Lithium inhibits aluminum-induced apoptosis in rabbit hippocampus,by preventing cytochrome c translocation,Bcl-2 decrease,Bax elevation and caspase-3 activation

A variety of studies on neuronal death models suggest that lithium has neuroprotective properties. In the present investigation, we have examined the effect of chronic lithium treatment on hippocampus, as monitored by changes at the subcellular level of apoptosis-regulatory proteins which have been induced by the neurotoxin, aluminum maltolate. Intracisternal administration of aluminum into rabbit brain induces cytochrome c release, decreases levels of the anti-apoptotic proteins Bcl-2 and Bcl-X(L), increases levels of the pro-apoptotic Bax, activates caspase-3, and causes DNA fragmentation as measured by the TUNEL assay. Pretreatment for 14 days with 7 mm of lithium carbonate in drinking water prevents aluminum-induced translocation of cytochrome c, and up-regulates Bcl-2 and Bcl-X(L,) down-regulates Bax, abolishes caspase-3 activity and reduces DNA damage. The regulatory effect of lithium on the apoptosis-controlling proteins occurs in both the mitochondria and endoplasmic reticulum. We propose that the neuroprotective effect of lithium involves the modulation of apoptosis-regulatory proteins present in the subcellular organelles of rabbit brain.     

Comparison of the effects of serotonin selective,norepinephrine selective,and dual serotonin and norepinephrine reuptake inhibitors on lower urinary tract function in cats

Previous studies showed that the dual serotonin (5-hydroxytryptamine, 5-HT) and norepinephrine (NE) reuptake inhibitor, duloxetine, increases bladder capacity and urethral sphincter electromyographic (EMG) activity in a cat model of acetic acid-induced bladder irritation. The present study aimed to determine the relative importance of 5-HT versus NE reuptake inhibition for mediating these effects by examining drugs that are selective for either the 5-HT or NE system or both. Similar to duloxetine, venlafaxine (0.1 to 10 mg/kg), also a dual serotonin and norepinephrine reuptake inhibitor, produced marked increases in bladder capacity and EMG activity that were reversed by methiothepin (0.3 mg/kg). S-norfluoxetine (0.01 to 10 mg/kg), a serotonin selective reuptake inhibitor, produced small but significant increases in bladder capacity and EMG activity at doses of 3 and 10 mg/kg. Thionisoxetine (0.01 to 3.0 mg/kg), a NE selective reuptake inhibitor, produced no effects on bladder capacity or sphincter EMG activity. Surprisingly, co-administration of thionisoxetine and s-norfluoxetine up to doses of 1 mg/kg of each compound produced no effect on lower urinary tract function. These doses were the maximum that could be administered in combination due to drug-induced emergence of skeletal muscle activity in chloralose-anesthetized animals. These results indicate that there are unexplained pharmacological differences between the effects of single compounds that exhibit dual NE and 5-HT reuptake inhibition and a combination of compounds that exhibit selective NE and 5-HT reuptake inhibition on lower urinary tract function.     

Tritrichomonas foetus: characterization of isolates and partial purification of a secreted cytotoxin

Putative virulence factors including extracellular proteases, hemagglutinin, hemolysins, and soluble cytotoxins may play significant roles in the pathogenesis of trichomoniasis. The cytotoxicity, hemagglutinating, and hemolytic activity of Tritrichomonas foetus isolate ATCC #30003 and several field isolates were compared. All isolates were hemolytic toward mouse and bovine erythrocytes but not other tested species. The isolates varied significantly in hemagglutinating ability and cytotoxin production. A 40,000 Da soluble cytotoxin was partially purified and characterized. Chromatography separated cytotoxic activity from hemagglutinating and hemolytic activity but not from protease activity. However, protease assays indicated that protease activity was inversely correlated with cytotoxic activity. Characterization studies indicated that cytotoxic activity was destroyed by heat and acidic conditions but repeated freeze/thawing did not diminish activity. Target cell specificity assays showed Henle cells were twice as sensitive to the effects of the cytotoxin as Vero cells. These results suggest that T. foetus isolates vary in the production of virulence factors and produce a soluble relatively stable non-protease cytotoxic protein capable of killing cultured mammalian cells in vitro.     

