Your search keyword '"immune suppressor"' showing total 8 results

1. Intracellular Ebola virus nucleocapsid assembly revealed by in situ cryo-electron tomography.

Author

Watanabe, Reika, Zyla, Dawid, Parekh, Diptiben, Hong, Connor, Jones, Ying, Schendel, Sharon L., Wan, William, Castillon, Guillaume, and Saphire, Erica Ollmann

Subjects

*EBOLA virus, *HEMORRHAGIC fever, *VIRAL proteins, *EXTRACELLULAR matrix proteins, *MARBURG virus, *EBOLA virus disease

Abstract

Filoviruses, including the Ebola and Marburg viruses, cause hemorrhagic fevers with up to 90% lethality. The viral nucleocapsid is assembled by polymerization of the nucleoprotein (NP) along the viral genome, together with the viral proteins VP24 and VP35. We employed cryo-electron tomography of cells transfected with viral proteins and infected with model Ebola virus to illuminate assembly intermediates, as well as a 9 Å map of the complete intracellular assembly. This structure reveals a previously unresolved third and outer layer of NP complexed with VP35. The intrinsically disordered region, together with the C-terminal domain of this outer layer of NP, provides the constant width between intracellular nucleocapsid bundles and likely functions as a flexible tether to the viral matrix protein in the virion. A comparison of intracellular nucleocapsids with prior in-virion nucleocapsid structures reveals that the nucleocapsid further condenses vertically in the virion. The interfaces responsible for nucleocapsid assembly are highly conserved and offer targets for broadly effective antivirals. [Display omitted] • Cryo-ET of Ebola virus replication factories illuminates nucleocapsid assembly • A third layer of nucleocapsid comprises monomeric, RNA-free NP complexed with VP35 • The C-terminal domain of this outer NP likely acts as a flexible tether to the matrix • The conserved interfaces offer targets for the development of broadly effective antivirals In-cell cryo-electron tomography has uncovered the Ebola virus nucleocapsid assembly and condensation processes. The resulting 9 Å map of fully assembled nucleocapsids within the viral replication factory further reveals that two different states of the nucleoprotein NP simultaneously co-exist: one as pairs polymerized along RNA to form the helical core and the other held RNA-free and monomeric by VP35 on the exterior of the nucleocapsid, likely tethering the nucleocapsid to the matrix and membrane. [ABSTRACT FROM AUTHOR]

Published

2024

2. RIOK-1 Is a Suppressor of the p38 MAPK Innate Immune Pathway in Caenorhabditis elegans

Author

Yi-Wei Chen, Wen-Chien Ko, Chang-Shi Chen, and Po-Lin Chen

Subjects

riok-1, p38 MAPK/pmk-1, skn-1, innate immunity, immune suppressor, Aeromonas dhakensis, Immunologic diseases. Allergy, RC581-607

Abstract

Innate immunity is the primary defense mechanism against infection in metazoans. However, aberrant upregulation of innate immune-signaling pathways can also be detrimental to the host. The p38 MAPK/PMK-1 innate immune-signaling pathway has been demonstrated to play essential roles in cellular defenses against numerous infections in metazoans, including Caenorhabditis elegans. However, the negative regulators that maintain the homeostasis of this important innate immune pathway remain largely understudied. By screening a focused RNAi library against the kinome of C. elegans, we identified RIOK-1, a human RIO kinase homolog, as a novel suppressor of the p38 MAPK/PMK-1 signal pathway. We demonstrated that the suppression of riok-1 confers resistance to Aeromonas dhakensis infection in C. elegans. Using quantitative real time-PCR and riok-1 reporter worms, we found the expression levels of riok-1 to be significantly upregulated in worms infected with A. dhakensis. Our genetic epistasis analysis suggested that riok-1 acts on the upstream of the p38 MAPK/pmk-1 genetic pathway. Moreover, the suppression of riok-1 enhanced the p38 MAPK signal, suggesting that riok-1 is a negative regulator of this innate pathway in C. elegans. Our epistatic results put riok-1 downstream of skn-1, which encodes a p38 MAPK downstream transcription factor and serves as a feedback loop to the p38 MAPK pathway during an A. dhakensis infection. In conclusion, riok-1 is proposed as a novel innate immune suppressor and as a negative feedback loop model involving p38 MAPK, SKN-1, and RIOK-1 in C. elegans.

