1183Beta-Adrenoceptor activation increases cardiac galectin-3 levels via the hippo signaling pathway

2019 ◽  
Vol 40 (Supplement_1) ◽  
Author(s):  
X.-J Du ◽  
W B Zhao ◽  
Q Lu ◽  
M N Nguyen ◽  
M Ziemann ◽  
...  
Keyword(s):  
Hippo Pathway ◽  
Fold Increase ◽  
Signalling Pathway ◽  
Mutant Form ◽  
Wild Type ◽  
Galectin 3 ◽  
Β Blockers ◽  
The Hippo Pathway ◽  
Hippo Signalling

Abstract Background Galectin-3 (Gal-3) is a clinical biomarker for risk of cardiovascular disease and a disease mediator forming a therapeutic target. However, the mechanism(s) that regulate cardiac expression of Gal-3 remains unknown. Activation of the sympatho-β-adrenergic system is a hallmark of heart disease, but the relationship of βAR activation and cardiac content of Gal-3 remains unknown. Purpose To determine the role of βAR activation in regulating cardiac Gal-3 level and the responsible mechanism focusing on the Hippo signalling pathway. Methods Wild-type and Gal-3 gene deleted (Gal3-KO) mice were used. To test the role of the Hippo pathway, we used transgenic (TG) mouse strains with cardiac overexpression of mammalian-20-like sterile kinase 1 (Mst1, mammalian orthology of Drosophila Hippo kinase) either in wild-type form (TG-Mst1) or dominative-negative kinase dead mutant form (TG-dnMst1). Effects of β-antagonist (isoprenaline, ISO) and antagonists were determined. We measured phosphorylation (Ser127) of YAP as a transcription co-regulator acting as the main signal output of the Hippo pathway. Results In wild-type mice, treatment with ISO led to a time- and dose-dependent increase in cardiac expression of Gal-3 (Fig. A) accompanied by elevated circulating Gal-3 levels (Fig. B). ISO treatment stimulated cardiac expression of Mst1 and YAP hyper-phosphorylation (i.e. inactivation, Fig. C), indicating activation of the Hippo signalling. These effects of ISO were inhibited by β-blockers (propranolol, Prop; carvedilol, Carv; Fig. D,E). Relative to non-TG controls, ISO-induced expression of Gal-3 was inhibited by 75% in TG-dnMst1 mice (inactivated Mst1), but exaggerated by 7-fold in TG-Mst1 mice (activated Mst1). Mst1-TG mice had a 45-fold increase in Gal-3 content, YAP hyper-phosphorylation and enhanced pro-fibrotic signaling. In Mst1-TG mice, whilst blood Gal-3 level was unchanged, treatment with ISO (6 mg, 2 days) evoked a marked increase in cardiac and blood Gal-3 levels. Using rat cardiomyoblasts, we showed that ISO-mediated Mst1 expression and YAP phosphorylation were PKA-dependent and that siRNA-mediated YAP knockdown led to Gal-3 upregulation. The role of Gal-3 in mediating ISO-induced cardiomyopathy was examined by treating wild-type and Gal3-KO mice with ISO (30 mg/kg, 7 days). ISO-treated wild-type mice had 8-fold increase in cardiac Gal-3, ventricular dysfunction, fibrosis, hypertrophy and activated inflammatory or fibrotic signalling. All these changes, except hypertrophy, were abolished by Gal3-KO. beta-AR regulates galectin-3 Conclusion βAR stimulation increases cardiac expression of Gal-3 through activation of the Hippo signalling pathway. This is accompanied by elevated circulating Gal-3 level. βAR antagonists inhibited βAR-Mst1 (Hippo) signalling and cardiac Gal-3 expression, actions likely contributing to the overall efficacy of β-blockers. Acknowledgement/Funding NHMRC of Australia; Nature Science Fund of China

The Hippo pathway regulates human megakaryocytic differentiation

2017 ◽  
Vol 117 (01) ◽  
pp. 116-126 ◽  
Author(s):  
Chanchao Lorthongpanich ◽  
Nittaya Jiamvoraphong ◽  
Kantpitchar Supraditaporn ◽  
Phatchanat Klaihmon ◽  
Yaowalak U-pratya ◽  
...  
Keyword(s):  
Cell Differentiation ◽  
Hippo Pathway ◽  
Functional Changes ◽  
Supplementary Material ◽  
The Hippo Pathway ◽  
Insight Into ◽  
Component Gene ◽  
Hippo Signalling ◽  
Platelet Formation

