Your search keyword '"map-kinase"' showing total 203 results

1. Nitric Oxide: A Key Bioactive Regulator of Plant Tolerance Mechanism Under Metal Induced Oxidative Stress

Author

Sharma, Lata, Parihar, Suman, Shekhawat, Gyan Singh, Faizan, Mohammad, editor, and Hayat, Shamsul, editor

Published

2024

2. A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression

Author

Kristina A. Sharlo, Irina D. Lvova, Sergey A. Tyganov, Ksenia V. Sergeeva, Vitaly Y. Kalashnikov, Ekaterina P. Kalashnikova, Timur M. Mirzoev, Grigoriy R. Kalamkarov, Tatiana F. Shevchenko, and Boris S. Shenkman

Subjects

hindlimb unloading, muscle activity, MyHC, MAP-kinase, soleus muscle, Biology (General), QH301-705.5

Abstract

Skeletal muscle disuse leads to pathological muscle activity as well as to slow-to-fast fiber-type transformation. Fast-type fibers are more fatigable than slow-type, so this transformation leads to a decline in muscle function. Prochlorperazine injections previously were shown to attenuate autonomous rat soleus muscle electrical activity under unloading conditions. In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.

Published

2023

3. Phytochemicals from Honey as MAP-Kinase Inhibitors: Current Therapeutic Standing and Future Prospects

Author

Wani, Hilal Ahmad, Majid, Sabhiya, Wani, Reyaz Ahmad, Khan, Mosin Saleem, Qureshi, Waseem, Bhat, Arif Akbar, Bhat, Showkat Ahmad, Rasool, Shabhat, Amin, Heena, Masoodi, Mubashir, Rehman, Muneeb U., editor, and Majid, Sabhiya, editor

Published

2020

4. Cla4p Kinase Activity Is Down-Regulated by Fus3p during Yeast Mating.

Author

Kim, Junwon and Rose, Mark D.

Subjects

*PROTEIN kinases, *YEAST, *CELL fusion, *CELL nuclei, *SACCHAROMYCES cerevisiae

Abstract

In Saccharomyces cerevisiae, the p21-activated kinase Cla4p regulates polarized morphogenesis and cytokinesis. However, it remains unknown how Cla4p kinase activity is regulated. After pheromone exposure, yeast cells temporally separate the mitotic and mating programs by sequestering Fus2p in the nucleus until cell cycle completion, after which Fus2p exits to facilitate cell fusion. Previously, we showed that sequestration is regulated by two opposing protein kinases, Cla4p and Fus3p. Phosphorylation of Fus2p-S67 by Cla4p promotes nuclear localization by both activating nuclear import and blocking export. During mating, phosphorylation of Fus2p-S85 and Fus2p-S100 by Fus3p promotes nuclear export and blocks import. Here, we find that Cla4p kinase activity is itself down-regulated during mating. Pheromone exposure causes Cla4p hyper-phosphorylation and reduced Fus2p-S67 phosphorylation, dependent on Fus3p. Multiple phosphorylation sites in Cla4p are mating- and/or Fus3p-specific. Of these, Cla4p-S186 phosphorylation reduced the kinase activity of Cla4p, in vitro. A phosphomimetic cla4-S186E mutation caused a strong reduction in Fus2p-S67 phosphorylation and nuclear localization, in vivo. More generally, a non-phosphorylatable mutation, cla4-S186A, caused failure to maintain pheromone arrest and delayed formation of the mating-specific septin morphology. Thus, as cells enter the mating pathway, Fus3p counteracts Cla4p kinase activity to allow proper mating differentiation. [ABSTRACT FROM AUTHOR]

Published

2022

5. The expression levels of genes involved in JNK signaling decrease by aging in the liver.

Author

Karaca, Zeynal Mete, Karaca, Gamze, Kayhan, Basak, Kustepe, Elif Kayhan, and Gul, Mehmet

Subjects

*LIVER diseases, *AGING, *AUTOIMMUNE hepatitis, *LIVER transplantation, *JNK mitogen-activated protein kinases, *APOPTOSIS

Abstract

Aim: The c-Jun NH2-terminal kinases (JNK) signaling pathway is an important signaling pathway in liver regeneration. it was planned to investigate the expression levels of Mitogen Activated Protein Kinase Kinase (MKK)-4 and -7 (MKK7), which are mediator molecules involved in the JNK signaling pathway and Activating Transcription Factor (ATF) 2 transcription factor genes, which are in the last stage of the signaling pathway, in liver tissues in young and old mice. In addition, it was aimed to examine the ultrastructural changes caused by aging in hepatocytes. Material and Methods: We examined MKK4, MKK7 and ATF2 expression levels by using Real Time Polymerase Chain Reaction (RT-qPCR) method. Transmission electron microscopy (TEM) was used to observe the ultrastructural changes of hepatocytes. Results: While MKK4 and ATF2 gene expressions reduced in the liver of aged mice, MKK7 gene expression did not change. In TEM examinations, granular endoplasmic reticulum loss and mitochondrial damage were observed in elderly individuals. Conclusion: According to these results, spontaneous liver damage that can be seen in aged subjects may be caused by disruption in cellular signaling pathways and organelle damage in hepatocytes. [ABSTRACT FROM AUTHOR]

Published

2022

6. Short-term treatment with multi-drug regimens combining BRAF/MEK-targeted therapy and immunotherapy results in durable responses in Braf-mutated melanoma

Author

Michael G. White, Robert Szczepaniak Sloane, Russell G. Witt, Alexandre Reuben, Pierre Olivier Gaudreau, Miles C. Andrews, Ningping Feng, Sarah Johnson, Caleb A. Class, Christopher Bristow, Khalida Wani, Courtney Hudgens, Luigi Nezi, Teresa Manzo, Mariana Pettaccia De Macedo, Jianhua Hu, Richard Davis, Hong Jiang, Peter Prieto, Elizabeth Burton, Patrick Hwu, Hussein Tawbi, Jeffrey Gershenwald, Alexander J. Lazar, Michael T. Tetzlaff, Willem Overwijk, Scott E Woodman, Zachary A. Cooper, Joseph R. Marszalek, Michael A. Davies, Timothy P. Heffernan, and Jennifer A. Wargo

Subjects

melanoma, immunotherapy, targeted therapy, toxicity, checkpoint blockade, ox-40, map-kinase, Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Targeted and immunotherapy regimens have revolutionized the treatment of advanced melanoma patients. Despite this, only a subset of patients respond durably. Recently, combination strategies of BRAF/MEK inhibitors with immune checkpoint inhibitor monotherapy (α-CTLA-4 or α-PD-1) have increased the rate of durable responses. Based on evidence from our group and others, these therapies appear synergistic, but at the cost of significant toxicity. We know from other treatment paradigms (e.g. hematologic malignancies) that combination strategies with multi-drug regimens (>4 drugs) are associated with more durable disease control. To better understand the mechanism of these improved outcomes, and to identify and prioritize new strategies for testing, we studied several multi-drug regimens combining BRAF/MEK targeted therapy and immunotherapy combinations in a Braf-mutant murine melanoma model (BrafV600E/Pten−/−). Short-term treatment with α-PD-1 and α-CTLA-4 monotherapies were relatively ineffective, while treatment with α-OX40 demonstrated some efficacy [17% of mice with no evidence of disease, (NED), at 60-days]. Outcomes were improved in the combined α-OX40/α-PD-1 group (42% NED). Short-term treatment with quadruplet therapy of immunotherapy doublets in combination with targeted therapy [dabrafenib and trametinib (DT)] was associated with excellent tumor control, with 100% of mice having NED after combined DT/α-CTLA-4/α-PD-1 or DT/α-OX40/α-PD-1. Notably, tumors from mice in these groups demonstrated a high proportion of effector memory T cells, and immunologic memory was maintained with tumor re-challenge. Together, these data provide important evidence regarding the potential utility of multi-drug therapy in treating advanced melanoma and suggest these models can be used to guide and prioritize combinatorial treatment strategies.

Published

2021

7. Cla4p Kinase Activity Is Down-Regulated by Fus3p during Yeast Mating

Author

Junwon Kim and Mark D. Rose

Subjects

PAK-kinase, MAP-kinase, Saccharomyces cerevisiae, conjugation, budding yeast, phosphorylation, Microbiology, QR1-502

Abstract

In Saccharomyces cerevisiae, the p21-activated kinase Cla4p regulates polarized morphogenesis and cytokinesis. However, it remains unknown how Cla4p kinase activity is regulated. After pheromone exposure, yeast cells temporally separate the mitotic and mating programs by sequestering Fus2p in the nucleus until cell cycle completion, after which Fus2p exits to facilitate cell fusion. Previously, we showed that sequestration is regulated by two opposing protein kinases, Cla4p and Fus3p. Phosphorylation of Fus2p-S67 by Cla4p promotes nuclear localization by both activating nuclear import and blocking export. During mating, phosphorylation of Fus2p-S85 and Fus2p-S100 by Fus3p promotes nuclear export and blocks import. Here, we find that Cla4p kinase activity is itself down-regulated during mating. Pheromone exposure causes Cla4p hyper-phosphorylation and reduced Fus2p-S67 phosphorylation, dependent on Fus3p. Multiple phosphorylation sites in Cla4p are mating- and/or Fus3p-specific. Of these, Cla4p-S186 phosphorylation reduced the kinase activity of Cla4p, in vitro. A phosphomimetic cla4-S186E mutation caused a strong reduction in Fus2p-S67 phosphorylation and nuclear localization, in vivo. More generally, a non-phosphorylatable mutation, cla4-S186A, caused failure to maintain pheromone arrest and delayed formation of the mating-specific septin morphology. Thus, as cells enter the mating pathway, Fus3p counteracts Cla4p kinase activity to allow proper mating differentiation.

Published

2022

8. Short-term treatment with multi-drug regimens combining BRAF/MEK-targeted therapy and immunotherapy results in durable responses in Braf-mutated melanoma.

Author

White, Michael G., Sloane, Robert Szczepaniak, Witt, Russell G., Reuben, Alexandre, Gaudreau, Pierre Olivier, Andrews, Miles C., Ningping Feng, Johnson, Sarah, Class, Caleb A., Bristow, Christopher, Wani, Khalida, Hudgens, Courtney, Nezi, Luigi, Manzo, Teresa, De Macedo, Mariana Pettaccia, Jianhua Hu, Davis, Richard, Hong Jiang, Prieto, Peter, and Burton, Elizabeth

Subjects

*MELANOMA, *IMMUNE checkpoint inhibitors, *IMMUNOLOGIC memory, *IMMUNOTHERAPY, *HEMATOLOGIC malignancies

Abstract

Targeted and immunotherapy regimens have revolutionized the treatment of advanced melanoma patients. Despite this, only a subset of patients respond durably. Recently, combination strategies of BRAF/MEK inhibitors with immune checkpoint inhibitor monotherapy (α-CTLA-4 or α-PD-1) have increased the rate of durable responses. Based on evidence from our group and others, these therapies appear synergistic, but at the cost of significant toxicity. We know from other treatment paradigms (e.g. hematologic malignancies) that combination strategies with multi-drug regimens (>4 drugs) are associated with more durable disease control. To better understand the mechanism of these improved outcomes, and to identify and prioritize new strategies for testing, we studied several multi-drug regimens combining BRAF/MEK targeted therapy and immunotherapy combinations in a Braf-mutant murine melanoma model (BrafV600E/Pten-/-). Short-term treatment with α-PD-1 and α-CTLA-4 monotherapies were relatively ineffective, while treatment with α-OX40 demonstrated some efficacy [17% of mice with no evidence of disease, (NED), at 60-days]. Outcomes were improved in the combined α-OX40/α-PD-1 group (42% NED). Short-term treatment with quadruplet therapy of immunotherapy doublets in combination with targeted therapy [dabrafenib and trametinib (DT)] was associated with excellent tumor control, with 100% of mice having NED after combined DT/α-CTLA-4/α-PD-1 or DT/α-OX40/α-PD-1. Notably, tumors from mice in these groups demonstrated a high proportion of effector memory T cells, and immunologic memory was maintained with tumor re-challenge. Together, these data provide important evidence regarding the potential utility of multi-drug therapy in treating advanced melanoma and suggest these models can be used to guide and prioritize combinatorial treatment strategies. [ABSTRACT FROM AUTHOR]

Published

2021

9. A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression

Author

Shenkman, Kristina A. Sharlo, Irina D. Lvova, Sergey A. Tyganov, Ksenia V. Sergeeva, Vitaly Y. Kalashnikov, Ekaterina P. Kalashnikova, Timur M. Mirzoev, Grigoriy R. Kalamkarov, Tatiana F. Shevchenko, and Boris S.

