Effect of Dietary Lipids on Phospholipase D Activity in Rat Brain

Phospholipase D (PLD) is emerging as a major player in many novel signaling pathways. Based on recent studies correlating membrane composition with enzyme function, we speculated that feeding of dietary lipids to the newborns has a major impact on brain PLD activity. To test this hypothesis, the rat dams were fed fat-free powder containing either safflower oil or fish oil, and a control powdered chow. The pups were weaned onto the diet and sacrificed at 30 days of age. PLD activity was measured by transphosphatidylation assays using rat brain membranes. This study shows that microsome GTPS-dependent PLD activity in rats fed safflower oil or fish oil was significantly reduced by 38% and 30% respectively compared to controls. Oleate-dependent PLD activity in the safflower oil group, however, was significantly increased by 38%. In contrast, synaptosome membrane (P2) GTPS-dependent PLD activity in rats consuming safflower oil was significantly increased by 29%, but there was no difference in oleate-dependent PLD activity. Likewise, no difference was observed in microsome oleate-dependent PLD and P2 GTPS-dependent PLD activity between the fish oil and the control groups. These results indicate that dietary lipid intake appears to modulate phospholipid metabolism and differential expression of PLD isozymes in the brain.     

Detection of Cannabinoid CB1, Adenosine A1, Muscarinic Acetylcholine, and GABAB Receptor-Dependent G Protein Activity in Transducin-Deactivated Membranes and Autoradiography Sections of Rat Retina

1. Several G-protein-coupled receptors (GPCRs) have been localized to various layers of the vertebrate retina, using autoradiographic and immunohistochemical techniques, but the functional data concerning G protein activation are limited. Here, we establish optimized assay conditions to detect receptor-dependent G protein activity in membranes and tissue sections of the rat retina. 2. Agonist-stimulated [35S]GTPgammaS-binding responses were characterized for the Gi/o-linked adenosine A1, cannabinoid CB1, m2/m4 muscarinic acetylcholine, and GABA(B) receptors. Initial assumption was that G protein activity under "basal conditions" is high due to enrichment and activity of rhodopsin and transducin in this tissue. 3. We found that pretreatment of retina membranes with hydroxylamine (10 mM), a rhodopsin-inactivating drug, substantially (up to 60%) reduced basal G protein activity, thereby improving signal-to-noise ratio to detect agonist-stimulated G protein activation for all studied receptors. [35S]GTPgammaS autoradiography revealed that hydroxylamine specifically reduced basal binding in the transducin-enriched photoreceptor layer. In contrast, hydroxylamine did not affect GPCR signaling in brain membranes, indicating specific action on retinal transducin. 4. For all studied receptors, [35S]GTPgammaS autoradiography allowed localization of G protein activity to different retinal layers, with the bulk of signal detected in the ganglion cell layer. Strongest responses were observed for adenosine and muscarinic receptor agonists. Additional G protein activity was detected in the inner plexiform layer. 5. Responses to all tested agonists were reversed in the presence of appropriate receptor-selective antagonists, indicating receptor-mediated G protein activation.     

Expression of DNase gamma during Fas-independent apoptotic DNA fragmentation in rodent hepatocytes

Endonuclease-induced DNA fragmentation is a hallmark of apoptosis. DNase gamma (DNase ) was recently identified as one of the endonucleases responsible for apoptotic DNA fragmentation. In this study, immunohistochemistry for DNase was performed on paraffin sections of rodent liver in well-defined models of hepatocyte apoptosis induced by Fas antibody (Fas) or cycloheximide (CHX), and necrosis induced by lipopolysaccharide (LPS) or carbon tetrachloride (CCl₄). DNase immunoreactivity was compared with TdT-mediated dUTP nick-end labeling (TUNEL) reactivity. Our results showed TUNEL reactivity in both apoptotic and necrotic hepatocytes. DNase immunoreactivity was not detected during LPS-induced or CCl₄-induced hepatocyte necrosis. In contrast, it was evident during CHX-induced, but not Fas-induced, apoptotic DNA fragmentation. These findings suggest that DNase plays an important role in Fas-independent apoptotic DNA fragmentation in hepatocytes.     