SummaryThe Hippo pathway is involved in several biological processes in both flies and mammals. Recent studies have shown that the Hippo pathway regulates Drosophila’s haematopoiesis; however, understanding of its role in mammalian haematopoiesis is still limited. In flies, deletion of the Hippo component gene, Warts, affects crystal cell differentiation. We explored the role of the Hippo pathway in human haemato-poiesis focusing on megakaryopoiesis. To investigate the role of LATS1/2 (a mammalian homolog of Warts) in human megakaryo -blastic cell differentiation and platelet formation, megakaryoblastic cell (MEG-01) line was used as a model to gain insight into mechan-ism of the Hippo pathway in mammalian megakaryopoiesis. Effect of LATS1/2 on megakaryoblastic cell differentiation and platelet production were determined by functional changes. We found that depletion of LATS1/2 resulted in an increase of CD41+ megakaryocytes with impaired platelet biogenesis. Our study shows that the Hippo signalling pathway plays a crucial role in human megakaryoblastic cell differentiation and thrombopoiesis.Supplementary Material to this article is available online at www.thrombosis-online.com.

Genetic Absence of Thrombin Receptor Par4 Overcomes the Obligate Requirement of EPCR in Mouse Placenta

Blood ◽  
2015 ◽  
Vol 126 (23) ◽  
pp. 425-425
Author(s):  
Michelle M Storage ◽  
Jianzhong An ◽  
Helena Liang ◽  
Qiuhui Yang ◽  
Mark Zogg ◽  
...  
Keyword(s):  
Protein C ◽  
Activated Protein C ◽  
Fold Increase ◽  
Thrombin Receptor ◽  
Mutant Form ◽  
Wild Type ◽  
Placental Development ◽  
Transgenic Expression ◽  
Placental Failure

Abstract Introduction: Murine models suggest that the Thrombomodulin-Protein C system plays a critical role in placentation and the maintenance of pregnancy. Severe Protein C deficiency in the mother results in pregnancy failure in early gestation. Thrombomodulin (Thbd) or the Endothelial Protein C Receptor (EPCR/ProcR) gene deletions result in embryonic death, secondary to developmental and functional abnormalities of the placenta. These molecules play multiple roles in coagulation and inflammation. The mechanisms governing their role in placental development and maintenance of placental function remain to be fully understood. The objective of this work is to identify the critical functions of EPCR and Thbd that are required for placental development. Both Thbd and EPCR augment activated protein C generation, albeit to different extents. We have examined if reduced activated Protein C generation mediates placental abnormalities of EPCR- and Thbd-null mice. Activation of thrombin receptors expressed on platelets and trophoblast cells can also contribute to placental failure. We examined the role of thrombin receptor Par4 in placental failure of EPCR-null mice. Methods: To assess the role of a PC generation in placental phenotype of Thbd- and EPCR-null mice, we used a transgene to express a hyperactivatable form of murine protein C (hMPC) under the control of transthyretin promoter. Thrombin cleaves this mutant form of Protein C 30-fold more efficiently than wild type protein C, without requiring the cofactor function of thrombomodulin. Wild type mice expressing hMPC show 2-fold increase in PC and 3-fold increase in aPC levels. hMPC expression in PC-null mice restores their ability to carry pregnancies. Breeding strategies were used to generate hMPCtg ProcR+/- or hMPCtg Thbd+/- female mice. These were mated to ProcR+/- or Thbd+/- males, respectively, and survival of ProcR-/- and Thbd-/- embryos was analyzed. Similar genetic strategy was used to analyze the role of thrombin receptor Par4 in the demise of EPCR-null embryos. Placental phenotypes and embryonic survival was compared with experiments in which the mother was continuously infused with LMWH using a subcutaneous osmotic pump. Results: As previously reported, EPCR-null mice die before 10.5 days post coitum (dpc) (ProcR+/- intercrosses, out of 41 live embryos none were ProcR-/-, 10 were expected, 21 aborted not genotyped, 7 pregnancies analyzed at 11.5 dpc) and none are found at wean (out of 30 live pups none were ProcR-/-, 8 were expected, 5 litters analyzed). Transgenic expression of hMPC in the mother resulted in some live ProcR-/- embryos at 11.5 dpc (4 ProcR-/- out of 41 live embryos, 10 were expected, 15 aborted not genotyped, 7 pregnancies at 11.5 dpc) and pups at wean (2 ProcR-/- out of 28 live, 7 litters analyzed). Despite transgenic hMPC expression ProcR-/- embryos and pups were underrepresented (P=0.007, chi square GOF test). Surviving ProcR-/- embryos showed normal placental histology grossly comparable to littermate controls. Expression of hMPC in the mother did not ameliorate fetal death of Thbd-null mice (out of 38 live embryos none were Thbd-/-, 10 expected, 16 aborted not genotyped, 7 pregnancies at 9.5 dpc). Continuous infusion of LMWH also resulted in some live ProcR-/- embryos at 11.5 dpc (3 ProcR-/- out of 19 live embryos, 5 expected, 11 aborted not genotyped, 3 pregnancies analyzed), but two were growth retarded and all 3 placentae showed markedly reduced placental labyrinth formation. In contrast to transgenic expression of hMPC and treatment with LMWH, when Par4-/- ProcR+/- animals were intercrossed, ProcR-/- animals were born at an expected Mendelian frequency (7 ProcR-/- out of 35 live pups, 9 expected, 7 litters analyzed). Conclusions: Our results show that transgenic expression of hMPC allows normal placental development and rescues a fraction of EPCR-null embryos. Thus, placental defect of EPCR-null mice is in part mediated by reduced generation of aPC on placental cells. In contrast to the transgenic expression of hMPC and LMWH treatment, genetic absence of Par4 completely overcame the placental defect and allowed development of EPCR-null embryos. Further studies will clarify contributions of maternal versus fetal Par4 in this phenomenon. Disclosures No relevant conflicts of interest to declare.