Subjects

hindlimb unloading, muscle activity, MyHC, MAP-kinase, soleus muscle

Abstract

Skeletal muscle disuse leads to pathological muscle activity as well as to slow-to-fast fiber-type transformation. Fast-type fibers are more fatigable than slow-type, so this transformation leads to a decline in muscle function. Prochlorperazine injections previously were shown to attenuate autonomous rat soleus muscle electrical activity under unloading conditions. In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.

Published

2023

10. Inhibitors of CPH1-MAP Kinase Pathway: Ascertaining Potential Ligands as Multi-Target Drug Candidate in Candida albicans.

Author

Jha, Anubhuti, Vimal, Archana, Bakht, Afroz, and Kumar, Awanish

Subjects

*CANDIDA albicans, *LIGANDS (Biochemistry), *DRUGS

Abstract

A number of proteins contributing in pathogen's virulence mechanisms offer a potential target for anticandidal therapeutics. CPH1 and its regulatory proteins Cst20, Hst7, Cek1 (MAPK cascade) administers filamentation and morphogenesis in human pathogenic fungus Candida albicans. These proteins are essential targets for their involvement in the successful establishment of the fungi within the host. In silico drug design using virtual screening, docking and (ADME)/Tox analysis for identification of lead compounds is an economic strategy for the development of potent anticandidal agent. The study divulged five persuasive ligands (2-O-prenyl coumaric acid, 2-nitro-4-methyl-cinnamaldehyde, 3,5-diprenyl-4-coumaric acid, VT1161, T-2307) out of 25, which collectively inhibited Cst20, Hst7, Cek1 in C. albicans. They can hence be used as natural drug leads for designing more effective inhibitors of multiple targets for C. albicans survival and progression of the disease. This study will enhance our understanding of the phenomenon "multiple targeting" and multi-target drug discovery further accelerating efficient broad-spectrum antifungal therapeutics development in near future. This study provides a good platform to eradicate the issue of "target shortage" that might facilitate the discovery of novel drugs in near future because the prolonged use of antibiotics over the years has transformed pathogenic fungus into resistant to many drugs. [ABSTRACT FROM AUTHOR]

Published

2019

11. Der Einfluss der kurzkettigen Fettsäure Butyrat auf 'Signal Übermittler und Aktivator der Transkription 3' (STAT3) und ausgewählte an der Entzündung beteiligte Gene in der Dickdarmkrebszelllinie CACO-2 im 2D- und 3D Modell

Author

Läsker, Katharina

Subjects

%22">Butyrate , MAP-Kinase, Signaltransduktion, ddc:610, 610 Medizin und Gesundheit, Darmepithel, Cytokine

Abstract

A disturbance in the symbiotic mutualism between the intestinal microbiome and the human host’s organism (syn. dysbiosis) accompanies the development of a variety of inflammatory and metabolic diseases that comprise the Metabolic Syndrome, chronic inflammatory gut diseases like Crohn’s disease, Non-alcoholic fatty liver disease (NAFLD) and cardiovascular diseases, among others. The changed uptake and effectiveness of short chain fatty acids (SCFAs) as well as an increase of the intestinal permeability are common, interdependent disease elements in this regard. Short chain fatty acids are end-products of intestinal bacterial fermentation and affect the mucosal barrier integrity via numerous molecular mechanisms. There is evidence to suggest, that SCFAs have a modulating influence on Signal transducer and activator of transcription 3 (STAT3) in intestinal epithelial cells. STAT3 is a central gene-transcription factor in signaling pathways of proliferation and inflammation. It can be activated by growth factors and other intercellular signaling molecules like the cytokine Oncostatin M (OSM). The mode of STAT3’s activation exhibits, finally, a decisive influence on the immunological balance at the intestinal mucosa. Therefore, the posttranslational modification of STAT3 under the influence of SCFAs is likely to be a very important factor within the development and -progression of dysbiosis-associated diseases. In this study, a clear positive in vitro-effect of the short chain fatty acid butyrate on the posttranslational serine727-phosphorylation of STAT3 and its total protein amount in the human adenocarcinoma cell line CACO2 is verified. Moreover, an increased gene expression of the OSM-receptor subunit OSMRβ can be observed after butyrate incubation. Histone deacetylase inhibition is shown to have a predominant role in these effects. Furthermore, a subsequent p38 MAPK-activation by Butyrate is found to be a key molecular mechanism regarding the STAT3-phosphorylation at serine727-residues. To consider the portion of butyrate receptor signaling in this context in future assays, a CACO-2 cell 3D-culture model is introduced in which an improvement of the GPR109A-receptor expression in CACO-2 cells is accomplished., Eine Störung der symbiotischen Wechselbeziehung zwischen dem Darmmikrobiom und dem Wirtsorganismus (syn. Dysbiose) begleitet die Entwicklung vieler verschiedener entzündlicher und metabolischer Erkrankungen. Zu ihnen zählen unter anderem das Metabolische Syndrom, chronisch entzündliche Darmerkrankungen wie M. Crohn, die Nicht-alkoholische Fettlebererkrankung (NAFLD) und kardiovaskuläre Erkrankungen. Eine veränderte Aufnahme und Wirkung von kurzkettigen Fettsäuren (Short-chain fatty acids = SCFAs) und eine Schwächung der Darmbarriere bedingen sich in diesem Zusammenhang gegenseitig. Kurzkettige Fettsäuren sind Endprodukte des bakteriellen Stoffwechsels und beeinflussen die Integrität der Darmbarriere über eine Vielzahl molekularer Mechanismen. Es gibt Hinweise darauf, dass kurzkettige Fettsäuren einen modulierenden Einfluss auf „Signal transducer and activator of transcription 3“ (STAT3) in intestinalen epithelialen Zellen ausüben. STAT3 ist hier ein zentraler Gentranskriptionsfaktor in proliferations- und entzündungsregulierenden Zellsignalwegen. Er kann durch Wachstumsfaktoren und andere interzelluläre Botenstoffe, wie beispielsweise das Zytokin Oncostatin M (OSM), aktiviert werden. Die Art der Aktivierung von STAT3 wirkt sich nicht zuletzt entscheidend auf die immunologische Balance an der Darmbarriere aus. Die Modifikation von STAT3 durch kurzkettige Fettsäuren ist aufgrund dessen mit hoher Wahrscheinlichkeit ein sehr wichtiger Faktor im Hinblick auf Entstehung und Progression der im Zusammenhang mit einer Dysbiose stehenden Erkrankungen. In dieser Arbeit kann eine klare Steigerung der posttranslationalen Phosphorylierung von STAT3 an den Serin-Molekülendungen der Position 727 sowie eine Steigerung der Gesamtproteinmenge von STAT3 in der humanen Karzinomzellline CACO2 in vitro durch Butyrat-Inkubation gezeigt werden. Weiterhin wird unter Butyrat-Einfluss auch die Genexpression der OSM-Rezeptor-Untereinheit OSMRβ gesteigert. Diese Effekte können größtenteils auf den Mechanismus der Histondeacetylase-Hemmung durch Butyrat zurückgeführt werden. Die in der Folge erhöhte P38 MAPK-Phosphorylierung durch Butyrat ist in Bezug auf die Serin727-Phosphorylierung an STAT3 entscheidend beteiligt. Um in künftigen Assays auch den möglichen Einfluss der Butyrat-Rezeptor-Wirkung in diesem Zusammenhang besser zu erfassen, wird ein 3D-Zellkultur Ansatz getestet und in diesem eine verbesserte Expression des Butyrat-Rezeptors GPR109A in CACO-2-Zellen erreicht.

Published

2023

12. Attenuation of Inflammatory Symptoms by Icariside B2 in Carrageenan and LPS-Induced Inflammation Models via Regulation of MAPK/NF-κB Signaling Cascades

Author

Md Badrul Alam, Yoon-Gyung Kwon, Shakina Yesmin Simu, Sk Abrar Shahriyar, and Sang Han Lee

Subjects

anti-inflammatory effects, icariside B2, NF-κB signaling, MAP-kinase, Microbiology, QR1-502

Abstract

Prolonged inflammatory responses can lead to the development of several chronic diseases, such as autoimmune disorders and the development of natural therapeutic agents is required. A murine model was used to assess the anti-inflammatory effects of the megastigmane glucoside, icariside B2 (ICSB), and the assessment was carried out in vitro, and in vivo. The in vitro anti-inflammatory effects of ICSB were tested using LPS-stimulated BV2 cells, and the protein expression levels of inflammatory genes and cytokines were assessed. Mice were subcutaneously injected with 1% carrageenan (CA) to induce acute phase inflammation in the paw. Inflammation was assessed by measuring paw volumes hourly; subsequently, the mice were euthanized and the right hind paw skin was expunged and processed for reverse transcription-polymerase chain reaction (RT-PCR) and Western blot analyses. ICSB inhibits LPS-stimulated nitric oxide (NO) and prostaglandin E2 (PGE2) generation by reducing the expression of inducible NO synthase (iNOS) and cyclooxygenase 2 (COX-2). ICSB also inhibits the COX-2 enzyme with an IC50 value of 7.80 ± 0.26 µM. Molecular docking analysis revealed that ICSB had a strong binding affinity with both murine and human COX-2 proteins with binding energies of −8 kcal/mol and −7.4 kcal/mol, respectively. ICSB also reduces the manifestation of pro-inflammatory cytokines, such as TNF-α, IL-6, and IL-1β, at their transcriptional and translational level. ICSB hinders inhibitory protein κBα (IκBα) phosphorylation, thereby terminating the nuclear factor kappa-light-chain-enhancer of activated B cell (NF-κB) nuclear translocation. ICSB also represses the mitogen-activated protein kinases (MAPKs) signaling pathways. ICSB (50 mg/kg) showed an anti-edema effect in CA-induced mice and suppressed the CA-induced increases in iNOS and COX-2 protein levels. ICSB attenuated inflammatory responses by downregulating NF-κB expression through interference with extracellular signal-regulated kinase (ERK) and p38 phosphorylation, and by modulating the expression levels of iNOS, COX-2, TNF-α, IL-1β, and IL-6.

Published

2020

13. A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression.

Author

Sharlo KA, Lvova ID, Tyganov SA, Sergeeva KV, Kalashnikov VY, Kalashnikova EP, Mirzoev TM, Kalamkarov GR, Shevchenko TF, and Shenkman BS

Abstract

Skeletal muscle disuse leads to pathological muscle activity as well as to slow-to-fast fiber-type transformation. Fast-type fibers are more fatigable than slow-type, so this transformation leads to a decline in muscle function. Prochlorperazine injections previously were shown to attenuate autonomous rat soleus muscle electrical activity under unloading conditions. In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.

Published

2023

14. Selective Aptamer-Based Control of Intraneuronal Signaling.

Author

Lennarz, Sabine, Alich, Therese Christine, Kelly, Tony, Blind, Michael, Beck, Heinz, and Mayer, Günter

Subjects

*APTAMERS, *CELLULAR signal transduction, *RNA, *MITOGEN-activated protein kinases, *NEUROPLASTICITY, *PATCH-clamp techniques (Electrophysiology)

Abstract

Cellular behavior is orchestrated by the complex interactions of a myriad of intracellular signal transduction pathways. To understand and investigate the role of individual components in such signaling networks, the availability of specific inhibitors is of paramount importance. We report the generation and validation of a novel variant of an RNA aptamer that selectively inhibits the mitogen-activated kinase pathway in neurons. We demonstrate that the aptamer retains function under intracellular conditions and that application of the aptamer through the patch-clamp pipette efficiently inhibits mitogen-activated kinase-dependent synaptic plasticity. This approach introduces synthetic aptamers as generic tools, readily applicable to inhibit different components of intraneuronal signaling networks with utmost specificity. [ABSTRACT FROM AUTHOR]

Published

2015

15. Anti-inflammatory effects of kolaviron modulate the expressions of inflammatory marker genes, inhibit transcription factors ERK1/2, p-JNK, NF-κB, and activate Akt expressions in the 93RS2 Sertoli cell lines.