Cytokines IL-1α, IL-6, and GM-CSF constitutively secreted by oral squamous carcinoma induce down-regulation of CD80 costimulatory molecule expression: restoration by interferon γ

We previously characterized the expression of CD80 in different murine head and neck squamous cell carcinoma (HNSCC) clones derived following tumor progression in the absence of T cell–mediated immunity in severe combined immunodeficient (SCID) mice. We found that HNSCCs that did not express CD80 grew as progressors, while those that expressed CD80 were regressors when grown in immune-competent animals. In the present study, we characterized expression of a repertoire of immunoregulatory cytokines in these HNSCC lines, and found that HNSCCs that express cytokines IL-1, IL-6, and GM-CSF do not express CD80, suggesting the hypothesis that these cytokines may down-modulate expression of CD80. Cytokine-conditioned medium from progressor HNSCC and recombinant IL-1, IL-6, and GM-CSF caused a reduction of CD80 expression in regressor HNSCCs without affecting proliferation. Conversely, the decrease in CD80 expression in progressor HNSCCs could be restored by IFN-, a known inducer of CD80 expression. These data strongly suggest that high levels of cytokines IL-1, IL-6, and GM-CSF expressed by tumor cells can down-regulate CD80 expression in HNSCC, and that IFN- can independently stimulate expression. These data provide evidence for a novel mechanism of cytokine-mediated down-modulation of CD80 during malignant progression of HNSCC that can be restored by IFN-.     

Phase I/II trial of immunogenicity of a human papillomavirus (HPV) type 16 E7 protein–based vaccine in women with oncogenic HPV-positive cervical intraepithelial neoplasia

Purpose: Infection with oncogenic human papillomavirus (HPV) and HPV-16 in particular is a leading cause of anogenital neoplasia. High-grade intraepithelial lesions require treatment because of their potential to progress to invasive cancer. Numerous preclinical studies have demonstrated the therapeutic potential of E7-directed vaccination strategies in mice tumour models. In the present study, we tested the immunogenicity of a fusion protein (PD-E7) comprising a mutated HPV-16 E7 linked to the first 108 amino acids of Haemophilus influenzae protein D, formulated in the GlaxoSmithKline Biologicals adjuvant AS02B, in patients bearing oncogenic HPV-positive cervical intraepithelial neoplasia (CIN). Methods: Seven patients, five with a CIN3 and two with a CIN1, received three intramuscular injections of adjuvanted PD-E7 at 2-week intervals. Three additional CIN1 patients received a placebo. CIN3 patients underwent conization 8 weeks postvaccination. Cytokine flow cytometry and ELISA were used to monitor antigen-specific cellular and antibody responses from blood taken before and after vaccine or placebo injection. Results: Some patients had preexisting systemic IFN- CD4⁺ (1/10) and CD8⁺ (5/10) responses to PD-E7. Vaccination, not placebo injection, elicited systemic specific immune responses in the majority of the patients. Five vaccinated patients (71%) showed significantly increased IFN- CD8⁺ cell responses upon PD-E7 stimulation. Two responding patients generated long-term T-cell immunity toward the vaccine antigen and E7 as well as a weak H. influenzae protein D (PD)–directed CD4⁺ response. All the vaccinated patients, but not the placebo, made significant E7- and PD-specific IgG. Conclusions: The encouraging results obtained from this study performed on a limited number of subjects justify further analysis of the efficacy of the PD-E7/AS02B vaccine in CIN patients.     

Approaches to understanding the importance and clinical implications of peroxisome proliferator-activated receptor gamma (PPARgamma) signaling in prostate cancer

The development and maintenance of the prostate are dependent upon a complex series of interactions occurring between the epithelial and stromal tissues (Hayward and Cunha [2000]: Radiol. Clin. N. Am. 38:1-14). During the process of prostatic carcinogenesis, there are progressive changes in the interactions of the nascent tumor with its surrounding stroma and extracellular matrix. These include the development of a reactive stromal phenotype and the possible promotion, by stromal cells, of epithelial proliferation and loss of differentiated function (Hayward et al. [1996]: Ann. N. Y. Acad. Sci. 784:50-62; Grossfeld et al. [1998]: Endocr. Related Cancer 5:253-270; Rowley [1998]: Cancer Metastasis Rev. 17:411-419; Tuxhorn et al. [2002]: Clin. Cancer Res. 8:2912-2923). Many molecules play an as yet poorly defined role in establishing and maintaining a growth quiescent glandular structure in the adult. Peroxisome proliferator-activated receptor gamma (PPARgamma) is a candidate regulator of prostatic epithelial differentiation and may play a role in restricting epithelial proliferation. PPARgamma agonists are relatively non-toxic and have been used with limited success to treat some prostate cancer patients. We would propose that a more complete understanding of PPARgamma biology, particularly in the context of appropriate stromal-epithelial and host-tumor interactions would allow for the selection of patients most likely to benefit from this line of therapy. In particular, it seems reasonable to suggest that the patients most likely to benefit may be those with relatively indolent low stage disease for whom this line of therapy could be a useful additive to watchful waiting.     