P04.20 The role of YAP in Glioblastoma cell lines

2021 ◽  
Vol 23 (Supplement_2) ◽  
pp. ii22-ii23
Author(s):  
G Casati ◽  
L Giunti ◽  
A Iorio ◽  
A Marturano ◽  
I Sardi
Keyword(s):  
Cell Viability ◽  
Cell Lines ◽  
Western Blotting ◽  
Cytotoxic Effect ◽  
Target Genes ◽  
Hippo Pathway ◽  
Combined Treatment ◽  
Set Up ◽  
The Hippo Pathway

Abstract BACKGROUND Glioblastoma (GBM) is a primary human malignant brain tumor, the most common in adults. Several studies have highlighted the Hippo-pathway as a cancer signalling network. The Hippo pathway is an evolutionarily conserved signal cascade, which is involved in the control of organ growth. Dysregulations among this pathway have been found in lung, ovarian, liver and colorectal cancer. The key downstream effector of the Hippo-pathway is the Yes-associated protein (YAP); in the nucleus, its function as transcription co-activator is to interact with transcription factors, resulting in the expression of target genes involved in pro-proliferating and anti-apoptotic programs. MATERIAL AND METHODS Using western blotting analysis, we determined the nuclear expression of YAP on three GBM cell lines (U87MG, T98G and A172). To investigate which inhibitors against the Hippo-pathway were the most efficient, we performed a cytotoxic assay: we treated all the three cell lines with different inhibitors such as Verteporfin (VP), Cytochalasin D (CIT), Latrunculin A (LAT), Dobutamine (DOB) and Y27632. Afterwards, we performed a treatment using Doxorubicin (DOX) combined with the inhibitors, evaluating its cytotoxic effect on our cell lines, through cell viability experiments. More western blotting experiments were performed to investigate the oncogenic role of YAP at nucleus level. Furthermore, preliminary experiments have been conducted in order to investigate the apoptosis, senescence and autophagy modulation due to the Hippo-pathway. RESULTS We showed our cell lines express nuclear YAP. We assessed the efficiency of the main inhibitors against Hippo-pathway, proving that VP, LAT A and CIT show a strong cytostatic effect, linked to time increase; plus we saw a cytotoxic effect on T98G. The association of DOX with selected inhibitors is able to reduce cell viability and nuclear YAP expression rate in all three GBM lines. Finally, preliminary experiments were set up to assess how and if the mechanisms of apoptosis, autophagy and senescence were affected by the Hippo-pathway. The combination of DOX with inhibitors promotes resistance to apoptosis. CONCLUSION Our results show that nuclear YAP is present in all tumor lines, thus confirming that this molecular pathway is functioning in GBM lines. Nuclear YAP is more highly expressed after DOX administration. Moreover, the combined treatment (DOX with Hippo-pathway inhibitors) reduces both cell proliferation and viability, and increases the rate of apoptosis. Preliminary experiments on senescence and autophagy were used to determine the best Hippo-pathway inhibitor. These data demonstrate that the Hippo-pathway plays a crucial role in GBM proliferation and resistance to apoptosis. Inhibiting this pathway and in particular the transcription factor YAP, in association with DOX, might be an excellent therapeutic target.

scholarly journals Prospects for p53-based cancer therapy.

