16 results on '"Vogt, Megan B."'
Search Results
2. Replication of Zika Virus in Human Prostate Cells : A Potential Source of Sexually Transmitted Virus
- Author
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Spencer, Jennifer L., Lahon, Anismrita, Tran, Linda L., Arya, Ravi P., Kneubehl, Alexander R., Vogt, Megan B., Xavier, Daniela, Rowley, David R., Kimata, Jason T., and Rico-Hesse, Rebecca R.
- Published
- 2018
3. Sialokinin in mosquito saliva shifts human immune responses towards intracellular pathogens.
- Author
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Spencer Clinton, Jennifer L., Vogt, Megan B., Kneubehl, Alexander R., Hibl, Brianne M., Paust, Silke, and Rico-Hesse, Rebecca
- Subjects
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IMMUNE response , *INTRACELLULAR pathogens , *SALIVA , *MOSQUITOES , *KILLER cells , *HUMORAL immunity , *GRAFT versus host reaction - Abstract
Mosquito saliva is a mix of numerous proteins that are injected into the skin while the mosquito searches for a blood meal. While mosquito saliva is known to be immunogenic, the salivary components driving these immune responses, as well as the types of immune responses that occur, are not well characterized. We investigated the effects of one potential immunomodulatory mosquito saliva protein, sialokinin, on the human immune response. We used flow cytometry to compare human immune cell populations between humanized mice bitten by sialokinin knockout mosquitoes or injected with sialokinin, and compared them to those bitten by wild-type mosquitoes, unbitten, or saline-injected control mice. Humanized mice received 4 mosquito bites or a single injection, were euthanized after 7 days, and skin, spleen, bone marrow, and blood were harvested for immune cell profiling. Our results show that bites from sialokinin knockout mosquitoes induced monocyte and macrophage populations in the skin, blood, bone marrow, and spleens, and primarily affected CD11c- cell populations. Other increased immune cells included plasmacytoid dendritic cells in the blood, natural killer cells in the skin and blood, and CD4+ T cells in all samples analyzed. Conversely, we observed that mice bitten with sialokinin knockout mosquitoes had decreased NKT cell populations in the skin, and fewer B cells in the blood, spleen, and bone marrow. Taken together, we demonstrated that sialokinin knockout saliva induces elements of a TH1 cellular immune response, suggesting that the sialokinin peptide is inducing a TH2 cellular immune response during wild-type mosquito biting. These findings are an important step towards understanding how mosquito saliva modulates the human immune system and which components of saliva may be critical for arboviral infection. By identifying immunomodulatory salivary proteins, such as sialokinin, we can develop vaccines against mosquito saliva components and direct efforts towards blocking arboviral infections. Author summary: Numerous studies have shown the effects of mosquito saliva proteins on the immune system of animals and humans with disease caused by mosquito-borne pathogens. We have previously described some of these effects in humanized mice (which contain specific human immune system cells and develop arboviral diseases similar to humans) infected by mosquito bite with dengue and chikungunya viruses. In this study, we show that humanized mice have altered cellular immune responses after they are bitten by uninfected mosquitoes lacking the sialokinin salivary protein. Our results suggest that sialokinin alone shifts mammalian immunity towards a TH2 response, away from the anti-viral, cell-mediated, and humoral responses that would protect against viruses included in the saliva. This is the first study of its kind, and it highlights how the effects of specific saliva components can be evaluated for human therapeutic intervention. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
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4. Silent Phase of Johne’s Disease in Experimentally Infected Goats – A Study on New and Established Diagnostic Approaches Using Specific and Non-Specific Parameters
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Fletcher, Darcy M., Vogt, Megan B., Genis, Allison B., Meyer, Stephen K., Pirner, Hannah E., Hayes, Madeline M., Henao-Tamayo, Marcela, Hess, Ann M., Bowen, Richard A., and Eckstein, Torsten M.
- Published
- 2015
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5. Association Between Prolonged Shedding of Zika Virus in Human Semen and Male Reproductive Tract Inflammation.
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Vogt, Megan B, McDonald, Erin M, Delorey, Mark, Mead, Paul S, Hook, Sarah A, Hinckley, Alison F, Werre, Stephen R, Brault, Aaron C, and Duggal, Nisha K
- Subjects
- *
CYTOKINES , *VIRAL physiology , *SEMEN , *INFLAMMATION , *RNA , *MENTAL health surveys , *RESEARCH funding , *ANIMALS - Abstract
Zika virus (ZIKV) is a mosquito-borne flavivirus that causes congenital defects. Sexual transmission of ZIKV was confirmed in a recent epidemic; however, mechanisms behind ZIKV infection and persistence in the male reproductive tract (MRT) are unknown. Previously, we found that approximately 33% of men with symptomatic ZIKV infections shed ZIKV RNA in semen, and some men shed ZIKV RNA for >3 months. Here, we evaluated the semen of 49 ZIKV-infected men to identify immune factors correlating with long-term ZIKV shedding in semen and ZIKV-infected cell types in semen. We found that prolonged ZIKV RNA shedding in semen was associated with MRT inflammation, indicated by higher leukocyte counts and inflammatory cytokine concentrations in semen of long-term versus short-term shedders. In addition, we found ZIKV RNA in seminal leukocytes and epithelial cells. This study of human semen from ZIKV-infected men provides critical insights into the effects of ZIKV on MRT health. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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- View/download PDF
6. Persistence of Zika virus RNA in the epididymis of the murine male reproductive tract.
- Author
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Vogt, Megan B., Frere, Francesca, Hawks, Seth A., Perez, Claudia E., Coutermarsh-Ott, Sheryl, and Duggal, Nisha K.
- Subjects
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ZIKA virus , *RNA viruses , *MALE reproductive organs , *EPIDIDYMIS , *GENITALIA infections , *VIRAL shedding - Abstract
Zika virus (ZIKV) can infect developing fetuses in utero and cause severe congenital defects independent of route of maternal infection. Infected men can shed ZIKV RNA in semen for over six months. Whether prolonged viral RNA shedding in semen indicates a persistent infection in the male reproductive tract is unknown. We hypothesized that if ZIKV establishes a persistent infection in the male reproductive tract (MRT), then immunosuppressant treatment should stimulate ZIKV replication and seminal shedding. Male mice were infected with ZIKV and immunosuppressed when they shed viral RNA but not infectious virus in ejaculates. Following immunosuppression, we did not detect infectious virus in ejaculates. However, we did detect ZIKV positive and negative sense RNA in the epididymal lumens of mice treated with cyclophosphamide, suggesting that ZIKV persists in the epididymis. This study provides insight into the mechanisms behind ZIKV sexual transmission, which may inform public health decisions regarding ZIKV risks. • Zika virus persists in the epididymal lumen after virus is no longer shed in ejaculates. • Infectious Zika virus does not recrudesce following acute infection and immunosuppression. • Immunosuppression resulted in higher levels of ZIKV RNA in the epidiymides. [ABSTRACT FROM AUTHOR]
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- 2021
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7. Mosquito-bite infection of humanized mice with chikungunya virus produces systemic disease with long-term effects.
- Author
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Hibl, Brianne M., Dailey Garnes, Natalie J. M., Kneubehl, Alexander R., Vogt, Megan B., Spencer Clinton, Jennifer L., and Rico-Hesse, Rebecca R.
- Subjects
CHIKUNGUNYA virus ,ALPHAVIRUSES ,LABORATORY mice ,DENGUE hemorrhagic fever ,SYMPTOMS ,MOSQUITO vectors ,MYOSITIS - Abstract
Chikungunya virus (CHIKV) is an emerging, mosquito-borne alphavirus responsible for acute to chronic arthralgias and neuropathies. Although it originated in central Africa, recent reports of disease have come from many parts of the world, including the Americas. While limiting human CHIKV cases through mosquito control has been used, it has not been entirely successful. There are currently no licensed vaccines or treatments specific for CHIKV disease, thus more work is needed to develop effective countermeasures. Current animal research on CHIKV is often not representative of human disease. Most models use CHIKV needle inoculation via unnatural routes to create immediate viremia and localized clinical signs; these methods neglect the natural route of transmission (the mosquito vector bite) and the associated human immune response. Since mosquito saliva has been shown to have a profound effect on viral pathogenesis, we evaluated a novel model of infection that included the natural vector, Aedes species mosquitoes, transmitting CHIKV to mice containing components of the human immune system. Humanized mice infected by 3–6 mosquito bites showed signs of systemic infection, with demonstrable viremia (by qRT-PCR and immunofluorescent antibody assay), mild to moderate clinical signs (by observation, histology, and immunohistochemistry), and immune responses consistent with human infection (by flow cytometry and IgM ELISA). This model should give a better understanding of human CHIKV disease and allow for more realistic evaluations of mechanisms of pathogenesis, prophylaxis, and treatments. Author summary: In humans, CHIKV infections are mostly symptomatic, resulting in fever, viremia, and debilitating joint disease; viremia is present up to 13 days after the onset of fever and peaks at the onset of clinical signs. Previous studies in mice and nonhuman primates (NHPs) have often neglected the mosquito vector, leading to variable viremias and infection of tissues primarily at the sites of CHIKV injection (legs in mice, ankles or spleen/liver in NHPs). This is the first study to demonstrate systemic CHIKV infection caused by infected mosquito bites in humanized laboratory mice. Disease seen with this humanized mouse model mimics human clinical signs and symptoms, with signs of inflammation in muscle and joints due to viral replication. This humanized mouse model provides a basis for assessing human CHIKV pathogenesis, prophylaxis, and treatment, under natural conditions of infection. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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8. IP-10 and CXCR3 signaling inhibit Zika virus replication in human prostate cells.
- Author
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Spencer Clinton, Jennifer L., Tran, Linda L., Vogt, Megan B., Rowley, David R., Kimata, Jason T., and Rico-Hesse, Rebecca
- Subjects
ZIKA virus ,VIRAL replication ,PROSTATE ,MESENCHYMAL stem cells ,CELL death ,EXOCRINE glands - Abstract
Our previous studies have shown that Zika virus (ZIKV) replicates in human prostate cells, suggesting that the prostate may serve as a long-term reservoir for virus transmission. Here, we demonstrated that the innate immune responses generated to three distinct ZIKV strains (all isolated from human serum) were significantly different and dependent on their passage history (in mosquito, monkey, or human cells). In addition, some of these phenotypic differences were reduced by a single additional cell culture passage, suggesting that viruses that have been passaged more than 3 times from the patient sample will no longer reflect natural phenotypes. Two of the ZIKV strains analyzed induced high levels of the IP-10 chemokine and IFNγ in human prostate epithelial and stromal mesenchymal stem cells. To further understand the importance of these innate responses on ZIKV replication, we measured the effects of IP-10 and its downstream receptor, CXCR3, on RNA and virus production in prostate cells. Treatment with IP-10, CXCR3 agonist, or CXCR3 antagonist significantly altered ZIKV viral gene expression, depending on their passage in cells of relevant hosts (mosquito or human). We detected differences in gene expression of two primary CXCR3 isoforms (CXCR3-A and CXCR3-B) on the two cell types, possibly explaining differences in viral output. Lastly, we examined the effects of IP-10, agonist, or antagonist on cell death and proliferation under physiologically relevant infection rates, and detected no significant differences. Although we did not measure protein expression directly, our results indicate that CXCR3 signaling may be a target for therapeutics, to ultimately stop sexual transmission of this virus. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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9. Dengue viruses infect human megakaryocytes, with probable clinical consequences.