Tumor necrosis factor-alpha converting enzyme (TACE) regulates epidermal growth factor receptor ligand availability

We previously implicated tumor necrosis factor-alpha converting enzyme (TACE/ADAM17) in the processing of the integral membrane precursor to soluble transforming growth factor-alpha (TGF-alpha), pro-TGF-alpha. Here we examined TGF-alpha processing in a physiologically relevant cell model, primary keratinocytes, showing that cells lacking TACE activity shed dramatically less TGF-alpha as compared with wild-type cultures and that TGF-alpha cleavage was partially restored by infection of TACE-deficient cells with TACE-encoding adenovirus. Moreover, cotransfection of TACE-deficient fibroblasts with pro-TGF-alpha and TACE cDNAs increased shedding of mature TGF-alpha with concomitant conversion of cell-associated pro-TGF-alpha to a processed form. Purified TACE accurately cleaved pro-TGF-alpha in vitro at the N-terminal site and also cleaved a soluble form of pro-TGF-alpha containing only the ectodomain at the C-terminal site. In vitro, TACE accurately cleaved peptides corresponding to cleavage sites of several epidermal growth factor (EGF) family members, and transfection of TACE into TACE-deficient cells increased the shedding of amphiregulin and heparin-binding EGF (HB-EGF) proteins. Consistent with the hypothesis that TACE regulates EGF receptor (EGFR) ligand availability in vivo, mice heterozygous for Tace and homozygous for an impaired EGFR allele (wa-2) were born with open eyes significantly more often than Tace(+/+)Egfr(wa-2)(/)(wa-2) counterparts. Collectively, these data support a broad role for TACE in the regulated shedding of EGFR ligands.     

Nuclear injection of anti-pigpen antibodies inhibits endothelial cell division

Endothelial cell proliferation is required for angiogenesis in both embryonic and adult tissues. In rat brain tumors, it has recently been shown that the nuclear protein pigpen is expressed selectively in endothelial cells of developing microvasculature but not in the established peritumoral vessels (Blank, M., Weinschenk, T., Priemer, M., and Schluesener, H. (2001) J. Biol. Chem. 276, 16464-16468). This finding suggests that pigpen may be important for promoting the undifferentiated, or "angiogenic" endothelial cell phenotype. Our studies show that pigpen protein and mRNA are expressed in actively dividing endothelial cells and down-regulated as they become confluent. Protein distribution is regulated in a cell cycle-dependent manner. We conclude that this expression pattern is important for and not simply ancillary to proliferation because nuclear microinjection of anti-pigpen Fab fragments inhibited endothelial cell division. Moreover, expression of the proliferating cell marker Ki67 was inhibited in antibody-injected cells. The absence of Ki67 suggests exit from rather than arrest within (for example, at the G(1)/S interface) the cell cycle. Together with earlier observations on the structure and expression of this molecule, our data support the hypothesis that pigpen helps regulate endothelial cell differentiation state.     

Nuclear import of PKCdelta is required for apoptosis: identification of a novel nuclear import sequence

We have shown previously that protein kinase Cdelta (PKCdelta) is required for mitochondrial-dependent apoptosis. Here we show that PKCdelta is imported into the nucleus of etoposide-treated cells, that nuclear import is required for apoptosis and that it is mediated by a nuclear localization signal (NLS) in the C-terminus of PKCdelta. Mutation of the caspase cleavage site of PKCdelta inhibits nuclear accumulation in apoptotic cells, indicating that caspase cleavage facilitates this process. Expression of the PKCdelta catalytic fragment (CFdelta) in transfected cells results in nuclear localization and apoptosis. We show that the PKCdelta NLS is required for nuclear import of both full-length PKCdelta and CFdelta, and drives nuclear localization of a multimeric green fluorescent protein. Mutations within the NLS of CFdelta prevent nuclear accumulation and block apoptosis. Conversely, nuclear expression of a kinase-negative catalytic fragment (KN-CFdelta) protects cells from etoposide-induced apoptosis. Mutation of the NLS blocks the ability of KN-CFdelta to protect against etoposide-induced apoptosis. These results indicate that PKCdelta regulates an essential nuclear event(s) that is required for initiation of the apoptotic pathway.     