Low-level arsenite activates the transcription of genes involved in adipose differentiation

In this study we analyzed gene expression in 3T3-F442A pre-adipocyte cells that differentiate in the presence of micro-molar arsenate concentration. Two concentrations of arsenite (As2O3, 0.25 micromol/L and 0.5 micromol/L) were applied for three days with and without insulin (170 nmol/L) and gene expressions were evaluated by quantitative RT-PCR. The genes included genes of oxidative-stress responses: heme-oxygenase-1 (HO1) and the hypoxia inducible factor 1a (HIF1alpha), genes of cell-cycle: c-jun and Kruppel like factor 5 (KLF5), and genes that play important roles in adipose determination: a peroxisome proliferator-activated receptor (PPARgamma) and a CCAAT/ enhancer binding protein (C/EBPalpha). Arsenite induced the expression of HO1, HIF1alpha, KLF5, PPARgamma and C/EBPalpha. These results suggest that under condition of oxidative stress arsenite induces genes that are required for adipose differentiation.     

Amicyanin metal-site structure and interaction with MADH: PAC and NMR spectroscopy of Ag-, Cd-, and Cu-amicyanin

To investigate the structural control mechanisms in the metal site of amicyanin when interacting with MADH, redox-inactive Ag⁺- and Cd²⁺-substituted amicyanins were studied with perturbed angular correlations of -rays (PAC) spectroscopy. PAC experiments on ^111mCd-substituted amicyanin revealed two different metal-site structures, which are very likely in dynamic exchange on a ~5 ns timescale. Only one structure binds to MADH. The dissociation constants, K _d, are 9±2 M with MADH^red and 38±11 M with MADH^ox, indicating that the Cd-amicyanin binding affinity is regulated by the MADH redox state. PAC experiments on ¹¹¹Ag-substituted amicyanin also showed two different forms of Ag-amicyanin, probably reflecting relaxation from Ag to Cd geometry. No binding of Ag-amicyanin to MADH could be observed with PAC, suggesting that the K _d is larger than 43 M, based on the 95% confidence limit. NMR revealed large chemical shift differences between native copper amicyanin and both metal-substituted forms. Affected residues are found up to 15 Å away from the metal ion. The Ag⁺- and Cd²⁺-substituted amicyanins demonstrate no change in coordination as a function of pH, contrary to Cu⁺-amicyanin which shows protonation of the copper ligand His96 with pK _a=6.8. It is concluded that, contrary to other blue copper proteins, Ag⁺-amicyanin is not a close mimic of Cu⁺-amicyanin, and that structural changes in the metal site have large effects on the affinity for the redox partner.Electronic Supplementary Material Supplementary material is available in the online version of this article at Abbreviations AOM angular overlap model - HSQC heteronuclear single-quantum coherence - MADH methylamine dehydrogenase - MADH^ox oxidized MADH - MADH^red reduced MADH - NOESY nuclear Overhauser effect spectroscopy - NQI nuclear quadrupole interaction - PAC perturbed angular correlations of -rays - TOCSY total correlation spectroscopy     

Ligand Binding Characteristics of the Human Serotonin<Subscript>1<Emphasis Type="Italic">A</Emphasis></Subscript> Receptor Heterologously Expressed in CHO Cells

The serotonin_1A (5-HT_1A) receptors are important members of the superfamily of seven transmembrane domain G-protein coupled receptors. They appear to be involved in various behavioral, cognitive and developmental functions. Mammalian cells in culture heterologously expressing membrane receptors represent convenient systems to address problems in receptor biology. We report here the pharmacological characterization of one of the first isolated clones of CHO cells stably expressing the human 5-HT_1A receptor using the selective agonist 8-OH-DPAT and antagonist p-MPPF. In addition, we demonstrate that agonist and antagonist binding to the receptor exhibit differential sensitivity to the non-hydrolyzable GTP analogue, GTP--S, as was observed earlier with the native receptor from bovine hippocampus. These results show that the human 5-HT_1A receptor expressed in CHO cells displays characteristic features found in the native receptor isolated from bovine hippocampus and promises to be a potentially useful system for future studies of the receptor.These authors have contributed equally to the work