- Author
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Vogt, Megan B., Lahon, Anismrita, Arya, Ravi P., Spencer Clinton, Jennifer L., and Rico-Hesse, Rebecca
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DENGUE hemorrhagic fever , *DENGUE viruses , *MEGAKARYOCYTES , *HEMORRHAGIC fever , *LEUCOCYTES , *BONE marrow cells , *BIOSPHERE - Abstract
One of the most important clinical signs of dengue virus infection is the reduction of white blood cells and platelets in human peripheral blood (leukopenia and thrombocytopenia, respectively), which may significantly impair the clearance of dengue virus by the immune system. The cause of thrombocytopenia and leukopenia during dengue infection is still unknown, but may be related to severe suppression of bone marrow populations including hematopoietic stem cells and megakaryocytes, the progenitors of white blood cells and platelets respectively. Here, we explored the possibility that bone marrow suppression, including ablation of megakaryocyte populations, is caused by dengue virus infection of megakaryocytes. We used three different models to measure dengue virus infection and replication: in vitro, in a human megakaryocyte cell line with viral receptors, ex vivo, in primary human megakaryocytes, and in vivo, in humanized mice. All three systems support dengue virus infection and replication, including virus strains from serotypes 1, 2, and 3, and clinical signs, in vivo; all assays showed viral RNA and/or infectious viruses 7–14 days post-infection. Although we saw no significant decrease in cell viability in vitro, there was significant depletion of mature megakaryocytes in vivo. We conclude that megakaryocytes can produce dengue viruses in the bone marrow niche, and a reduction of cell numbers may affect bone marrow homeostasis. Author summary: Dengue virus is the most common cause of viral hemorrhagic fever in humans. Over half of the world's population lives in an at risk area for dengue virus infection, and this number will continue to grow as climate change allows the mosquito vectors of dengue virus to expand their breeding ranges to more temperate climates. Currently, there are no specific treatments for dengue virus infection. Understanding how dengue virus causes hemorrhagic fever could inform the development of these much needed treatments. Populations of important immune system mediators, such as white blood cells and platelets, are significantly dysregulated during dengue virus infection. These cells originate in the bone marrow, which experiences significant suppression, including a complete ablation of megakaryocytes (platelet progenitor cells), during DENV infection. Here, we add to the knowledge on how dengue virus induces bone marrow suppression by investigating whether dengue virus infects human megakaryocytes. We discovered that dengue virus infects human megakaryocytes in vitro, ex vivo, and in vivo models of dengue virus infection; however, dengue virus infection does not appear to directly affect viability of human megakaryocytes. Future studies will investigate whether infected megakaryocytes are still able to perform their functions of producing platelets and maintaining bone marrow homeostasis. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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10. Discovery, X‑ray Crystallography and Antiviral Activity of Allosteric Inhibitors of Flavivirus NS2B-NS3 Protease.
- Author
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Yao, Yuan, Huo, Tong, Lin, Yi-Lun, Nie, Shenyou, Wu, Fangrui, Hua, Yuanda, Wu, Jingyu, Kneubehl, Alexander R., Vogt, Megan B., Rico-Hesse, Rebecca, and Song, Yongcheng
- Published
- 2019
- Full Text
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11. Mosquito saliva alone has profound effects on the human immune system.
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Vogt, Megan B., Lahon, Anismrita, Arya, Ravi P., Kneubehl, Alexander R., Spencer Clinton, Jennifer L., Paust, Silke, and Rico-Hesse, Rebecca
- Subjects
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SALIVA , *IMMUNE system , *IMMUNOLOGY , *LABORATORY rats , *HEMATOPOIETIC stem cells , *PHYSIOLOGY ,MOSQUITO anatomy - Abstract
Mosquito saliva is a very complex concoction of >100 proteins, many of which have unknown functions. The effects of mosquito saliva proteins injected into our skin during blood feeding have been studied mainly in mouse models of injection or biting, with many of these systems producing results that may not be relevant to human disease. Here, we describe the numerous effects that mosquito bites have on human immune cells in mice engrafted with human hematopoietic stem cells. We used flow cytometry and multiplex cytokine bead array assays, with detailed statistical analyses, to detect small but significant variations in immune cell functions after 4 mosquitoes fed on humanized mice footpads. After preliminary analyses, at different early times after biting, we focused on assessing innate immune and subsequent cellular responses at 6 hours, 24 hours and 7 days after mosquito bites. We detected both Th1 and Th2 human immune responses, and delayed effects on cytokine levels in the blood, and immune cell compositions in the skin and bone marrow, up to 7 days post-bites. These are the first measurements of this kind, with human immune responses in whole animals, bitten by living mosquitoes, versus previous studies using incomplete mouse models and salivary gland extracts or needle injected saliva. The results have major implications for the study of hematophagous insect saliva, its effects on the human immune system, with or without pathogen transmission, and the possibility of determining which of these proteins to target for vaccination, in attempts to block transmission of numerous tropical diseases. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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12. Characterization of a Zika Virus Isolate from Colombia.
- Author
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Lahon, Anismrita, Arya, Ravi P., Kneubehl, Alexander R., Vogt, Megan B., Dailey Garnes, Natalie J. M., and Rico-Hesse, Rebecca
- Subjects
ZIKA virus ,MICROCEPHALY ,GUILLAIN-Barre syndrome ,VACCINES ,MAMMALIAN cell cycle ,GENOMES - Abstract
Background: Zika virus (Flavivirus genus) is the first mosquito-borne virus known to cause high rates of microcephaly and abortion in humans. Typically, Zika virus causes a self-limiting, systemic illness; however, the current outbreak of Zika virus in the Americas has been associated with increased rates of fetal malformations and Guillain-Barré syndrome. Very few Zika virus isolates have been described in the literature, and live viruses are needed to perform studies of pathogenesis and to develop vaccines and treatments. Methodology/Clinical findings: We isolated Zika virus, strain FLR, directly from the serum of an individual infected in Barranquilla, Colombia (December, 2015). Here, we describe the patient’s clinical course and characterize strain FLR by its growth characteristics in mosquito and mammalian cells and its partial resistance to UV-inactivation. The full genome sequence of FLR was also analyzed (including the 3’ un-translated region), to determine its probable geographic origin, and to pinpoint structural differences from other Zika virus strains. Conclusions/Significance: We anticipate that the study of this low passage, clinical isolate of Zika virus, which is available for worldwide distribution, will help uncover the mechanisms of viral replication and host immune responses contributing to the varied and sometimes severe clinical presentations seen during the current epidemic in the Americas. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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13. Primary Human Placental Trophoblasts are Permissive for Zika Virus (ZIKV) Replication.
- Author
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Aagaard, Kjersti M., Lahon, Anismrita, Suter, Melissa A., Arya, Ravi P., Seferovic, Maxim D., Vogt, Megan B., Hu, Min, Stossi, Fabio, Mancini, Michael A., Harris, R. Alan, Kahr, Maike, Eppes, Catherine, Rac, Martha, Belfort, Michael A., Park, Chun Shik, Lacorazza, Daniel, and Rico-Hesse, Rebecca
- Abstract
Zika virus (ZIKV) is an emerging mosquito-borne (Aedes genus) arbovirus of the Flaviviridae family. Although ZIKV has been predominately associated with a mild or asymptomatic dengue-like disease, its appearance in the Americas has been accompanied by a multi-fold increase in reported incidence of fetal microcephaly and brain malformations. The source and mode of vertical transmission from mother to fetus is presumptively transplacental, although a causal link explaining the interval delay between maternal symptoms and observed fetal malformations following infection has been missing. In this study, we show that primary human placental trophoblasts from non-exposed donors (n = 20) can be infected by primary passage ZIKV-FLR isolate, and uniquely allowed for ZIKV viral RNA replication when compared to dengue virus (DENV). Consistent with their being permissive for ZIKV infection, primary trophoblasts expressed multiple putative ZIKV cell entry receptors, and cellular function and differentiation were preserved. These findings suggest that ZIKV-FLR strain can replicate in human placental trophoblasts without host cell destruction, thereby serving as a likely permissive reservoir and portal of fetal transmission with risk of latent microcephaly and malformations. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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14. Early Weight Development of Goats Experimentally Infected with Mycobacterium avium subsp. paratuberculosis.
- Author
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Malone, Alyssa N., Fletcher, Darcy M., Vogt, Megan B., Meyer, Stephen K., Hess, Ann M., and Eckstein, Torsten M.