Author

Abarikwu, Sunny

Abstract

The anti-inflammatory effects of kolaviron (Kol-v) have been demonstrated in several experimental models. The ability of Kol-v to modulate the expressions of inflammatory genes in lipopolysaccharide (LPS)-stimulated Sertoli cell line, 93RS2 was investigated in this study. Kol-v decreased the expressions of inflammatory genes TNF-α, Tlr-4, and Nfκb1 and has synergistic effect on LPS-induced COX-2 and iNOS expressions at high concentrations (25-100 μM). At lower concentrations (5-15 µM), the expressions of TNF-α, IL-6, and IL-1α were down-regulated by Kol-v except Tgfβ1 that was up-regulated. The LPS-induced decrease in the expression of the anti-inflammatory genes IL-3, IL-4, and IL-10 was blocked by Kol-v at all concentrations of Kol-v tested. The LPS-induced phosphorylations of mitogen-activated protein kinase family members (ERK1/2, and p-JNK), decreased IκBα expression, and decreased Akt phosphorylation was blocked by Kol-v. Our results highlight the potential for Kol-v at lower concentration to ameliorate cellular damage caused by local inflammation. [ABSTRACT FROM AUTHOR]

Published

2015

16. Molecular characterization of mitogen-activated protein kinase (MAPK) components from \(Echinococcus\) \(multilocularis\)

Author

Stoll, Kristin

Subjects

Fuchsbandwurm, MAP-Kinase, ddc:610, 610 Medizin und Gesundheit

Abstract

Die alveoläre Echinokokkose (AE), verursacht durch das Metacestoden- Larvenstadium des Fuchsbandwurms Echinococcus multilocularis (E. multilocularis), ist eine lebensbedrohliche Zoonose der nördlichen Hemisphäre mit eingeschränkten therapeutischen Möglichkeiten. Bei der Suche nach neuen Therapeutika haben Mitogen-activated Proteinkinase (MAPK) -Kaskaden als pharmakologische Zielstrukturen aufgrund ihrer essentiellen Rolle bei der Zellproliferation und -differenzierung ein großes Potenzial. In der vorliegenden Arbeit wurden durch BLAST- und reziproke BLAST-Analysen elf potenzielle MAPK Kinase Kinasen (MAP3K), fünf potenzielle MAPK Kinasen (MAP2K) und sechs potenzielle MAPK im E. multilocularis-Genom identifiziert, die teils hoch konserviert sind und in nahezu allen Entwicklungsstadien des Parasiten exprimiert werden. Diese Erkenntnisse lassen auf ein komplexes MAPK-Signaltransduktions- system in E. multilocularis mit großer Bedeutung für den Parasiten schließen. Transkriptomdatenanalysen und Whole Mount in Situ Hybridisierung (WMISH) zeigten, dass emmkkk1 (EmuJ_000389600) als einzige MAP3K neben der Expression in postmitotischen Zellen in besonderem Maße in proliferativen Stammzellen des Parasiten exprimiert wird und somit eine wichtige Rolle bei der Differenzierung von Stammzellen spielen könnte. In Yeast-Two-Hybrid (Y2H) -Wechselwirkungsassays wurden Interaktionen von mehreren upstream- (EmGRB2) und downstream- wirkenden Signalkaskadekomponenten des JNK (EmMKK3, EmMPK3) und ERK (EmMKK3, EmMPK4) -Signalwegs gefunden. Daraus lässt sich schließen, dass EmMKKK1, analog zu seinem humanen Homolog HsM3K1, eine zentrale Rolle bei der Echinococcus-Wachstumsregulation durch Rezeptortyrosinkinasen und vielfältige weitere Funktionen im Parasiten besitzt. Anhand von Erkenntnissen an Platyhelminthes kann daher von einem großen Potenzial dieser neu charakterisierten Signalwege als chemotherapeutische Angriffspunkte ausgegangen werden, wenngleich erste RNA-Interferenz (RNAi)- und Inhibitorstudien an emmkkk1, emmpk1 und emmpk4 keine durchschlagenden Effekte auf das Überleben von Primärzellkulturen und die Bildung von Metacestodenvesikeln zeigten. Zusammenfassend konnte in der vorliegenden Arbeit mit EmMKKK1 und neuen ERK- und JNK-Signalwegen zentrale Komponenten der komplexen MAPK-Signalkaskaden in E. multilocularis identifiziert werden, die höchstwahrscheinlich einen großen Beitrag zur enormen Regenerationsfähigkeit der Echinococcus-Stammzellen leisten und vom Wirt abgeleitete Signale wie Insulin, Epidermaler Wachstumsfaktor (EGF) und Fibroblasten-Wachstumsfaktor (FGF) über EmGRB2 in Proliferationsnetzwerke des Parasiten integrieren. Arzneimittel-Screening-Assays, die auf diese Signalwege abzielen, könnten daher zu alternativen Arzneimitteln führen, die alleine oder in Kombination mit einer bestehenden Chemotherapie (Benzimidazol) die Prognose von für AE-Patienten verbessern könnten., Alveolar echinococcosis (AE), caused by the metacestode larval stage of the fox tapeworm Echinococcus multilocularis (E. multilocularis), is a life-threatening zoonosis of the Northern Hemisphere with limited therapeutic options. In searches for a new chemotherapy, mitogen-activated protein kinase (MAPK) cascades are of great potential as new drug targets due to their essential role in cell proliferation and differentiation. In this work eleven potential MAPK kinase kinases (MAP3K), five potential MAPK kinases (MAP2K) and six potential MAPK were identified in the E. multilocularis genome by BLAST and reciprocal BLAST analyses, of which some are highly conserved and expressed in almost all developmental stages of the parasite. These findings suggest a complex MAPK signal transduction system in E. multilocularis with major importance for the parasite. Transcriptome data analysis and Whole Mount in Situ Hybridization (WMISH) showed that emmkkk1 (EmuJ_000389600) is the only MAP3K being decisively expressed in the proliferative parasite in addition to expression in postmitotic cells, and thus could play an important role in the differentiation of stem cells. In Yeast-Two-Hybrid (Y2H) interaction assays, interactions between several upstream (EmGRB2) and downstream signaling cascade components of JNK (EmMKK3, EmMPK3) and ERK (EmMKK3, EmMPK4) signaling pathways were detected. Thus, EmMKKK1, like its human homologue HsM3K1, appears to play a central role in Echinococcus growth regulation by receptor tyrosine kinases and seems to have diverse other functions in the parasite. Based on findings on other platyhelminths it can be expected that these newly characterized signaling pathways are of great potential as drug target, although first RNA interference (RNAi) and inhibitor studies on emmkkk1, emmpk1 and emmpk4 revealed no substantive effects on the survival of primary cell cultures and the formation of metacestode vesicles. In conclusion, the present work identified with EmMKKK1 and new ERK and JNK signaling pathways central components of the complex MAPK signaling cascades in E. multilocularis, which most likely contribute to the enormous regenerative capacity of Echinococcus stem cells and integrate host derived signals such as insulin, epidermal growth factor (EGF), and fibroblast growth factor (FGF) via EmGBR2 into proliferative networks of the parasite. Targeting these signaling pathways in drug screening assays might thus lead to alternative drugs that alone, or in combination with existing chemotherapy (benzimidazole), could improve the prognose of AE patients.

Published

2021

17. Inhibition of pathological cardiac hypertrophy by the dimer interface of ERK1/2

Author

Kramer, Sofia

Subjects

ddc:615, MAP-Kinase, Dimerisierung, Herzhypertrophie, Interferenz

Abstract

Die extrazellulär Signal-regulierten Kinasen 1 und 2 (ERK1/2) spielen eine zentrale Rolle bei der Vermittlung kardialer Hypertrophie und dem Zellüberleben. Hypertrophe Stimuli aktivieren ERK1/2, triggern deren Dimerisierung und in der Folge die ERK188-Autophosphorylierung. Diese neu entdeckte Autophosphorylierung ist eine Voraussetzung für den nukleären Import von ERK1/2 und führt zum Entstehen pathologischer kardialer Hypertrophie. Da das Dimer Interface von ERK eine mögliche Zielstruktur darstellt, um selektiv die nukleären Signalwege von ERK zu unterbrechen, wurde untersucht, ob man mit Hemmung der ERK-Dimerisierung eine therapeutische Möglichkeit hat, um pathologische kardiale Hypertrophie zu verhindern. Dazu wurden verschiedene ERK2 Mutanten und Peptide generiert, um die ERK-Dimerisierung zu verhindern. Die Effekte dieser Konstrukte auf die ERK-Dimerisierung und den Kernimport wurden in verschiedenen Zelltypen mittels Fluoreszenzmikroskopie, Co-Immunopräzipitationen und Duolink proximity ligation assays getestet. Es konnte gezeigt werden, dass die Peptide effektiv die ERK-ERK Interaktion nach Stimulation mit Phenylephrin und/oder Carbachol verhindern. Zusätzlich reduzierten die Peptide ERKT188-Phosphorylierung und in der Folge den ERK-Import in den Nukleus und Kardiomyozytenhypertrophie. Normale ERK-Aktivierung wurde jedoch durch die Peptide nicht verhindert. Insgesamt konnte gezeigt werden, dass das ERK-Dimer Interface eine wertvolle Zielstruktur ist, mit dem man nukleäre ERK1/2 Signalwege selektiv unterbrechen und damit effektiv Kardiomyozytenwachstum reduzieren kann, ohne gleichzeitig das Zellüberleben zu gefährden., The extracellular signal-regulated kinases 1 and 2 (ERK1/2) have a central role in cardiac hypertrophy and cell survival. Hypertrophic stimuli activate ERK1/2, trigger ERK dimerization and subsequently ERKT188-autophosphorylation. This newly discovered autophosphorylation is a prerequisite for nuclear ERK1/2 translocation and leads to the development of pathological cardiac hypertrophy. As the ERK dimer interface is a potential target to selectively interfere with nuclear ERK1/2 signaling, we investigated whether the interference with ERK dimerization may serve as a therapeutic strategy to prevent pathological cardiac hypertrophy. For this, we generated ERK2 mutants and peptide constructs that interfere with ERK dimerization. These constructs were evaluated in various cell types by their effects on nuclear ERK translocation and dimerization by fluorescence microcopy, co-immunoprecipitation and Duolink proximity ligation assays. We showed that the peptides indeed prevented ERK-ERK interaction in response to phenylephrine and/or carbachol stimulation. In addition, the peptides prevented ERKT188-phosphorylation and interfered with all ERK1/2 effects that are associated with ERKT188-phosphorylation e.g. nuclear ERK translocation and cardiomyocyte hypertrophy. Interestingly, the peptide did not inhibit the general activation of ERK1/2. These data indicate that the ERK dimer interface is a valuable target for selective inhibition of nuclear ERK1/2 signaling, that is able to effectively attenuate ERK1/2 mediated cardiomyocyte growth but without impairing cell survival.

Published

2021

18. Function of the MEK5/ERK5-Pathway in the targeted Therapy of Melanoma

Author

Weiß, Neele

Subjects

MAP-Kinase, ddc:610, Melanom

Abstract

In dieser Dissertation wird der MEK5/ERK5- Signalweg als möglicher Angriffspunkt in der zielgerichteten Melanomtherapie identifiziert. Die Adressierung von ERK5 bietet eine Alternative, um einer Resistenzentwicklung gegenüber Inhibitoren des MAPK- Signalwegs entgegenzuwirken. Das maligne Melanom ist ein hochaggressiver Tumor mit steigender Inzidenz. Zunehmende Sonnenstunden im Rahmen des Klimawandels mit erhöhter Belastung der Haut durch UV-Strahlung werden die Problematik des malignen Melanoms für den Menschen in den nächsten Jahren weiter zunehmen lassen. Die Aktivierung des MEK5/ERK5- Signalwegs scheint eine Reaktion von Tumorzellen auf Therapiestress zu sein. Diese Aktivierung liefert den Melanomzellen einen Überlebensvorteil und verhindert ein langfristiges Therapieansprechen. ERK5 beeinflusst den Zellzyklus von Melanomzellen und ist somit möglicherweise von wichtiger Bedeutung in der Tumorgenese des malignen Melanoms. Patienten mit NRAS- Mutation profitieren auffallend weniger von einer gezielten MEKi-Therapie als solche mit BRAF Mutation. Für ersteres Patientenkollektiv steht aktuell lediglich die Immuntherapie zur Verfügung, wodurch oft nur ein kurzes, progressionsfreies Intervall erreicht werden kann und die Patienten häufig unter schweren Nebenwirkungen leiden. Grund für die problematische Behandlung könnte das häufige Auftreten einer basalen ERK5- Aktivierung in NRAS- mutierten Melanomen sein. Diese Arbeit liefert eine positive Prognose über den Nutzen einer ERK5- Inhibition als Erweiterung des Therapieschemas. Diese These gilt auch für Melanompatienten mit einer BRAF- Mutation. Patienten, die an einem malignen Melanom erkrankt sind, weisen zu 80% eine Mutation in einem dieser beschriebenen Onkogene auf. Die Arbeit lässt darauf schließen, dass eine ERK5- Inhibition in der Therapie von beiden Gruppen erfolgreich sein könnte und somit das Leben nahezu aller Melanompatienten betrifft., In this thesis, targeting the MEK5/ERK5- pathway is identified as a possible treatment option for maligant melanoma in order to prevent the development of resistances against inhibitors of the MAPK- pathway. The malignant melanoma is a highly aggressive tumor with an increasing incidence. A rising amount of sun exposure due to climate change will lead to increasing skin damage among the population and thus the malignant melanoma may emerge as an important medical problem throughout the following decade. The activation of the MEK5/ERK5 pathway seems to be a cellular response to therapeutic stress. It therefore results in sustained proliferation and survival in melanoma cells and prevents an efficiant therapy in the longterm. ERK5 has influence on the cell cycle progression of melanoma cells and could be of utmost importance for the tumorigenesis in malignant melanoma. Patients suffering from NRAS- mutant melanoma benefit remarkably less from MAPK-pathway targeting regimens than those with BRAF- mutation. In these cases immunotharpy remains as the only valuable treatment option yet barely achieving a short progression free survival with severe side effects. The obstacle of effective therapy could be the frequently found occurrence of a basal ERK5- activity especially observed in NRAS- mutant melanoma cells. Our data imply that MEKi/ERK5i co-treatment could provide a new therapeutic approach as an adjunct to targeted therapy of malignant melanoma improving its overall effectiveness. This discovery does not only apply for NRAS- mutant melanoma but also for patients with BRAF- mutation. In 80% of malignant melanoma the driver mutation can be found in one of these two oncogenes suggesting the majoryty of melanoma patients might benefit from MEK5/ERK5- Inhibition.