Published

2018

3. RIOK-1 Is a Suppressor of the p38 MAPK Innate Immune Pathway in Caenorhabditis elegans.

Author

Chen, Yi-Wei, Ko, Wen-Chien, Chen, Chang-Shi, and Chen, Po-Lin

Subjects

NATURAL immunity, CAENORHABDITIS elegans, RNA interference

Abstract

Innate immunity is the primary defense mechanism against infection in metazoans. However, aberrant upregulation of innate immune-signaling pathways can also be detrimental to the host. The p38 MAPK/PMK-1 innate immune-signaling pathway has been demonstrated to play essential roles in cellular defenses against numerous infections in metazoans, including Caenorhabditis elegans. However, the negative regulators that maintain the homeostasis of this important innate immune pathway remain largely understudied. By screening a focused RNAi library against the kinome of C. elegans, we identified RIOK-1, a human RIO kinase homolog, as a novel suppressor of the p38 MAPK/PMK-1 signal pathway. We demonstrated that the suppression of riok-1 confers resistance to Aeromonas dhakensis infection in C. elegans. Using quantitative real time-PCR and riok-1 reporter worms, we found the expression levels of riok-1 to be significantly upregulated in worms infected with A. dhakensis. Our genetic epistasis analysis suggested that riok-1 acts on the upstream of the p38 MAPK/pmk-1 genetic pathway. Moreover, the suppression of riok-1 enhanced the p38 MAPK signal, suggesting that riok-1 is a negative regulator of this innate pathway in C. elegans. Our epistatic results put riok-1 downstream of skn-1, which encodes a p38 MAPK downstream transcription factor and serves as a feedback loop to the p38 MAPK pathway during an A. dhakensis infection. In conclusion, riok-1 is proposed as a novel innate immune suppressor and as a negative feedback loop model involving p38 MAPK, SKN-1, and RIOK-1 in C. elegans. [ABSTRACT FROM AUTHOR]

Published

2018

4. A cyclopentanediol analogue selectively suppresses the conserved innate immunity pathways, Drosophila IMD and TNF-α pathways

Author

Sekiya, Mizuki, Ueda, Kazunori, Okazaki, Kaori, Kikuchi, Haruhisa, Kurata, Shoichiro, and Oshima, Yoshiteru

Subjects

*NATURAL immunity, *IMMUNITY, *GROWTH factors, *CYTOKINES

Abstract

Abstract: Innate immunity comprises evolutionarily conserved self-defense mechanisms against microbial infections. In mammals, innate immunity interacts with adaptive immunity and has a key role in the regulated immune response. Therefore, innate immunity is a pharmaceutical target for the development of immune regulators. Using Drosophila ex vivo culture systems, we isolated a cyclopentanediol analogue from Aspergillus sp. as an immunosuppressive substance. This compound selectively suppressed activation of the IMD pathway in Drosophila in vivo and the target molecules of the compound lie between the Imd adaptor protein and dTAK1 kinase in the IMD pathway. In human cells, the compound suppressed TNF-α, but not IL-1β, stimulation-induced activation of NF-κB, suggesting that its target molecules are upstream of TAK1 in mammalian innate immunity. [Copyright &y& Elsevier]

Published

2008

5. Isolation of an imaginal disc growth factor homologue from Pieris rapae and its expression following parasitization by Cotesia rubecula

Author

Asgari, Sassan and Schmidt, Otto

Subjects

*PARASITOIDS, *HYMENOPTERA, *BLOOD cells, *GENES, *VIRUS diseases, *GROWTH factors, *PROTEINS

Abstract

Endoparasitoid insects introduce maternal factors into the body of their host at oviposition to suppress cellular defences for the protection of the developing parasitoid. We have shown that transient expression of polydnavirus genes from a hymenopteran parasitoid Cotesia rubecula (CrPDV) is responsible for the inactivation of hemocytes from the lepidopteran host Pieris rapae. Since the observed downregulation of CrPDV genes in infected host tissues is not due to cis-regulatory elements at the CrV1 gene locus, we speculated that the termination of CrPDV gene expression may be due to cellular inactivation caused by the CrV1-mediated immune suppression of infected tissues. To test this assumption, we isolated an imaginal disc growth factor (IDGF) that is expressed in fat body and hemocytes, the target of viral infection and expression of CrPDV genes. Time-course experiments showed that the level of P. rapae IDGF is not affected by parasitization and polydnavirus infection. However, the amount of highly expressed genes, such as storage proteins, arylphorin and lipophorin, are significantly reduced following parasitization. [Copyright &y& Elsevier]

Published

2004

6. [Inflammation in kidney diseases]

Author

Michelangelo, Nigro, Davide, Viggiano, Pierluigi, D'Angiò, Ermanno, Guarino, Giovambattista, Capasso, Giuseppe, Gigliotti, Nigro, Michelangelo, Viggiano, Davide, D'Angiò, Pierluigi, Guarino, Ermanno, Capasso, Giovambattista, and Gigliotti, Giuseppe