2005 ◽  
Vol 52 (2) ◽  
pp. 321-328 ◽  
Author(s):  
Tomasz Stokłosa ◽  
Jakub Gołab
Keyword(s):  
Human Tumor ◽  
P53 Gene ◽  
Great Promise ◽  
Mutant Form ◽  
Wild Type ◽  
P53 Pathway ◽  
Cycle Arrest ◽  
Stress Signals ◽  
Near Future

The p53 tumor suppressor plays the role of a cellular hub which gathers stress signals such as damage to DNA or hypoxia and translates them into a complex response. p53 exerts its action mainly as a potent transcription factor. The two major outcomes of p53 activity are highlighted: cell cycle arrest and apoptosis. During malignant transformation p53 or p53-pathway related molecules are disabled extremely often. Mutations in p53 gene are present in every second human tumor. A mutant form of p53 may not only negate the wild type p53 function but may play additional role in tumor progression. Therefore p53 represents a relatively unique and specific target for anticancer drug design. Current approaches include several different molecules able to restore p53 wild-type conformation and activity. Such small molecule drugs hold great promise in treating human tumors with dysfunction of p53 pathway in the near future.

IL-4 increases surfactant and regulates metabolism in vivo

2000 ◽  
Vol 278 (1) ◽  
pp. L75-L80 ◽  
Author(s):  
Machiko Ikegami ◽  
Jeffrey A. Whitsett ◽  
Zissis C. Chroneos ◽  
Gary F. Ross ◽  
Jacquelyn A. Reed ◽  
...  
Keyword(s):  
Lipid Synthesis ◽  
Fold Increase ◽  
Surfactant Protein ◽  
Clara Cells ◽  
Wild Type ◽  
Surfactant Lipid ◽  
Alveolar Proteinosis ◽  
Selective Increase

Mice that express interleukin (IL)-4 in Clara cells (CCSP-IL-4) develop chronic airway inflammation and an alveolar proteinosis-like syndrome. To identify the role of IL-4 in surfactant homeostasis, we measured lipid and protein metabolism in the lungs of CCSP-IL-4 mice in vivo. Alveolar saturated phosphatidylcholine (Sat PC) pools were increased 6.5-fold and lung tissue Sat PC pools were increased 4.8-fold in the IL-4 transgenic mice. Whereas surfactant protein (SP) A was increased proportionately to Sat PC, SP-D was increased approximately 90-fold in the IL-4 mice compared with wild-type mice and was associated with 2.8-fold increase in SP-D mRNA. The incorporation of palmitate and choline into Sat PC was increased about twofold in CCSP-IL-4 mice. Although trace doses of radiolabeled Sat PC were cleared from the air spaces and lungs of CCSP-IL-4 mice more slowly than in wild-type mice, net clearance of Sat PC from the lungs of CCSP-IL-4 mice was sixfold higher in the IL-4 mice than in wild-type mice because of the larger Sat PC pool sizes. Expression of IL-4 in Clara cells increased surfactant lipid synthesis and clearance, establishing a new equilibrium with increased surfactant pools and an alveolar proteinosis associated with a selective increase in SP-D protein, demonstrating a previously unexpected effect of IL-4 in pulmonary surfactant homeostasis.

scholarly journals Novel linear motif filtering protocol reveals the role of the LC8 dynein light chain in the Hippo pathway

2017 ◽  
Vol 13 (12) ◽  
pp. e1005885 ◽  
Author(s):  
Gábor Erdős ◽  
Tamás Szaniszló ◽  
Mátyás Pajkos ◽  
Borbála Hajdu-Soltész ◽  
Bence Kiss ◽  
...  
Keyword(s):  
Light Chain ◽  
Hippo Pathway ◽  
Dynein Light Chain ◽  
Linear Motif ◽  
The Hippo Pathway

scholarly journals The Hippo Pathway Effector YAP1 Regulates Intestinal Epithelial Cell Differentiation