Published

2021

19. Short-term treatment with multi-drug regimens combining BRAF/MEK-targeted therapy and immunotherapy results in durable responses in Braf-mutated melanoma

Author

Timothy P. Heffernan, Alexander J. Lazar, Willem W. Overwijk, Zachary A. Cooper, Courtney W. Hudgens, Miles C. Andrews, Joseph R. Marszalek, Alexandre Reuben, Ningping Feng, Jennifer A. Wargo, Hong Jiang, Michael A. Davies, Hussein Abdul-Hassan Tawbi, Jeffrey E. Gershenwald, Peter A. Prieto, Russell G. Witt, Scott E. Woodman, Jianhua Hu, Sarah B. Johnson, Robert Sloane, Pierre Olivier Gaudreau, Mariana Pettaccia De Macedo, Michael G. White, Michael T. Tetzlaff, Caleb A. Class, Patrick Hwu, Christopher A. Bristow, Khalida Wani, Elizabeth M. Burton, Richard E. Davis, Teresa Manzo, and Luigi Nezi

Subjects

Proto-Oncogene Proteins B-raf, Oncology, Drug, Short term treatment, map-kinase, medicine.medical_specialty, medicine.medical_treatment, media_common.quotation_subject, Immunology, Targeted therapy, Memory T Cells, Mice, Internal medicine, melanoma, Animals, Humans, Immunology and Allergy, Medicine, RC254-282, Uncategorized, Advanced melanoma, media_common, Mitogen-Activated Protein Kinase Kinases, business.industry, Melanoma, toxicity, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Immunotherapy, RC581-607, targeted therapy, medicine.disease, humanities, Pharmaceutical Preparations, ox-40, checkpoint blockade, immunotherapy, Immunologic diseases. Allergy, business, Research Article

Abstract

Targeted and immunotherapy regimens have revolutionized the treatment of advanced melanoma patients. Despite this, only a subset of patients respond durably. Recently, combination strategies of BRAF/MEK inhibitors with immune checkpoint inhibitor monotherapy (��-CTLA-4 or ��-PD-1) have increased the rate of durable responses. Based on evidence from our group and others, these therapies appear synergistic, but at the cost of significant toxicity. We know from other treatment paradigms (e.g. hematologic malignancies) that combination strategies with multi-drug regimens (>4 drugs) are associated with more durable disease control. To better understand the mechanism of these improved outcomes, and to identify and prioritize new strategies for testing, we studied several multi-drug regimens combining BRAF/MEK targeted therapy and immunotherapy combinations in a Braf-mutant murine melanoma model (BrafV600E/Pten���/���). Short-term treatment with ��-PD-1 and ��-CTLA-4 monotherapies were relatively ineffective, while treatment with ��-OX40 demonstrated some efficacy [17% of mice with no evidence of disease, (NED), at 60-days]. Outcomes were improved in the combined ��-OX40/��-PD-1 group (42% NED). Short-term treatment with quadruplet therapy of immunotherapy doublets in combination with targeted therapy [dabrafenib and trametinib (DT)] was associated with excellent tumor control, with 100% of mice having NED after combined DT/��-CTLA-4/��-PD-1 or DT/��-OX40/��-PD-1. Notably, tumors from mice in these groups demonstrated a high proportion of effector memory T cells, and immunologic memory was maintained with tumor re-challenge. Together, these data provide important evidence regarding the potential utility of multi-drug therapy in treating advanced melanoma and suggest these models can be used to guide and prioritize combinatorial treatment strategies.

Published

2021

20. Spatial Phosphoprotein Profiling Reveals a Compartmentalized Extracellular Signal-regulated Kinase Switch Governing Neurite Growth and Retraction

Author

Klemke, Richard

Published

2011

21. Decreased IL-10 expression in stefin B-deficient macrophages is regulated by the MAP kinase and STAT-3 signaling pathways.

Author

Maher, Katarina, Završnik, Janja, Jerič-Kokelj, Barbara, Vasiljeva, Olga, Turk, Boris, and Kopitar-Jerala, Nataša

Subjects

*INTERLEUKIN-10, *GENE expression, *MITOGEN-activated protein kinases, *MACROPHAGES, *STAT proteins, *CELLULAR signal transduction, *GENETIC regulation

Abstract

Highlights: [•] Stefin B expression is up-regulated in activated macrophages. [•] Stefin B-deficient BMDMs secrete more NO than WT cells upon IFN-γ and LPS activation. [•] Stefin B-deficient BMDMs express less IL-10 than WT cells upon LPS stimulation. [•] ERK and STAT3 play a role in lowering IL-10 expression in stefin B-deficient BMDMs. [ABSTRACT FROM AUTHOR]

Published

2014

22. 2-Methoxyestradiol binding of GPR30 down-regulates angiotensin AT1 receptor.

Author

Koganti, Sivaramakrishna, Snyder, Russell, Gumaste, Upendra, Karamyan, Vardan T., and Thekkumkara, Thomas

Subjects

*ESTRADIOL, *ANGIOTENSINS, *CELL membranes, *ESTROGEN, *CELL lines, *EPITHELIAL cells, *ENDOPLASMIC reticulum

Abstract

Abstract: Controlling angiotensin AT1 receptor function has been shown to be protective for many pathophysiological disorders. Although estrogen metabolite, 2-methoxyestradiol (2ME2) can down-regulate angiotensin AT1 receptor expression independently of nuclear receptors, no specific cellular targets have been identified. This study was focused on identification and validation of a cellular target responsible for 2ME2-mediated angiotensin AT1 receptor down-regulation in a continuously passaged rat liver epithelial cell line. Cell membranes were isolated and used to determine 2ME2 specific binding. Cell membranes exposed to [3H]2ME2 showed specific saturable binding, which was found to be pertussis toxin (PTx) sensitive. Under similar conditions, G-protein coupled receptor 30 (GPR30) agonist (G1) and antagonist (G15) inhibited 2ME2 specific binding. In these cells GPR30 was found localized to endoplasmic reticulum (ER) membranes. In intact cells, G1 down-regulated angiotensin AT1 receptor expression and this effect was reversed by G15. Furthermore, 2ME2 mediated activation of epidermal growth factor receptor (EGFR) followed by ERK1/2 phosphorylation, an essential signaling step in angiotensin AT1 receptor down-regulation, was abrogated by G15, suggesting that this signal is GPR30 dependent. Additionally, EGF was found to independently down-regulate angiotensin AT1 receptor in an ERK1/2-dependent manner. In summary, our results demonstrate for the first time that 2ME2 down-regulation of angiotensin AT1 receptor is dependent on ER membrane-associated GRP30. Moreover, this effect is facilitated by GPR30 dependent transactivation of EGFR and ERK1/2 phosphorylation. This study provides further understanding of the physiological significance of 2ME2 and its role in modulating angiotensin AT1 receptor expression. [Copyright &y& Elsevier]

Published

2014

23. Interaction of conserved signaling pathways during cellular development in \(\textit {Sordaria macrospora}\)

Author

Schmidt, Sarah

Subjects

Mikroskopie, MAP-Kinase, 570 Biowissenschaften, Biologie, Biochemie, ddc:570, NADPH-Oxidase, Sordaria macrospora, Fluoreszenz

Abstract

Der Fokus dieser Arbeit war die Charakterisierung und Lokalisierung des Pheromon (PR)-Signalweg, einschließlich des Gerüstproteins HAM5 im Hyphenpilz \(\textit {Sordaria macrospora}\). Des Weiteren wurde die physikalische und genetische Interaktion des PR-Signalwegs mit den beiden NADPH-Oxidase (NOX)-Komplexen untersucht. Insgesamt zeigt diese Arbeit, dass der PR-Signalweg, je nach Entwicklungsstadium, auf verschiedene Weise mit den NOX-Komplexen interagieren kann. Das Gerüstprotein HAM5 spielt dabei lediglich eine Rolle für die Interaktionen des PR-Signalwegs mit dem NOX1-Komplex während der Hyphenfusion und der Fruchtkörperentwicklung. Für Interaktionen des PR-Signalwegs mit dem NOX2-Komplex während der Sporenkeimung ist HAM5 jedoch nicht notwendig.

Published

2020

24. Attenuation of Inflammatory Symptoms by Icariside B2 in Carrageenan and LPS-Induced Inflammation Models via Regulation of MAPK/NF-κB Signaling Cascades

Author

Badrul Alam, Sang-Han Lee, Shakina Yesmin Simu, Yoon-Gyung Kwon, and Sk Abrar Shahriyar

Subjects

MAPK/ERK pathway, Lipopolysaccharides, Models, Molecular, MAP Kinase Signaling System, p38 mitogen-activated protein kinases, lcsh:QR1-502, MAP-kinase, Anti-Inflammatory Agents, Molecular Conformation, Inflammation, Pharmacology, Carrageenan, Biochemistry, lcsh:Microbiology, Article, 03 medical and health sciences, Mice, 0302 clinical medicine, anti-inflammatory effects, Glucosides, medicine, Animals, Edema, Phosphorylation, Molecular Biology, 030304 developmental biology, Epimedium, 0303 health sciences, biology, Kinase, Chemistry, Cyclohexanones, Plant Extracts, NF-kappa B, Molecular Docking Simulation, IκBα, Disease Models, Animal, Gene Expression Regulation, 030220 oncology & carcinogenesis, Mitogen-activated protein kinase, icariside B2, NF-κB signaling, biology.protein, medicine.symptom, Signal transduction, Norisoprenoids

Abstract

Prolonged inflammatory responses can lead to the development of several chronic diseases, such as autoimmune disorders and the development of natural therapeutic agents is required. A murine model was used to assess the anti-inflammatory effects of the megastigmane glucoside, icariside B2 (ICSB), and the assessment was carried out in vitro, and in vivo. The in vitro anti-inflammatory effects of ICSB were tested using LPS-stimulated BV2 cells, and the protein expression levels of inflammatory genes and cytokines were assessed. Mice were subcutaneously injected with 1% carrageenan (CA) to induce acute phase inflammation in the paw. Inflammation was assessed by measuring paw volumes hourly, subsequently, the mice were euthanized and the right hind paw skin was expunged and processed for reverse transcription-polymerase chain reaction (RT-PCR) and Western blot analyses. ICSB inhibits LPS-stimulated nitric oxide (NO) and prostaglandin E2 (PGE2) generation by reducing the expression of inducible NO synthase (iNOS) and cyclooxygenase 2 (COX-2). ICSB also inhibits the COX-2 enzyme with an IC50 value of 7.80&plusmn, 0.26 &micro, M. Molecular docking analysis revealed that ICSB had a strong binding affinity with both murine and human COX-2 proteins with binding energies of &minus, 8 kcal/mol and &minus, 7.4 kcal/mol, respectively. ICSB also reduces the manifestation of pro-inflammatory cytokines, such as TNF-&alpha, IL-6, and IL-1&beta, at their transcriptional and translational level. ICSB hinders inhibitory protein &kappa, B&alpha, (I&kappa, ) phosphorylation, thereby terminating the nuclear factor kappa-light-chain-enhancer of activated B cell (NF-&kappa, B) nuclear translocation. ICSB also represses the mitogen-activated protein kinases (MAPKs) signaling pathways. ICSB (50 mg/kg) showed an anti-edema effect in CA-induced mice and suppressed the CA-induced increases in iNOS and COX-2 protein levels. ICSB attenuated inflammatory responses by downregulating NF-&kappa, B expression through interference with extracellular signal-regulated kinase (ERK) and p38 phosphorylation, and by modulating the expression levels of iNOS, COX-2, TNF-&alpha, IL-1&beta, and IL-6.