Subjects

immune suppressors, acute phase protein, immune suppressor, History, 19th Century, Atherosclerosis, History, 18th Century, Diabetes Complications, acute phase proteins, inflammation, nephritis, Adrenal Cortex Hormones, Terminology as Topic, Acute Disease, Chronic Disease, Humans, Kidney Diseases, Obesity, Biomarkers, History, Ancient, Immunosuppressive Agents

Abstract

The term "inflammation" is certainly one of the oldest medical terms still in use. However, its meaning has changed over the centuries. This work gives a historical and critical review of the concept of inflammation, with special reference to kidney diseases. Over time the definition of inflammation has shifted from a pure collection of symptoms to a histopathological definition, characterized by the tissue "inflammatory infiltrates" and different subcategories according to the cell type involved. The advantages of this classification are the generally good response to corticosteroids (with only a few exceptions) and the availability of specific drugs for each inflammatory infiltrate. Finally, a "molecular" definition of inflammation has arisen, where the inflammatory infiltrates make room to a plethora of plasma mediators. The authors show that the use of plasma biomarkers as a tool to define inflammatory state leads to net inflation of the number of "inflammatory" diseases - an effect that shows clearly in the field of nephrology.

Published

2020

7. Antibodies to colony-stimulating factors block Lewis lung carcinoma cell stimulation of immune-suppressive bone marrow cells.

Author

Young, M., Wright, Mark, and Young, Melvin

Abstract

Progressive growth of metastatic Lewis lung carcinoma (LLC) tumors results in a concurrent stimulation of myelopoiesis and the appearance of immune-suppressive bone marrow cells. The present study has shown that normal bone marrow cells could be induced to become immune-suppressive by 3 days of culture with supernatants of cloned metastatic LLC-LN7 variant cells. The capacity of the LLC-LN7 supernatants to stimulate the appearance of suppressor cells was directly proportional to the concentration of supernatant used in the bone marrow culture. When adoptively transferred with a LLC-LN7 tumor inoculum, the supernatant-induced suppressor bone marrow cells increased the rate of appearance of palpable tumors and the frequency of tumor establishment. The LLC-LN7 supernatants containing suppressor-cell-inducing activity also had colony-stimulating factor (CSF) activity. The CSF activity produced by the LLC-LN7 cells could be diminished with neutralizing antibodies to either granulocyte/monocyte(GM-) CSF or to interleukin-3 (IL-3). Likewise, the suppressor-inducing activity in the LLC-LN7 supernatants was diminished by pretreatment with anti-GM-CSF or anti-IL-3. The combination of anti-GM-CSF and anti-IL-3 completely neutralized all suppressor-inducing activity produced by the LLC-LN7 cells. These results suggest that the secretion of IL-3 and GM-CSF by LLC-LN7 tumor cells is a mechanism by which the tumors stimulate myelopoiesis and induce normal bone marrow cells to become immune-suppressive. Bone marrow cells that are induced to become immune-suppressive by culture with LLC-LN7 supernatants can, in turn, facilitate the establishment of tumor in vivo. [ABSTRACT FROM AUTHOR]

Published

1991

8. Role of Alpha-Fetoprotein in Hepatocellular Carcinoma Drug Resistance.

Author

Li W, Liu K, Chen Y, Zhu M, and Li M

Subjects

Biomarkers, Tumor, Drug Resistance, Humans, Neoplasm Recurrence, Local, Prognosis, alpha-Fetoproteins, Carcinoma, Hepatocellular drug therapy, Liver Neoplasms drug therapy

Abstract

Hepatocellular carcinoma (HCC) is a major type of primary liver cancer and a major cause of cancer-related deaths worldwide because of its high recurrence rate and poor prognosis. Surgical resection is currently the major treatment measure for patients in the early and middle stages of the disease. Because due to late diagnosis, most patients already miss the opportunity for surgery upon disease confirmation, conservative chemotherapy (drug treatment) remains an important method of comprehensive treatment for patients with middle- and late-stage liver cancer. However, multidrug resistance (MDR) in patients with HCC severely reduces the treatment effect and is an important obstacle to chemotherapeutic success. Alpha-fetoprotein (AFP) is an important biomarker for the diagnosis of HCC. The serum expression levels of AFP in many patients with HCC are increased, and a persistently increased AFP level is a risk factor for HCC progression. Many studies have indicated that AFP functions as an immune suppressor, and AFP can promote malignant transformation during HCC development and might be involved in the process of MDR in patients with liver cancer. This review describes drug resistance mechanisms during HCC drug treatment and reviews the relationship between the mechanism of AFP in HCC development and progression and HCC drug resistance., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2021