The four transporters TPO1-4 on the plasma membrane (18 -20) and TPO5 on the post-Golgi secretory vesicles (21) are polyamine exporters in yeast. A plasma membrane polyamine transporter, LmPot1, in protozoan parasite Leishmania major (22) has been described. In these unicellular organisms, polyamine transport involves protein channels.In animal cells, polyamine uptake is mediated, at least...

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Optimization of cDNA Representational Difference Analysis for the Identification of Differentially Expressed mRNAs

Pastorian

Hawel

Byus

2000

Analytical Biochemistry

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LPS-induced CCL2 expression and macrophage influx into the murine central nervous system is polyamine-dependent

Puntambekar¹,

Davis²,

Hawel³

et al. 2011

Brain, Behavior, and Immunity

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Increased polyamine production is observed in a variety of chronic neuroinflammatory disorders, but in vitro and in vivo studies yield conflicting data on the immunomodulatory consequences of their production. Ornithine decarboxylase (ODC) is the rate-limiting enzyme in endogenous polyamine production. To identify the role of polyamine production in CNS-intrinsic inflammatory responses, we defined CNS sites of ODC expression and the consequences of inhibiting ODC in response to intracerebral injection of LPS+/− IFNγ. In situ hybridization analysis revealed that both neurons and non-neuronal cells rapidly respond to LPS+/− IFNγ by increasing ODC expression. Inhibiting ODC by co-injecting DFMO decreased LPS-induced CCL2 expression and macrophage influx into the CNS, without altering LPS-induced microglial or macrophage activation. Conversely, intracerebral injection of polyamines was sufficient to trigger macrophage influx into the CNS of wild-type but not CCL2KO mice, demonstrating the dependence of macrophage influx on CNS expression of CCL2. Consistent with these data, addition of putrescine and spermine to mixed glial cultures dramatically increased CCL2 expression and to a much lesser extent, TNF expression. Addition of all three polyamines to mixed glial cultures also decreased the numbers and percentages of oligodendrocytes present. However, in vivo, inhibiting the basal levels of polyamine production was sufficient to induce expression of apolipoprotein D, a marker of oxidative stress, within white matter tracts. Considered together, our data indicate that: (1) CNS-resident cells including neurons play active roles in recruiting pro-inflammatory TREM1+ macrophages into the CNS via polyamine-dependent induction of CCL2 expression and (2) modulating polyamine production in vivo may be a difficult strategy to limit inflammation and promote repair due to the dual homeostatic and pro-inflammatory roles played by polyamines.

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Regional variation of the inwardly rectifying potassium current in the canine heart and the contributions to differences in action potential repolarization

Cordeiro

Zeina

Goodrow

et al. 2015

Journal of Molecular and Cellular Cardiology

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Background The inward rectifier potassium current, IK1, contributes to the terminal phase of repolarization of the action potential (AP), as well as the value and stability of the resting membrane potential. Regional variation in IK1 has been noted in the canine heart, but the biophysical properties have not been directly compared. We examined the properties and functional contribution of IK1 in isolated myocytes from ventricular, atrial and Purkinje tissue. Methods and Results APs were recorded from canine left ventricular midmyocardium, left atrial and Purkinje tissue. The terminal rate of repolarization of the AP in ventricle, but not in Purkinje, depended on changes in external K+ ([K+]o). Isolated ventricular myocytes had the greatest density of IK1 while atrial myocytes had the lowest. Furthermore, the outward component of IK1 in ventricular cells exhibited a prominent outward component and steep negative slope conductance, which was also enhanced in 10 mM [K+]o. In contrast, both Purkinje and atrial cells exhibited little outward IK1, even in the presence of 10 mM [K+]o, and both cell types showed more persistent current at positive potentials. Expression of Kir2.1 in the ventricle was 76.9-fold higher than that of atria and 5.8-fold higher than that of Purkinje, whereas the expression of Kir2.2 and Kir2.3 subunits was more evenly distributed in Purkinje and atria. Finally, AP clamp data showed distinct contributions of IK1 for each cell type. Conclusions IK1 and Kir2 subunit expression vary dramatically in regions of the canine heart and these regional differences in Kir2 expression likely underlie regional distinctions in IK1 characteristics, contributing to variations in repolarization in response to in [K+]o changes.

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Leo Hawel

Progressive Visceral Leishmaniasis Is Driven by Dominant Parasite-induced STAT6 Activation and STAT6-dependent Host Arginase 1 Expression

Identification and Characterization of a Diamine Exporter in Colon Epithelial Cells

Optimization of cDNA Representational Difference Analysis for the Identification of Differentially Expressed mRNAs

LPS-induced CCL2 expression and macrophage influx into the murine central nervous system is polyamine-dependent

Regional variation of the inwardly rectifying potassium current in the canine heart and the contributions to differences in action potential repolarization

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