Published

2020

25. Investigation of the role of ERK dimerization in the ERK1/2-mediated proliferation of tumor cells

Author

Gruse, Tamara

Subjects

ddc:615, MAP-Kinase, Carcinogenese, Dimerisierung

Abstract

Bei vielen Erkrankungen wie z.B. Herzhypertrophie, Diabetes und Entzündungen spielt die Raf-MEK-ERK-Signalkaskade eine wichtige Rolle. ERK1/2 ist in vielen zellulären Prozessen, u.a. Proliferation, Differenzierung, Wachstum, Hypertrophie und Apoptose involviert. Auch in der Tumorentstehung besitzt dieser MAPK-Signalweg eine signifikante Funktion, da er bei ca. 50% aller Krebsarten deutlich aktiviert ist. Ziel dieser Arbeit war es, die Rolle einer neu entdeckten Phosphorylierungsstelle an Threonin188 an ERK2 bei der Entstehung und der möglichen Therapie von Tumoren zu erarbeiten. Dafür wurde ein Myc-ERK2309-357-Peptid verwendet, das 2013 in der Arbeitsgruppe Lorenz entwickelt wurde. Myc-ERK2309-357 zeigte in bisher unveröffentlichten Versuchen, dass es direkt an ERK2 bindet, eine Dimerisierung von ERK1/2 hemmen und eine vermehrte Lokalisation von ERK2 im Zellkern verhindern kann. Im Rahmen dieses Projekts konnten wir belegen, dass mit Hilfe des Myc-ERK2309-357-Peptids die Tumorzellproliferation von verschiedenen Krebszelllinien (Caco-2, SCC68, PC/1-1 und PC/13-1) um 60-80% vermindert werden konnte. Des Weiteren konnten wir zeigen, dass Myc-ERK2309-357 keinen Einfluss auf die Phosphorylierung von ERK1/2 am TEY-Motiv besitzt. Die Aktivierung von ERK1/2 durch die Kinasen MEK1/2 wird somit nicht beeinflusst und die zytosolischen ERK-Funktionen, wie z.B. der anti-apoptotische Effekt, würden somit bestehen bleiben. Außerdem fanden wir heraus, dass Myc-ERK2309-357 im Vergleich zu den MEK-Inhibitoren U0126 und PD98059 und verglichen mit dem EGF-Rezeptor-Antikörper Cetuximab die Proliferation signifikant besser hemmt., The Raf-MEK-ERK signaling cascade plays an important role in many diseases, such as cardiac hypertrophy, diabetes and inflammation. ERK1/2 is involved in many cellular processes, i.a. proliferation, differentiation, growth, hypertrophy and apoptosis. This MAPK signaling pathway also has a significant function in tumorigenesis because it is clearly activated in about 50% of all cancers. The aim of this work was to investigate the role of a newly discovered phosphorylation site on threonine188 in ERK2 in the genesis and possible therapy of tumors. For this, a Myc- ERK2309-357 peptide was used, which was developed in the research group Lorenz in 2013. It has previously been shown that Myc-ERK2309-357 binds directly to ERK2, inhibits ERK1/2 dimerization, and prevents increased localization of ERK2 in the nucleus. In this project we demonstrated that the Myc-ERK2309-357 peptide reduces the tumor cell proliferation of various cancer cell lines (Caco-2, SCC68, PC / 1-1 and PC / 13-1) by 60-80%. Furthermore, we could show that Myc-ERK2309-357 has no influence on the phosphorylation of ERK1/2 on the TEY motif. The activation of ERK1/2 by the kinases MEK1/2 is thus unaffected and the cytosolic ERK functions, e.g. the anti-apoptotic effect, would thus persist. In addition, we discovered that Myc-ERK2309-357 inhibits proliferation of the tumor cells significantly better compared to the MEK inhibitors U0126 and PD98059 and compared to the EGFR antibody Cetuximab.

Published

2020

26. μ-opioid and 5-HT1A receptors heterodimerize and show signalling crosstalk via G protein and MAP-kinase pathways

Author

Cussac, Didier, Rauly-Lestienne, Isabelle, Heusler, Peter, Finana, Frédéric, Cathala, Claudie, Bernois, Sophie, and De Vries, Luc

Subjects

*CELLULAR signal transduction, *OPIOIDS, *SEROTONIN, *G protein coupled receptors, *MITOGEN-activated protein kinases, *TACHYKININS, *PAIN management

Abstract

Abstract: μ-opioid receptors have been shown to form heterodimers with several G protein coupled receptors involved in pain regulation such as α2A-adrenergic and neurokinin 1 receptors. Because the 5‐HT1A receptor is also involved in pain control, we investigated whether it can interact with the μ-opioid receptor in cell lines. Using epitope-tagged μ-opioid and 5‐HT1A receptors, we show that both receptors can co-immunoprecipate when expressed in the same cells. This physical interaction was corroborated by a Bioluminescence Resonance Energy Transfer signal between the μ-opioid receptor fused to Renilla luciferase and the 5‐HT1A receptor fused to the Green Fluorescent Protein. Consistent with the presence of functional heterodimers, the μ-opioid receptor activated a Gαo protein covalently fused to the 5-HT1A receptor in membrane preparations as well as a Gα15 protein fused to the 5-HT1A receptor in living cells. We demonstrate that both receptors can coexerce control of the ERK1/2 pathway: for example, μ-opioid receptor-induced ERK1/2 phosphorylation was selectively desensitized by 5-HT1A receptor activation. Although 5-HT1A and μ-opioid receptors were capable to internalize in response to their own activation, they were ineffective to induce the co-internalization of their partners. Thus, we show a functional heterodimerization of μ-opioid and 5-HT1A receptors in cell lines, a complex that might play a role in the control of pain in vivo. These results also support the potential therapeutic action of 5-HT1A agonists against nociceptive processes. [Copyright &y& Elsevier]

Published

2012

27. Alpha-Lipoic Acid Modulates GFAP, Vimentin, Nestin, Cyclin D1 and MAP-Kinase Espression in Astroglial Cell Cultures.

Author

Bramanti, V., Tomassoni, D., Bronzi, D., Grasso, S., Currò, M., Avitabile, M., Li Volsi, G., Renis, M., Ientile, R., Amenta, F., and Avola, R.

Subjects

*LIPOIC acid, *CYCLIN-dependent kinases, *MITOGEN-activated protein kinases, *ASTROCYTES, *CELL culture, *GENE expression, *CELL proliferation, *CELL differentiation

Abstract

In the present study, we evaluated the expression of some proliferation and differentiation markers in 15 DIV astrocyte cultures pretreated or not with 0.5 mM glutamate for 24 h and than maintained under chronic or acute treatment with 50 μM R(+)enantiomer or raceme alpha-lipoic acid (ALA). GFAP expression significantly increased after (R+)enantiomer acute-treatment and also in glutamate-pretreated ones. Vimentin expression increased after R(+)enantiomer acute-treatment, but it decreased after raceme acute-treatment. Nestin expression drastically increased after acute raceme-treatment in glutamate-pretreated or not cultures, but significantly decreased after (R+)enantiomer acute and chronic-treatments. Cyclin D1 expression increased in raceme acute-treated cultures pretreated with glutamate. MAP-kinase expression slightly increased after (R+)enantiomer acute treatment in glutamate-pretreated or unpretreated ones. These preliminary findings may better clarify antioxidant and metabolic role played by ALA in proliferating and differentiating astrocyte cultures suggesting an interactive cross-talk between glial and neuronal cells, after brain lesions or damages. [ABSTRACT FROM AUTHOR]

Published

2010

28. LRRK2 in Parkinson’s disease: function in cells and neurodegeneration.

Author

Webber, Philip J. and West, Andrew B.

Subjects

*LEUCINE, *PARKINSON'S disease, *PROTEIN kinases, *CELL death, *GENOTYPE-environment interaction

Abstract

The detailed characterization of the function of leucine-rich repeat kinase 2 (LRRK2) may provide insight into the molecular basis of neurodegeneration in Parkinson’s disease (PD) because mutations in LRRK2 cause a phenotype with strong overlap to typical late-onset disease and LRRK2 mutations are responsible for significant proportions of PD in some populations. The complexity of large multidomain protein kinases such as LRRK2 challenges traditional functional approaches, although initial studies have successfully defined the basic mechanisms of enzyme activity with respect to the putative effects of pathogenic mutations on kinase activity. The role of LRRK2 in cells remains elusive, with potential function in mitogen-activated protein kinase pathways, protein translation control, programmed cell death pathways and activity in cytoskeleton dynamics. The initial focus on LRRK2-kinase-dependent phenomena places emphasis on the discovery of LRRK2 kinase substrates, although candidate substrates are so far confined to in vitro assays. Here, hypothetical mechanisms for LRRK2-mediated cell death and kinase activation are proposed. As a promising target for neuroprotection strategies in PD, in vitro and in vivo models that accurately demonstrate LRRK2’s function relevant to neurodegeneration will aide in the identification of molecules with the highest chance of success in the clinic. [ABSTRACT FROM AUTHOR]

Published

2009

29. Triple-negative breast cancers express receptors for growth hormone-releasing hormone (GHRH) and respond to GHRH antagonists with growth inhibition.

Author

Köster, Frank, Engel, Jörg, Schally, Andrew, Hönig, Arnd, Schröer, Andreas, Seitz, Stephan, Hohla, Florian, Ortmann, Olaf, Diedrich, Klaus, and Buchholz, Stefan

Abstract

Triple-negative breast cancers do not express receptors for estrogen or progesterone and do not overexpress HER2. These tumors have an unfavorable prognosis and at present chemotherapy is the only treatment option. Because the antagonists of growth hormone-releasing hormone (GHRH) have been shown to inhibit growth of a variety of cancers by endocrine and paracrine/autocrine mechanisms, we evaluated the expression of GHRH receptors in human specimens of triple-negative breast cancers and the response to GHRH by in vitro models. In samples of triple-negative breast cancers we found mRNA expression for the GHRH receptor and its functional splice variant SV1 in 25 and 70% of the cases, respectively and for GHRH in 80% of the samples. Immunoreaction of SV1 was detected in the human triple-negative breast cancer cell line HCC1806 while HCC1937 was negative. The growth of HCC1806 was stimulated by GHRH(1-44)NH2 and inhibited by GHRH antagonist MZ-J-7-118. In addition, in HCC1806 MAP-kinases ERK-1/2 were activated by GHRH. Our findings suggest the existence of an autocrine loop consisting of GHRH and GHRH receptors in triple-negative breast cancers. Our in vitro studies demonstrate that targeting the GHRH receptor may be a therapeutic option which should be evaluated in studies in vivo. [ABSTRACT FROM AUTHOR]

Published

2009

30. Region-specific changes in 5-HT1A agonist-induced Extracellular signal-Regulated Kinases 1/2 phosphorylation in rat brain: A quantitative ELISA study

Author

Buritova, Jaroslava, Berrichon, Geraldine, Cathala, Claudie, Colpaert, Francis, and Cussac, Didier

Subjects

*SEROTONIN agonists, *PHOSPHORYLATION, *LABORATORY rats, *NEUROTRANSMITTER receptors, *AFFECTIVE disorders, *MENTAL health services, *ENZYME-linked immunosorbent assay, *BUSPIRONE

Abstract

Abstract: Brain serotonin 5-HT1A receptor, a traditional target for the treatment of mood disorders, modulates intracellular signalling pathways, such as the Extracellular signal-Regulated Kinases 1/2 (ERK1/2) pathway. The present studies are the first to determine levels of phospho-ERK1/2 (pERK1/2) in brain using a quantitative Enzyme Linked-Immuno-Sorbent Assay. We examined pERK1/2 levels in rat brain following administration of (+)8-OH-DPAT, buspirone as well as of the more selective, high-efficacy 5-HT1A agonists F13640 and F13714. Intraperitoneal injection of these compounds increased pERK1/2 in prefrontal cortex and hypothalamus, with a maximum at 5–15min and a significant effect lasting until 30–60min post-injection. However, these compounds reduced hippocampal pERK1/2 with a maximum effect at 30min, persisting until 60min post-injection. In hippocampus, F13640, F13714 and buspirone inhibited pERK1/2 in a dose-dependent manner as of 0.04, 0.04 and 2.5mg/kg, respectively. Given these low doses, this response is likely related to activation of sensitive presynaptic 5-HT1A receptors in the raphe nucleus. 4- and 16-fold higher doses of these compounds were necessary to stimulate pERK1/2 in prefrontal cortex and hypothalamus, respectively, via direct 5-HT1A receptor activation. In contrast, (+)8-OH-DPAT was active at similar doses (0.63mg/kg) in these different regions. Pretreatment with the 5-HT1A antagonist, WAY100635, completely blocked the effects of these compounds, with the exception of buspirone-induced pERK1/2 increases in hypothalamus. Thus, 5-HT1A agonist-induced changes in pERK1/2 in rat brain are time- and dose-dependent and region-specific. Furthermore, F13640, F13714, buspirone, but not (+)8-OH-DPAT, exert their effects via preferential activation of presynaptic 5-HT1A receptors. [Copyright &y& Elsevier]

Published

2009

31. Activation of G proteins and extracellular signal-regulated kinase 1/2 phosphorylation via human dopamine D4.4 receptors: differential pathway-dependent potencies of receptor agonists.