Development of a high-throughput fluorescence polarization assay for Bcl-x(L)

Antiapoptotic protein Bcl-x(L) has been demonstrated to play a very important role in a variety of diseases such as cancer. Its biological function can be inhibited by proapoptotic proteins such Bak, Bad, and Bax by forming complexes mediated primarily by the Bcl-2 homology 3 (BH3) domain. To facilitate drug discovery for Bcl-x(L) inhibitors, we have developed and optimized a fluorescence polarization assay based on the interaction between Bcl-x(L) and BH3 domain peptides. We observed that the fluorescein-labeled Bad BH3 peptide [NLWAAQRYGRELRRMSDK(fluorescein)FVD or fluorescent Bad peptide] generates best overall results. Fluorescent Bad peptide interacts strongly with Bcl-x(L) with a K(d) of 21.48nM. The assay is stable over a 24-h period and can tolerate the presence of dimethyl sulfoxide up to 8%. By using a competition assay, several peptides derived from the BH3 region of Bak, Bad, Bax, and Bcl-2 were investigated. Bad and Bak BH3 peptides compete efficiently with IC(50) values of 0.048 and 1.14 microM, respectively, while the peptides from the BH3 region of Bcl-2 and Bax compete weakly. A mutated Bak peptide, which has been shown to be inactive for binding to Bcl-x(L), did not compete. The relative binding order of the peptides (Bad>Bak>Bcl-2>Bax>mutated Bak) correlates well with previously published results. When tested in high-throughput formats, the assay has a signal-to-noise ratio of 15.37 and a Z(') factor of at least 0.73. The plate-to-plate variability for free peptide control and bound peptide control is minimal. This validates the assay not only for investigating the nature of Bcl-x(L)-peptide interaction, but also for high-throughput screening of Bcl-x(L) inhibitors.     

Activation of distinct signal transduction pathways in Trypanosoma cruzi isolates with differential capacity to invade host cells

Mammalian cell invasion by Trypanosoma cruzi requires the activation of signal transduction pathways that result in a Ca(2+) response both in the parasite and the host cell. By using drugs that interfere with the signalling processes, we investigated if the difference in the ability of T. cruzi isolates to invade host cells was associated with the activation of distinct signalling routes in the parasites. Experiments were performed with metacyclic trypomastigotes, the developmental forms that initiate infection in the mammalian host, using the highly invasive isolate CL and the poorly infective isolate G, which belong to distinct phylogenetic lineages. Treatment of parasites with adenylyl cyclase activator forskolin increased the infectivity of the G but not of the CL isolate towards HeLa cells. On the other hand, a specific protein tyrosine kinase inhibitor genistein reduced by approximately 75% the penetration of CL but not of G isolate into HeLa cells. In the CL but not in the G isolate, protein tyrosine kinase mediated the phosphorylation of a 175kDa protein in a manner inducible by a HeLa cell extract. Upon treatment with the phospholipase C inhibitor U73122, or with drugs such as caffeine, which affects Ca(2+) release from inositol-1,4,5-triphosphate-sensitive stores, or thapsigargin, an inhibitor of intracellular Ca(2+) transport ATPases, the infectivity of the CL but not of the G isolate diminished significantly (P<0.005). In both isolates, a combination of ionomycin plus NH(4)Cl or nigericin released Ca(2+) from acidic vacuoles containing a Ca(2+)/H(+) exchange system. This treatment reduced the infectivity of metacyclic forms of the G but not of the CL isolate. Taken together, these data suggest that, for host cell invasion, distinct signalling pathways are activated in metacyclic trypomastigotes of the two isolates, leading to Ca(2+) release from different intracellular compartments.     

Glyoxylate regeneration pathway in the methylotroph Methylobacterium extorquens AM1

Most serine cycle methylotrophic bacteria lack isocitrate lyase and convert acetyl coenzyme A (acetyl-CoA) to glyoxylate via a novel pathway thought to involve butyryl-CoA and propionyl-CoA as intermediates. In this study we have used a genome analysis approach followed by mutation to test a number of genes for involvement in this novel pathway. We show that methylmalonyl-CoA mutase, an R-specific crotonase, isobutyryl-CoA dehydrogenase, and a GTPase are involved in glyoxylate regeneration. We also monitored the fate of (14)C-labeled carbon originating from acetate, butyrate, or bicarbonate in mutants defective in glyoxylate regeneration and identified new potential intermediates in the pathway: ethylmalonyl-CoA, methylsuccinyl-CoA, isobutyryl-CoA, methacrylyl-CoA, and beta-hydroxyisobutyryl-CoA. A new scheme for the pathway is proposed based on these data.