- Subjects
GOAT diseases ,MYCOBACTERIUM avium ,PARATUBERCULOSIS ,INFLAMMATORY bowel diseases ,CHRONIC diseases ,BODY weight - Abstract
Johne’s disease is an infectious chronic inflammatory bowel disease in ruminants. The key factor for the management of this disease is an early positive diagnosis. Unfortunately, most diagnostics detect animals with Johne’s disease in the clinical stage with positive serology and/or positive fecal cultures. However, for effective management of the disease within herds, it is important to detect infected animals as early as possible. This might only be possible with the help of parameters not specific for Johne’s disease but that give an early indication for chronic infections such as weight development. Here we report our findings on the development of total body weight and weight gain during the first six months of goats experimentally infected to induce Johne’s disease. Twenty dairy goat kids age 2 to 5 days were included in this study. Goats were divided into two groups: a negative control group and a positive infected group. The weight was obtained weekly throughout the study. Goats of the positive group were infected at the age of seven weeks. We detected significant changes in weight gain and total body weight as early as one week after infection. Differences are significant throughout the six month time period. Weight as a non-specific parameter should be used to monitor infection especially in studies on Johne’s disease using the goat model. Our study suggests that goats with Johne’s disease have a reduced weight gain and reduced weight when compared with healthy goats of the same age. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
15. The retroviral cyclin of walleye dermal sarcoma virus binds cyclin-dependent kinases 3 and 8
- Author
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Brewster, Connie D., Birkenheuer, Claire H., Vogt, Megan B., Quackenbush, Sandra L., and Rovnak, Joel
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RETROVIRUSES , *CYCLINS , *SARCOMA , *CELL cycle , *RETINOBLASTOMA , *GENETIC mutation , *CYCLIN-dependent kinases , *PROTEIN binding - Abstract
Abstract: Walleye dermal sarcoma virus encodes a retroviral cyclin (rv-cyclin) with a cyclin box fold and transcription activation domain (AD). Co-immune precipitation (co-IP) identified an association of rv-cyclin with cyclin-dependent kinase 8 (cdk8). Cdk8 is dependent upon cyclin C and regulates transcription with the Mediator complex, a co-activator of transcription. Mutation of cyclin residues, required for cdk binding, disrupts rv-cyclin–cdk8 co-IP. Mutation or removal of the AD has no effect on cdk8 interaction. Direct rv-cyclin–cdk8 binding is demonstrated by pulldown of active cdk8 and by GST-rv-cyclin binding to recombinant cdk8. Cdk3 is also activated by cyclin C and phosphorylates retinoblastoma protein to initiate entry into the cell division cycle. Co-IP and pulldowns demonstrate direct rv-cyclin binding to cdk3 as well. The rv-cyclin functions as a structural ortholog of cyclin C in spite of its limited amino acid sequence identity with C cyclins or with any known cyclins. [Copyright &y& Elsevier]
- Published
- 2011
- Full Text
- View/download PDF
16. Early Weight Development of Goats Experimentally Infected with Mycobacterium avium subsp. paratuberculosis.
- Author
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Malone, Alyssa N., Fletcher, Darcy M., Vogt, Megan B., Meyer, Stephen K., Hess, Ann M., and Eckstein, Torsten M.
- Subjects
- *
GOAT diseases , *MYCOBACTERIUM avium , *PARATUBERCULOSIS , *INFLAMMATORY bowel diseases , *CHRONIC diseases , *BODY weight - Abstract
Johne’s disease is an infectious chronic inflammatory bowel disease in ruminants. The key factor for the management of this disease is an early positive diagnosis. Unfortunately, most diagnostics detect animals with Johne’s disease in the clinical stage with positive serology and/or positive fecal cultures. However, for effective management of the disease within herds, it is important to detect infected animals as early as possible. This might only be possible with the help of parameters not specific for Johne’s disease but that give an early indication for chronic infections such as weight development. Here we report our findings on the development of total body weight and weight gain during the first six months of goats experimentally infected to induce Johne’s disease. Twenty dairy goat kids age 2 to 5 days were included in this study. Goats were divided into two groups: a negative control group and a positive infected group. The weight was obtained weekly throughout the study. Goats of the positive group were infected at the age of seven weeks. We detected significant changes in weight gain and total body weight as early as one week after infection. Differences are significant throughout the six month time period. Weight as a non-specific parameter should be used to monitor infection especially in studies on Johne’s disease using the goat model. Our study suggests that goats with Johne’s disease have a reduced weight gain and reduced weight when compared with healthy goats of the same age. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
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