Author

Heusler, Peter, Bruins Slot, Liesbeth, Rauly-Lestienne, Isabelle, Palmier, Christiane, Tardif, Stéphanie, Tourette, Amélie, Ailhaud, Marie-Christine, and Cussac, Didier

Abstract

Agonist activity at recombinant human dopamine D4.4 receptors was compared in stably transfected CHO cells using two functional readouts: G protein activation by [35S]GTPγS binding and phosphorylation of extracellular signal-regulated kinase 1/2 (pERK1/2). Results with a large series of agonists reveal markedly higher relative agonist efficacy in the pERK1/2 assay compared with [35S]GTPγS binding, while potencies were generally higher in the latter readout. Whereas efficacies were highly correlated when comparing both tests, potencies determined using the pERK1/2 assay were neither correlated with those for G protein activation nor with binding affinities. In order to examine if these differences may be attributable to distinct assay conditions (5 min incubation for pERK1/2 compared with binding equilibrium conditions for [35S]GTPγS), selected compounds were tested in a modified short-duration [35S]GTPγS binding assay. In these experiments, potencies were generally reduced; however, compounds exhibiting comparably high potency in the pERK1/2 assay were not affected by this duration-dependent potency shift. We conclude that assay parameters such as signal amplification and incubation time have to be considered with respect to the appropriate choice of experimental approaches that best reflect agonist activity at dopamine D4 receptors in vivo. [ABSTRACT FROM AUTHOR]

Published

2009

32. IGF-I regulates tight-junction protein claudin-1 during differentiation of osteoblast-like MC3T3-E1 cells via a MAP-kinase pathway.

Author

Hatakeyama, Naoko, Kojima, Takashi, Iba, Kousuke, Murata, Masaki, Thi, Mia M., Spray, David, Osanai, Makoto, Chiba, Hideki, Ishiai, Sumio, Yamashita, Toshihiko, and Sawada, Norimasa

Subjects

*SOMATOMEDIN, *TIGHT junctions, *PROTEINS, *MITOGEN-activated protein kinases, *CONNEXINS

Abstract

Insulin-like growth factor I (IGF-I) is expressed in many tissues, including bone, and acts on the proliferation and differentiation of osteoblasts as an autocrine/paracrine regulator. Tight-junction proteins have been detected in osteoblasts, and direct cell-to-cell interactions may modulate osteoblast function with respect, for example, to gap junctions. In order to investigate the regulation of expression of tight-junction molecules and of function during bone differentiation, osteoblast-like MC3T3-E1 cells and osteocyte-like MLO-Y4 cells were treated with IGF-I. In both MC3T3-E1 cells and MLO-Y4 cells, the tight-junction molecules occludin, claudin-1, -2, and -6, and the gap-junction molecule connexin 43 (Cx43) were detected by reverse transcription with polymerase chain reaction. In MC3T3-E1 cells but not MLO-Y4 cells, mRNAs of claudin-1, -2, and -6, Cx43, and type I collagen, and proteins of claudin-1 and Cx43 were increased after treatment with IGF-I. Such treatment significantly decreased paracellular permeability in MC3T3-E1 cells. The expression of claudin-1 in MC3T3-E1 cells after IGF-I treatment was mainly upregulated via a mitogen-activated protein (MAP)-kinase pathway and, in part, modulated by a PI3-kinase pathway, whereas Cx43 expression and the mediated gap-junctional intercellular communication protein did not contribute to the upregulation. Furthermore, in MC3T3-E1 cells during wound healing, upregulation of claudin-1 was observed together with an increase of IGF-I and type I collagen. These findings suggest that the induction of tight-junction protein claudin-1 and paracellular permeability during the differentiation of osteoblast-like MC3T3-E1 cells after treatment with IGF-I is regulated via a MAP-kinase pathway, but not with respect to gap junctions. [ABSTRACT FROM AUTHOR]

Published

2008

33. Requirement of 3-Phosphoinositide-Dependent Protein Kinase-1 for BDNF-Mediated Neuronal Survival.

Author

Kharebava, Giorgi, Makonchuk, Denys, Kalita, Katarzyna B., Jing-Juan Zheng, and Hetman, Michal

Subjects

*PHOSPHOINOSITIDES, *PROTEIN kinases, *NUCLEIC acids, *APOPTOSIS, *NEUROSCIENCES

Abstract

Although PDK1 regulates several signaling pathways that respond to neurotrophins, direct evidence for its involvement in neurotrophinmediated survival has not yet been reported. Here we show high neuronal expression of active PDK1 in the rat cortex and hippocampus at the developmental stages with pronounced dependence on extracellular survival signals. Also, in cultured cortical neurons from newborn rats, BDNF resulted in PDK1- and extracellular signal-regulated kinase-1/2 (ERK1/2)-mediated activation of their direct target, the p90 ribosomal S6 kinase 1/2 (RSK1/2). In trophic-deprived cortical neurons, knockdown of endogenous PDK1 attenuated the antiapoptotic survival response to 10 ng/ml BDNF, whereas an overexpressed active mutant form of PDK1 reduced apoptosis. The neuroprotection by BDNF or active PDK1 required RSK1/2. Conversely, PDK1 knockdown reversed the survival effects of combining the overexpressedRSK1with a low, subprotectiveBDNFconcentration of 2 ng/ml. Likewise, the protection by the overexpressed, activePDK1 was enhanced by coexpression of an active RSK1 mutant. Consistent with the observations that in BDNF-stimulated neurons RSK1/2 activation required both PDK1 and ERK1/2, ERK1/2 knockdown removed BDNF-mediated survival. Selective activation of ERK1/2 with an overexpressed active mutant form of MKK1 resulted in RSK1/2- and PDK1-dependent neuroprotection. Finally, at subprotective plasmid DNA dosage, overexpression of the active MKK1 and PDK1 mutants produced synergistic effect on survival. Our findings indicate a critical role for PDK1-RSK1/2 signaling in BDNF-mediated neuronal survival. Thus, the PDK1 is indispensable for the antiapoptotic effects of the ERK1/2 pathway offering previously unrecognized layer of survival signal processing and integration. [ABSTRACT FROM AUTHOR]

Published

2008

34. A novel indole ethyl isothiocyanate (7Me-IEITC) with anti-proliferative and pro-apoptotic effects on platinum-resistant human ovarian cancer cells

Author

Singh, Rakesh K., Lange, Thilo S., Kim, Kyu Kwang, Shaw, Sunil K., and Brard, Laurent

Subjects

*CELLS, *OVUM, *PHYSIOLOGY, *ORGANISMS

Abstract

Abstract: Objective: A novel indole ethyl isothiocyanate derivative (7Me-IEITC) was defined as a potent growth-suppressing agent to cell lines derived from ovarian cancers. Key mechanisms of the cellular response in vitro were studied and suggest a potential of 7Me-IEITC as a therapeutic drug. Methods: The viability of ovarian cancer cell lines (SKOV-3, OVCAR-3) in comparison to pancreatic and prostate cancer cell lines, primary fibroblast and immortalized trophoblasts after treatment with 7Me-IEITC was analyzed. Morphological and apoptotic responses of SKOV-3 were studied by fluorescence microscopy (DAPI staining, TUNEL assay). SKOV-3 proliferation was estimated by a standardized BrdU incorporation assay. The phosphorylation of MAP-Kinases, pro-survival factors and the activation of caspases and PARP-1 were analyzed by western blotting. Changes of the mitochondrial transmembrane-potential and in cell-cycle progression were studied by FACS analysis. MAP-Kinase and caspase inhibitors were employed in cytotoxicity studies. Results: 7Me-IEITC selectively reduced the viability of SKOV-3, OVCAR-3, BXPC-3 and PC-3 cells (IC50 values≤5 μM), while the viability of fibroblasts or trophoblasts remained un-affected at concentrations below 20 μM. 7Me-IEITC treatment down-regulated pro-survival kinases and transcription factors (STAT-3, IKKα and NF-κB), caused rapid loss of the mitochondrial transmembrane-potential and inactivation of PARP-1 along with activation of caspases. The use of p38 MAP-Kinase-and caspase inhibitors suppressed the cytotoxicity of the drug. 7Me-IEITC acted as an anti-proliferative agent and arrested the cell-cycle progression of SKOV-3 in G2/M phase. Conclusion: 7Me-IEITC is a potent and growth-suppressing agent to cell lines derived from ovarian cancers by causing deactivation of survival signals, apoptosis, and cell-cycle arrest. [Copyright &y& Elsevier]

Published

2008

35. Differential subcellular membrane recruitment of Src may specify its downstream signalling

Author

de Diesbach, Philippe, Medts, Thierry, Carpentier, Sarah, D'Auria, Ludovic, Van Der Smissen, Patrick, Platek, Anna, Mettlen, Marcel, Caplanusi, Adrian, van den Hove, Marie-France, Tyteca, Donatienne, and Courtoy, Pierre J.

Subjects

*CELL membranes, *VIBRIO infections, *IMMUNOFLUORESCENCE, *ISOPENTENOIDS

Abstract

Abstract: Most Src family members are diacylated and constitutively associate with membrane “lipid rafts” that coordinate signalling. Whether the monoacylated Src, frequently hyperactive in carcinomas, also localizes at “rafts” remains controversial. Using polarized MDCK cells expressing the thermosensitive v-Src/tsLA31 variant, we here addressed how Src tyrosine-kinase activation may impact on its (i) membrane recruitment, in particular to “lipid rafts”; (ii) subcellular localization; and (iii) signalling. The kinetics of Src-kinase thermoactivation correlated with its recruitment from the cytosol to sedimentable membranes where Src largely resisted solubilisation by non-ionic detergents at 4 °C and floated into sucrose density gradients like caveolin-1 and flotillin-2, i.e. “lipid rafts”. By immunofluorescence, activated Src showed a dual localization, at apical endosomes/macropinosomes and at the apical plasma membrane. The plasma membrane Src pool did not colocalize with caveolin-1 and flotillin-2, but extensively overlapped GM1 labelling by cholera toxin. Severe (∼70%) cholesterol extraction with methyl-β-cyclodextrin (MβCD) did not abolish “rafts” floatation, but strongly decreased Src association with floating “rafts” and abolished its localization at the apical plasma membrane. Src activation independently activated first the MAP-kinase - ERK1/2 pathway, then the PI3-kinase - Akt pathway. MAP-kinase - ERK1/2 activation was insensitive to MβCD, which suppressed Akt phosphorylation and apical endocytosis induced by Src, both depending on the PI3-kinase pathway. We therefore suggest that activated Src is recruited at two membrane compartments, allowing differential signalling, first via ERK1/2 at “non-raft” domains on endosomes, then via PI3-kinase-Akt on a distinct set of “rafts” at the apical plasma membrane. Whether this model is applicable to c-Src remains to be examined. [Copyright &y& Elsevier]

Published

2008

36. D2/D3 receptor agonist ropinirole protects dopaminergic cell line against rotenone-induced apoptosis through inhibition of caspase- and JNK-dependent pathways

Author

Chen, Sheng, Zhang, Xiaojie, Yang, Dehua, Du, Yunlan, Li, Liang, Li, Xuping, Ming, Ming, and Le, Weidong

Subjects

*ROPINIROLE, *APOPTOSIS, *ROTENONE, *PHOSPHORYLATION

Abstract

Abstract: Ropinirole, a D2/D3 receptor agonist has been reported to have neuroprotective effects. We showed that ropinirole can prevent rotenone-induced apoptosis in dopaminergic cell line SH-SY5Y through D3 receptor. We found that ropinirole can block the rotenone-induced phosphorylation of JNK, P38 and p-c-Jun, but promote the phosphorylation of ERK1/2. Furthermore, we demonstrated that ropinirole can reduce the rotenone-induced cleavages of caspase 9, caspase 3 and PARP and elevate the expression of anti-apoptotic proteins of p-Akt and bcl-2. These results provide a basis for neuroprotection by this drug for the treatment of Parkinson disease. [Copyright &y& Elsevier]