Cells ◽  
2020 ◽  
Vol 9 (8) ◽  
pp. 1895 ◽  
Author(s):  
Sepideh Fallah ◽  
Jean-François Beaulieu
Keyword(s):  
Stem Cells ◽  
Cell Differentiation ◽  
Epithelial Cells ◽  
Cell Line ◽  
Intestinal Epithelial Cells ◽  
Hippo Pathway ◽  
Intestinal Cell ◽  
Intestinal Epithelial ◽  
The Hippo Pathway

The human intestine is covered by epithelium, which is continuously replaced by new cells provided by stem cells located at the bottom of the glands. The maintenance of intestinal stem cells is supported by a niche which is composed of several signaling proteins including the Hippo pathway effectors YAP1/TAZ. The role of YAP1/TAZ in cell proliferation and regeneration is well documented but their involvement on the differentiation of intestinal epithelial cells is unclear. In the present study, the role of YAP1/TAZ on the differentiation of intestinal epithelial cells was investigated using the HT29 cell line, the only multipotent intestinal cell line available, with a combination of knockdown approaches. The expression of intestinal differentiation cell markers was tested by qPCR, Western blot, indirect immunofluorescence and electron microscopy analyses. The results show that TAZ is not expressed while the abolition of YAP1 expression led to a sharp increase in goblet and absorptive cell differentiation and reduction of some stem cell markers. Further studies using double knockdown experiments revealed that most of these effects resulting from YAP1 abolition are mediated by CDX2, a key intestinal cell transcription factor. In conclusion, our results indicate that YAP1/TAZ negatively regulate the differentiation of intestinal epithelial cells through the inhibition of CDX2 expression.

scholarly journals Linking Extracellular Matrix Agrin to the Hippo Pathway in Liver Cancer and Beyond

Cancers ◽  
2018 ◽  
Vol 10 (2) ◽  
pp. 45 ◽  
Author(s):  
Sayan Chakraborty ◽  
Wanjin Hong
Keyword(s):  
Extracellular Matrix ◽  
Neuromuscular Junctions ◽  
Hippo Pathway ◽  
Cardiac Regeneration ◽  
Matrix Rigidity ◽  
Macroscopic Scale ◽  
Cellular Processes ◽  
Scale Matrix ◽  
The Hippo Pathway

In addition to the structural and scaffolding role, the extracellular matrix (ECM) is emerging as a hub for biomechanical signal transduction that is frequently relayed to intracellular sensors to regulate diverse cellular processes. At a macroscopic scale, matrix rigidity confers long-ranging effects contributing towards tissue fibrosis and cancer. The transcriptional co-activators YAP/TAZ, better known as the converging effectors of the Hippo pathway, are widely recognized for their new role as nuclear mechanosensors during organ homeostasis and cancer. Still, how YAP/TAZ senses these “stiffness cues” from the ECM remains enigmatic. Here, we highlight the recent perspectives on the role of agrin in mechanosignaling from the ECM via antagonizing the Hippo pathway to activate YAP/TAZ in the contexts of cancer, neuromuscular junctions, and cardiac regeneration.

Desialylated Platelets Are Cleared From the Circulation by the Hepatic Asialoglycoprotein Receptor,

Blood ◽  
2011 ◽  
Vol 118 (21) ◽  
pp. 3257-3257
Author(s):  
Renata Grozovsky ◽  
Silvia Giannini ◽  
Karin M. Hoffmeister
Keyword(s):  
Bone Marrow ◽  
Conflicts Of Interest ◽  
Fold Increase ◽  
Asialoglycoprotein Receptor ◽  
Regulatory Mechanisms ◽  
Wild Type ◽  
Cell Counts ◽  
Blood Cell Counts ◽  
Terminal Galactose

Abstract Abstract 3257 The regulatory mechanisms of platelet homeostasis remain elusive. We investigated here the role of hepatic asialoglycoprotein receptor (a.k.a. Ashwell-Morell receptor) in platelet clearance. Mice lacking the hepatic asialoglycoprotein receptor Asgpr2 subunit had increased platelet survivals (T1/2 = 49.5±2h) when compared to wild type (WT, T1/2 = 31±4h) mice. Consequently, Asgpr2−/− mice had platelet counts increased by ∼20%, compared to WT, with increased terminal galactose exposure, as demonstrated using the galactose specific lectin RCA1. Bone marrow and spleen megakaryocyte numbers were reduced by ