c-Fos regulates hepatitis C virus propagation.

Hepatitis C virus (HCV) RNA replication requires cellular factors as well as viral non-structural proteins (NS protein). Using small interfering RNA (siRNA) library screening, we previously identified c-Fos as a host factor involved in HCV propagation. In the present study, we demonstrated that silencing of c-Fos expression resulted in decrease of HCV propagation in cell culture grown HCV (HCVcc)-infected cells; whereas overexpression of c-Fos significantly increased HCV propagation. We further confirmed the positive role of c-Fos in HCV propagation by both HCV-luciferase reporter assay and immunofluorescence analysis. We showed that c-Fos level was upregulated by HCV infection. Furthermore, phorbol 12-myristate 13-acetate (PMA)-induced c-Fos level was synergistically increased by HCV infection. These data suggest that c-Fos acts as a positive regulator of HCV propagation and may contribute to HCV-associated pathogenesis.

Modulation of interferon signaling by hepatitis C virus non-structural 5A protein: implication of genotypic difference in interferon treatment.

Interferon (IFN) response rate in hepatitis C virus (HCV) patients has been varied with genotypes. In this study, we investigated the effects of HCV NS5A protein on IFN resistance and compared the genotypic differences of NS5A. We showed that IFN-α-, poly I:C-, and Sendai virus-induced ISRE transcriptional activities were inhibited by both genotype 1b and 2a NS5A protein. We demonstrated that not only genotype 1b but also genotype 2a NS5A exerted the similar extent of IFN-α-induced antiviral activity. We showed that NS5A derived from both genotype 1b and 2a showed no significant differential IFN responses as seen in HCV patients. These data imply that some other host factor may be involved in genotypic differences of IFN antagonism in HCV patients.

Reproductive deficits in male freshwater turtle Chrysemys picta from Cape Cod, Massachusetts.

Contaminated groundwater plumes have formed on the Massachusetts Military Reservation (MMR), a Superfund site on Cape Cod, Massachusetts, as a result of chemical waste disposal. The plumes are of concern to the local people who rely on groundwater as a drinking water source. We used the freshwater turtle as a sentinel species to monitor the reproductive effects of exposure and, by inference, the potential for impact on human health. Our observations of male Chrysemys picta field-trapped from Moody Pond (an impacted site) and Washburn Pond (a reference site) on Cape Cod extended and supported prior observations of reproductive deficits. Morphometric comparison of precloacal length (PCL), which is a sexually dimorphic trait in the turtle, showed that Moody Pond males had a significantly longer PCL than Washburn Pond males. Moody Pond turtles showed reduced testicular weight, which was associated with significantly smaller seminiferous tubule diameter. Epididymal sperm counts were also markedly reduced in Moody Pond animals compared to Washburn Pond animals. Testicular histology and gonial proliferation, as determined by PCNA, were similar in both male populations, while the Moody Pond males had significantly higher germ cell apoptosis than the animals in Washburn Pond. These results suggest that a low-level mixture of xenobiotic contaminants impairs the reproductive functions of turtles exposed to the impacted site but not to the reference site environment.

Gonadotropin and estrogen responses in freshwater turtle (Chrysemys picta) from Cape Cod, Massachusetts.

As a result of chemical waste disposal on the Massachusetts Military Reservation, a Superfund site on Cape Cod, MA, contaminated groundwater plumes have formed. These plumes are of concern due to the widespread use of groundwater wells as a drinking water source by the local population. Prior observations on a sentinel species Chrysemys picta field-trapped from ponds on Cape Cod suggested deficits in reproductive processes including lower levels of vitellogenin, estradiol-17beta, oviduct weights, and oocyte numbers in females and lower testicular weight and sperm count in males. Possible loci in the hypothalamic-pituitary-gonadal-liver axis at which xenobiotics may act were determined in turtles trapped from Moody Pond (a test site) and Washburn Pond (a reference site). Specifically, gonadotropin and estrogen responses were assessed using plasma steroids and vitellogenin as markers. Basal vitellogenin levels were significantly lower in Moody Pond females; however, vitellogenin responses to estradiol-17beta were the same in both groups, indicating a normal hepatic response to estrogen. In contrast, estradiol-17beta secretion was not stimulated by gonadotropin in Moody Pond females, compared to Washburn animals. Basal plasma testosterone and the response to gonadotropin in males were similar, although steroid levels in Moody Pond animals were slower to return to baseline after gonadotropin injection. The results suggest that a low-level mixture of xenobiotic contaminants may interfere with the steroid metabolic pathways in turtles exposed to the test site, but not the reference site, environment.

Changes in Nuclear Receptor and Vitellogenin Gene Expression in Response to Steroids and Heavy Metal in Caenorhabditis elegans.

To gain basic understanding of the reproductive and developmental effects of endocrine disrupting chemicals in invertebrates, we have used C. elegans as an animal model. The completion of the C. elegans genome sequence brings to bear microarray analysis as a tool for these studies. We previously showed that the C. elegans genome was responsive to vertebrate steroid hormones, and changes in gene expression of traditional biomarkers used in environmental studies were detected; i.e., vitellogenin (vtg), cytochrome P450 (cyp450), glutathione-S-transferase (gst) and heat shock proteins (hsp). The data were interpreted to suggest that exogenous lipophilic compounds can be metabolized via cytochrome P450 proteins, and that the resulting metabolites can bind to members of the Nuclear Receptor (NR) class of proteins and regulate gene expression. In the present study, using DNA microarrays, we examined the pattern of gene expression after progesterone (10(-5), 10(-7) M), estradiol (10(-5) M), cholesterol (10(-9) M) and cadmium (0.1, 1 and 10 µM) exposure, with special attention to the members of NRs. Of approximately 284 NRs in C. elegans, expression of 25 NR genes (representing 9% of the total NRs in C. elegans) was altered after exposure to steroids. Of note, each steroid activated or inhibited different subsets of NR genes, and only estradiol regulated NR genes implicated in neurogenesis. These results suggest that NRs respond to a variety of exogenous steroids, which regulate important metabolic and developmental pathways. The response of the C. elegans genome to cholesterol and cadmium was analyzed in more detail. Cholesterol is a probable precursor to signaling molecules that may interact with NRs and we focused on expression of genes related to lipid metabolism (cyp450), transport and storage (i.e., vitellogenin). Worms exposed to cadmium respond principally by activating the expression of genes encoding stress-responsive proteins, such as mtl-2 and cdr-1, and no significant changes in expression of NRs or vtg genes were observed. The possible implications of these results with regard to the evolution of steroid receptors, endocrine disruption and the role of vitellogenin as a lipid transporter are discussed.

The Freshwater Mussel (Elliptio complanata) as a Sentinel Species: Vitellogenin and Steroid Receptors.

Freshwater mussels, Elliptio complanata were collected from a reference and pollutant-impacted pond on Cape Cod, MA. Glutathione-S-transferase (GST) activity was measured in gill, hepatopancreas and foot. In addition, content of seven heavy metals were measured in whole bodies. GST activity was significantly elevated in hepatopancreas and foot, as was whole body cadmium level in animals from the contaminated site suggesting that these animals have been exposed to organic and inorganic contaminants. Sodium dodecyl acrylamide gel electrophoresis (SDS-PAGE) analysis showed putative vitellogenins with molecular weight 180 and 205 kDa bands only in the ovary. In non-denatured gel electrophoresis ovarian extracts revealed two higher molecular weight bands at 550 and 700 kDa, which were reproductive stage specific. Western blotting of SDS-PAGE and non-denatured gels using the anti-scallop yolk-protein antibody confirmed the presence of cross-reacting bands of the same molecular weights in the ovary but not other tissues. Although several experiments involving steroid hormone exposure were done, no significant changes in vitellogenin protein levels were observed. However, using an anti-human ERß antibody, ERß positive bands were observed both in female foot, and the ovary. No cross reactivity with the antibody was observed in hepatopancreas. Additional studies are required to resolve questions of vitellogenin regulation and the role of (xeno)estrogens in bivalve molluscs.