Published

2008

37. cAMP-induced expression of ABCA1 is associated with MAP-kinase-pathway activation

Author

Witzlack, Thomas, Wenzeck, Tina, Thiery, Joachim, and Orth, Matthias

Subjects

*ATP-binding cassette transporters, *CYCLIC adenylic acid, *MACROPHAGE activation, *PROTEIN kinases

Abstract

Abstract: Several lines of evidence suggest that the ATP binding cassette A1 (ABCA1) is also involved in other degenerative processes such as brain neurodegeneration. Cholesterol and cAMP activate ABCA1 in a cell-specific manner. We employed a cell culture model of murine monocytes (P388) and neuroblastoma cells (N2A) and studied the differential induction of the ABCA1-gene product by modifying the cholesterol acceptor and by inhibition of the MAP-kinase pathway. Our study reveals a rise of ABCA1-expression in both N2A and P388 by cAMP. This increase is accompanied by a higher activation of the MAP-kinase-pathway. The inhibition of the MAP-kinase activation disrupts the stimulating effect of cAMP but increases the base line expression of ABCA1. Our data suggest a negative feedback between the MAP-kinase-system and ABCA1. We conclude that the interaction of the MAP-kinase pathway and the ABCA1 system might affect the function of neuronal and microglial cells in the brain. [Copyright &y& Elsevier]

Published

2007

38. Paracrine up-regulation of monocyte cyclooxygenase-2 by platelets: Role of transforming growth factor-β1

Author

Eligini, Sonia, Barbieri, Silvia S., Arenaz, Izaskun, Tremoli, Elena, and Colli, Susanna

Subjects

*PARACRINE mechanisms, *TRANSFORMING growth factors, *MONOCYTES, *BLOOD donors

Abstract

Abstract: Objective: To examine the role of platelets and platelet-derived products on cyclooxygenase-2 (Cox-2) induction in adherent monocytes and to address the signaling pathways involved. Methods: Platelets and monocytes were obtained from peripheral blood of healthy donors. Adherent monocytes were co-cultured with autologous platelets or platelet releasates or exposed to mediators contained in platelet α-granules (either from platelet source or recombinant) for 4–24 h. Cox-2 protein and mRNA were determined by Western and RT-PCR analysis, respectively. Thromboxane B2 (TxB2) and prostaglandin E2 (PGE2) synthesis as index of Cox-2 activity, and levels of transforming growth factor-β1 (TGF-β1) in platelet releasates were measured by enzyme immunoassay (EIA). Results: Activated platelets induce rapid and transient Cox-2 de novo synthesis in adherent monocytes. The effect is dependent upon the platelet number but not upon cell–cell contact. Platelet-induced Cox-2 was not affected by prevention of platelet TxA2 synthesis or microparticle formation but was blunted by inhibition of platelet α-granule secretion. TGF-β1, either platelet-derived or recombinant (rTGF-β1), induced Cox-2 expression and activity in adherent monocytes at concentrations within the range of those detected in releasates from activated platelets; this effect was not shared by recombinant platelet-derived growth factor (rPDGFBB). The time course of Cox-2 induction by TGF-β1 in monocytes was identical to that observed with platelet releasates. Moreover, TGF-β1 receptor blockade completely abolished platelet-induced Cox-2 expression. p38 MAPK activation represents a common transduction pathway through which activated platelets and rTGF-β1 induce Cox-2 in monocytes. Conclusion: These findings suggest that TGF-β1 released by activated platelets has a pivotal role in Cox-2 induction in monocytes and further supports the key role of platelets in the inflammatory and reparative responses. [Copyright &y& Elsevier]

Published

2007

39. Comparison of the signaling mechanisms by which VEGF, H2O2, and phosphatase inhibitors activate endothelial cell ERK1/2 MAP-kinase

Author

Tao, Qi, Spring, Simone C., and Terman, Bruce I.

Subjects

*NEOVASCULARIZATION, *AMINO acids, *TYROSINE, *CELLS

Abstract

Abstract: VEGF-induced ERK1/2 activation is mediated by a signaling mechanism involving the sequential activation of PLCγ-PKC-Raf1-MEK-ERK1/2. This signaling pathway is necessary, but not sufficient for ERK1/2 activation, as VEGF-induced generation of reactive oxygen species (ROS) is also required. The molecular interaction by which VEGF-induced ROS generation is coordinated with the PLCγ plus PKC-dependent pathway is not certain, and the goal of this study was to clarify this issue. Prior investigations examining ROS-induced signaling have focused on the cellular protein tyrosine phosphatases (PTPs), and we asked whether a PTP participates in ERK1/2 activation in endothelial cells. We show that both the general PTP inhibitor vanadate, and a dominant negative inhibitor of SHP-1, mimics the effects of VEGF in activating ERK1/2. The phosphatase inhibitors induce ERK1/2 activation in endothelial cells lacking VEGF receptors, indicating that the inhibitors target a downstream effector. As is the case after VEGF treatment, the phosphatase inhibitors do lead to the activation of PLCγ, and a pharmacological inhibitor of the Src kinases blocks this. These results lead to the conclusion that inhibition of a protein tyrosine phosphatase activates endothelial cell ERK1/2 by a signaling mechanism involving the sequential activation of Src-PLCγ-PKC-Raf1-MEK-ERK1/2. VEGF treatment most likely activates this pathway by inhibiting SHP-1 through a ROS-dependent mechanism. [Copyright &y& Elsevier]

Published

2005

40. Insulin resistance in human adipocytes occurs downstream of IRS1 after surgical cell isolation but at the level of phosphorylation of IRS1 in type 2 diabetes.

Author

Danielsson, Anna, Öst, Anita, Lystedt, Erika, Kjolhede, Preben, Gustavsson, Johanna, Nystrom, Fredrik H., and Strålfors, Peter

Subjects

*FAT cells, *INSULIN resistance, *TYPE 2 diabetes, *PROTEIN kinases, *DIABETES complications, *INSULIN, *CYTOLOGY

Abstract

Insulin resistance is a cardinal feature of type 2 diabetes and also a consequence of trauma such as surgery. Directly after surgery and cell isolation, adipocytes were insulin resistant, but this was reversed after overnight incubation in 10% CO2 at 37 °C. Tyrosine phosphorylation of the insulin receptor and insulin receptor substrate (IRS)1 was insulin sensitive, but protein kinase B (PKB) and downstream metabolic effects exhibited insulin resistance that was reversed by overnight incubation. MAP-kinases ERK1/2 and p38 were strongly phosphorylated after surgery, but was dephosphorylated during reversal of insulin resistance. Phosphorylation of MAP-kinase was not caused by collagenase treatment during cell isolation and was present also in tissue pieces that were not subjected to cell isolation procedures. The insulin resistance directly after surgery and cell isolation was different from insulin resistance of type 2 diabetes; adipocytes from patients with type 2 diabetes remained insulin resistant after overnight incubation. IRS1, PKB, and downstream metabolic effects, but not insulin-stimulated tyrosine phosphorylation of insulin receptor, exhibited insulin resistance. These findings suggest a new approach in the study of surgery-induced insulin resistance and indicate that human adipocytes should recover after surgical procedures for analysis of insulin signalling. Moreover, we pinpoint the signalling dysregulation in type 2 diabetes to be the insulin-stimulated phosphorylation of IRS1 in human adipocytes. [ABSTRACT FROM AUTHOR]

Published

2005

41. Chronic regulation of the expression of gap junction proteins connexin40, connexin43, and connexin45 in neonatal rat cardiomyocytes

Author

Salameh, Aida, Schneider, Polin, Mühlberg, Katja, Hagendorff, Andreas, Dhein, Stefan, and Pfeiffer, Dietrich

Subjects

*MYOCARDIUM, *HEART, *PROTEIN kinases, *PHOSPHOTRANSFERASES

Abstract

Gap junction channels form the basis of intercellular communication in the heart. In the working myocardium, the connexin43 (Cx43) is most abundantly found, whereas connexin40 (Cx40) is expressed in the atria and in the conduction system [together with low levels of connexin45 (Cx45)]. However, little is known about the differential regulation of the connexins by pathophysiologically stimuli such as tumor necrosis factor α (TNFα). Inasmuch as TNFα may play a contributory role in the concert of factors involved in the pathophysiology of heart failure and because this cardiac disease often leads to ventricular reentrant arrhythmia, the goal of our study was to find out whether TNFα may influence the expression of the cardiac connexins connexin43, connexin40, and connexin45.Neonatal rat cardiomyocytes were exposed to TNFα (10, 40, 100, 400, and 1000 pg/ml) for 24 h with or without additional treatment with the mitogenic-activated protein kinase (MAP-kinase) inhibitors SB203580 [4-(4-fluorophenyl)-2-(4-methyl-sulfinylphenyl)-5-(4-pyridyl)-1H-imidazole; 10−5 M, protein38 mitogenic-activated protein kinase (p38 MAP kinase) inhibitor] or the MEK1 (mitogenic-activated protein kinase/extracellular signal-regulated kinase kinase) inhibitor PD98059 [2-(2-amino-3-methoxyphenyl)-4H-1-benzopyran-4-one; 10−5 M]. Connexin43, connexin40, and connexin45 expressions were analysed using Western blot analysis, immunohistology, and polymerase chain reaction (PCR) studies (connexin43 and connexin40). TNFα induced a concentration-dependent increase in connexin43 (by 2.9±0.6, P<0.05, n=5) but not in connexin40 or connexin45 expressions. Both connexins (40 and 45) showed a very low expression near the detection limit. The increases in connexin43 expression could be completely suppressed by SB203580 (0.9±0.4, P<0.05, n=5) but not by PD98059. In absence of a stimulating drug, these inhibitors (SB203580 or PD98059) did not affect connexin43 content. Additional PCR experiments revealed increases in connexin43 mRNA under the influence of 100 pg/ml TNFα (211±38%, P<0.05, n=5), which could be completely suppressed by SB203580. In contrast, the connexin40 expression remained unchanged. From these results, we conclude that TNFα can differentially regulate cardiac connexin expression via p38 MAP kinase pathway and thus may alter intercellular communication. This may contribute to the changes observed in heart failure with regard to the formation of an arrhythmogenic substrate. [Copyright &y& Elsevier]

Published

2004

42. Novel Phosphospecific Antibodies for Monitoring Phosphorylation of Proteins Encoded by the Myosin Light Chain Kinase Genetic Locus.

Author

Khapchaev, A. Yu., Krymsky, M. A., Sidorova, M. V., Bespalova, Zh. D., Wang, C.-L. A., Shirinsky, V. P., and Vorotnikov, A. V.

Subjects

*MYOSIN, *MUSCLE proteins, *IMMUNOGLOBULINS, *GLOBULINS, *PROTEINS, *ORGANIC compounds

Abstract

Myosin light chain kinase (MLCK) and the kinase-related protein (KRP), also known as telokin, are the major independent protein products of the smooth muscle/non-muscle MLCK genetic locus. They share a common C-terminal part and major sites phosphorylated in vivo. Whereas MLCK is critically involved in myosin activation and contraction initiation in smooth muscle, KRP is thought to antagonize MLCK and to exert relaxation activity. Phosphorylation controls the MLCK and KRP activities. We generated two phosphorylation and site-specific antibodies to individually monitor levels of MLCK and KRP phosphorylation on critical sites. We quantified the level of KRP phosphorylation in smooth muscle before and after an increase in intracellular free Ca2+ and stimulation of adenylate cyclase, protein kinase C, and mitogen-activated protein kinases (MAP-kinases). Forskolin and phorbol-12,13-dibutyrate increased KRP phosphorylation at Ser13 from 25 to 100% but did not produce contraction in rat ileum. The level of Ser13 phosphorylation was not altered during Ca2+-dependent contraction evoked by KCl depolarization or carbachol, but subsequently increased to maximum during forskolininduced relaxation. These data suggest that several intracellular signaling pathways control phosphorylation of KRP on Ser13 in smooth muscle and thus may contribute to relaxation. In contrast, phosphorylation level of Ser19 of KRP increased only slightly (from 30 to 40-45%) and only in response to MAP-kinase activation, arguing against its regulatory function in smooth muscle. [ABSTRACT FROM AUTHOR]

Published

2004

43. Role of extracellular signal regulated kinases 1 and 2 in neuronal survival.

Author

Hetman, Michai and Gozdz, Aciata

Subjects

*CELLS, *NERVOUS system, *ORGANS (Anatomy), *RHEOLOGY, *CELL death, *PHYSIOLOGY

Abstract

Extracellular signal regulated kinases 1 and 2 (ERK1/2) regulate cellular responses to a variety of extracellular stimuli. In the nervous system, ERK1/2 is critical for neuronal differentiation, plasticity and may also modulate neuronal survival. In this minireview, we present evidence that supports prosurvival activity of ERK1/2 in neurons. Several reports suggest that ERK1/2 mediates neuroprotective activity of extracellular factors, including neurotrophins. In addition, ERK1/2 is activated by neuronal injury. In damaged cells, ERK1/2 activation may act as a defensive mechanism that helps to compensate for the deleterious effects of a damaging insult. The emerging mechanisms of ERK1/2-mediated neuroprotection may involve transcriptional regulation and/or direct inhibition of cell death machinery. [ABSTRACT FROM AUTHOR]

Published

2004

44. Shared pathways of osteoblast mitogenesis induced by amylin, adrenomedullin, and IGF-1

Author

Cornish, Jillian, Grey, Andrew, Callon, Karen E., Naot, Dorit, Hill, Bernadine L., Lin, Cindy Q.X., Balchin, Leanne M., and Reid, Ian R.

Subjects

*PEPTIDE hormones, *ADRENOMEDULLIN, *CELLS, *CELL division

Abstract

Amylin and adrenomedullin, members of the calcitonin peptide family, are anabolic to bone. Here, we report overlapping molecular mechanisms by which amylin, adrenomedullin, and IGF-1 induce osteoblast proliferation. Co-treatment of osteoblastic cells with amylin or adrenomedullin and IGF-1 failed to induce an additive mitogenic effect. In osteoblastic cells, neutralization of the IGF-1 receptor blocked the proliferative effects of amylin and adrenomedullin, while neutralization of IGF-1 did not. Neither amylin- nor adrenomedullin-induced mitogenic signaling or cell proliferation in IGF-1 receptor-null fibroblasts. In addition, amylin and adrenomedullin receptor blockers inhibited the proliferative effects of IGF-1 in osteoblastic cells. These findings demonstrate overlap in the molecular mechanisms by which amylin, adrenomedullin, and IGF-1 induce mitogenesis in osteoblasts, and an important role for the IGF-1 receptor in the mitogenic actions of amylin and adrenomedullin. Our findings are potentially important in refining these peptides for the therapy of osteoporosis. [Copyright &y& Elsevier]

Published

2004

45. Ammonia toxicity to the brain and creatine

Author

Bachmann, Claude, Braissant, Olivier, Villard, Anne-Marie, Boulat, Olivier, and Henry, Hugues

Subjects

*AMMONIA, *NITROUS oxide, *ARGININE, *CREATINE

Abstract

Symptoms of hyperammonemia are age-dependent and some are reversible. Multiple mechanisms are involved. Hyperammonemia increases the uptake of tryptophan into the brain by activation of the L-system carrier while brain glutamine plays a still undefined role. The uptake of tryptophan by the brain is enhanced when the plasma levels of branched-chain amino acids competing with the other large neutral amino acids are low. Hyperammonemia increases the utilization of branched-chain amino acids in muscle when ketoglutarate is low, and this is further enhanced by glutamine depletion (as a result of therapy with ammonia scavengers like phenylbutyrate). Anorexia, most likely a serotoninergic symptom, might further aggravate the deficiency of indispensable amino acids (e.g., branched-chain and arginine). The role of increased glutamine production in astrocytes and the excitotoxic and metabotropic effects of increased extracellular glutamate have been extensively investigated and found to differ between models of acute and chronic hyperammonemia. Using an in vitro model of cultured embryonic rat brain cell aggregates, we studied the role of creatine in ammonia toxicity. Cultures exposed to ammonia before maturation showed impaired cholinergic axonal growth accompanied by a decrease of creatine and phosphocreatine, a finding not observed in mature cultures. By using different antibodies, we have shown that the phosphorylated form of the intermediate neurofilament protein is affected. Adding creatine to the culture medium partially prevents impairment of axonal growth and the presence of glia in the culture is a precondition for this protective effect. Adequate arginine substitution is essential in the treatment of urea cycle defects as creatine is inefficiently transported into the brain. [Copyright &y& Elsevier]

Published

2004

46. A Raf/MEK/ERK signaling pathway is required for development of the sea urchin embryo micromere lineage through phosphorylation of the transcription factor Ets.

Author

Röttinger, Eric, Besnardeau, Lydia, and Lepage, Thierry

Subjects

*SEA urchin embryos, *LARVAE, *MESENCHYME, *PROTEIN kinases, *PHOSPHORYLATION, *CELL physiology, *DEVELOPMENTAL biology

Abstract

In the sea urchin embryo, the skeleton of the larva is built from a population of mesenchymal cells known as the primary mesenchyme cells (PMCs). These derive from the large micromeres that originate from the vegetal pole at fourth cleavage. At the blastula stage, the 32 cells of this lineage detach from the epithelium and ingress into the blastocoel by a process of epithelial-mesenchymal transition. We report that shortly before ingression, there is a transient and highly localized activation of the MAP-kinase ERK in the micromere lineage. We show that ingression of the PMCs requires the activity of ERK, MEK and Raf, and depends on the maternal Wnt/β-catenin pathway. Dissociation experiments and injection of mRNA encoding a dominant-negative form of Ras indicated that this activation is probably cell autonomous. We identified the transcription factors Ets1 and Alx1 as putative targets of the phosphorylation by ERK. Both proteins contain a single consensus site for phosphorylation by the MAP kinase ERK. In addition, the Ets1 protein sequence contains a putative ERK docking site. Overexpression of ets1 by injection of synthetic mRNA in the egg caused a dramatic increase in the number of cells becoming mesenchymal at the blastula stage. This effect could be largely inhibited by treating embryos with the MEK inhibitor U0126. Moreover, mutations in the consensus phosphorylation motif substituting threonine 107 by an aspartic or an alanine residue resulted respectively in a constitutively active form of Ets1 that could not be inhibited by U0126 or in an inactive form of Etsi. These results show that the MAP kinase pathway, working through phosphorylation of Ets1, is required for full specification of the PMCs and their subsequent transition from epithelial to mesenchymal state. [ABSTRACT FROM AUTHOR]

Published

2004

47. Differences in the Expression of Apoptotic Proteins in Burkitt's Lymphoma Cell Lines: Potential Models for Screening Apoptosis-Inducing Agents.

Author

Doucet, Jean-Pierre, Hussain, Azhar, Al-Rasheed, Maha, Gaidano, Gianluca, Gutiérrez, Marina I., Magrath, Ian, and Bhatia, Kishor

Subjects

*BURKITT'S lymphoma, *APOPTOSIS, *PROTEINS, *B cell lymphoma

Abstract

Mammalian cells undergo programmed cell death by orchestrated interactions involving multiple independent pathways. At least one of them, the p53- dependent pathway is commonly compromised in Burkitt's lymphoma (BL) cell lines. Differences in the integrity of this pathway in various BL cell lines have made them useful experimental models in understanding response to standard or novel anti-tumor drugs vis-a-vis the p53 pathway. Non-p53-dependent loss of apoptotic regulation also contributes to the genesis and/or progression of lymphomas and it is possible that BL cell lines also represent these models. We have characterized the expression of multiple apoptotic proteins in a panel of BL cell lines and describe cell lines with loss of cIAP1, cIAP2, Bax, Bak, Bcl-Xs and p38 MAP-kinase. This data should make this panel of cell lines a useful screening system for testing novel apoptotic inducers. [ABSTRACT FROM AUTHOR]

Published

2004

48. High glucose blocks the effects of estradiol on human vascular cell growth: differential interaction with estradiol and raloxifene

Author

Somjen, Dalia, Paller, Channing J., Gayer, Batya, Kohen, Fortune, Knoll, Esther, and Stern, Naftali

Subjects

*DIABETES, *GENES, *CARDIOVASCULAR diseases, *RALOXIFENE

Abstract

Because diabetic women appear not to be protected by estrogen in terms of propensity to cardiovascular disease, we tested the possibility that chronic hyperglycemia modulates the effects of E2 on vascular cell growth in vitro. Human endothelial cells (E304) and vascular smooth muscle cells (VSMC) were grown in normal glucose (5.5 mmol/l), high glucose (22 mmol/l) or high manitol (22 nmol/l; an osmotic control) for 7 days. In endothelial cells glucose per se stimulated DNA synthesis. However E2- (but not RAL-) stimulated [3H] thymidine incorporation was attenuated in the presence of high glucose. In parallel, E2-dependent MAP-kinase-kinase activity was blocked in the presence of high glucose. High glucose increased basal creatine kinase (CK) specific activity, but E2-stimulated CK was not significantly impaired in the presence of high glucose. In VSMC, high glucose prevented the inhibitory effect of high E2 (but not of high RAL) concentrations on DNA synthesis. High glucose also prevented E2-induced MAP-kinase-kinase activity. In contrast, while high glucose augmented basal CK, the relative E2-induced changes were roughly equal in normal and high high glucose media. Hence, high glucose blocks several effects of E2 on vascular cell growth, which are mediated, in part, via the MAP-kinase system and are likely contributors to E2’s anti-atherosclerotic properties. Since RAL’s estrogen-mimetic effects on human vascular cell growth were independent of MAP-kinase activation and were not affected by hyperglycemia, the potential use of RAL to circumvent the loss of estrogen function induced by hyperglycemia and diabetes in the human vasculature should be further explored. [Copyright &y& Elsevier]

Published

2004

49. Chronic regulation of the expression of the gap junction protein connexin 43 in transfected HeLa cells.

Author

Salameh, A., Polontchouk, L., Dhein, S., Hagendorff, A., and Pfeiffer, D.

Subjects

GAP junctions (Cell biology), PROTEIN kinases, CANCER cells, CELL communication, CONNEXINS, FORSKOLIN

Abstract

Gap junction channels are essential for intercellular communication. Among the most abundant gap junction channel proteins is connexin 43 (Cx43). The goal of our study was to find out, whether Cx43 content may be regulated via adenylyl cyclase (AC)/cAMP/protein kinase A (PKA), protein kinase C (PKC) pathways or by a tyrosine kinase coupled pathway, i.e. TNFα-receptor dependent pathway. Therefore, we used HeLa cells transfected with Cx43 and exposed these cells for 24 h to either db-cAMP (10-4 M), forskolin (10-5 M), the phorbolester phorbol-12,13-didecanoate PDD (10-7 M) (or its inactive form 4α-PDD), TNFα (10 U/ml) with or without additional treatment with the MAP kinase inhibitors SB203580 (10-5 M, p38 MAP-kinase inhibitor) or the MEK1-inhibitor PD98059 (10-5 M). Cx43 content was analysed using Western blot analysis. All results were confirmed by a second series of identical experiments using Cx43 immunohistochemistry. We found significantly enhanced Cx43 content in cells treated with db-cAMP, forskolin, PDD or TNFα (p<0.05), while 4α-PDD or the solvent DMSO exerted no effect. These increases in Cx43 content could be completely suppressed by SB203580 (p<0.05) but not by PD98059. In absence of a stimulating drug, these inhibitors (SB203580 or PD98059) did not affect Cx43 content. Additional PCR experiments revealed increases in Cx43-mRNA under the influence of db-cAMP, forskolin, PDD or TNFα (p<0.05), which all could be completely suppressed by SB203580. From these results we conclude that1.Cx43 content can be regulated via AC/cAMP/PKA, PKC and TNFα-receptor-dependent pathways2.Activation of p38 MAP kinase is a common pathway for regulation of Cx43 content in HeLa cells [ABSTRACT FROM AUTHOR]

Published

2003

50. Ligand-dependent activation of breathless FGF receptor gene in Drosophila developing trachea

Author

Ohshiro, Tomokazu, Emori, Yasufumi, and Saigo, Kaoru

Subjects

*DROSOPHILA, *CELL receptors, *LIGANDS (Biochemistry)

Abstract

Spatially and temporally regulated activity of Branchless/Breathless signaling is essential for trachea development in Drosophila. Early ubiquitous breathless (btl) expression is controlled by binding of Trachealess/Tango heterodimers to the btl minimum enhancer. Branchless/Breathless signaling includes a Sprouty-dependent negative feedback loop. We show that late btl expression is a target of Branchless/Breathless signaling and hence, Branchless/Breathless signaling contains a positive feedback loop, which may guarantee a continuous supply of fresh receptors to membranes of growing tracheal branch cells. Branchless/Breathless signaling activates MAP-kinase, which in turn, activates late btl expression and destabilizes Anterior-open, a repressor for late btl expression. Biochemical and genetic analysis indicated that the minimum btl enhancer includes binding sites of Anterior-open. [Copyright &y& Elsevier]

Published

2002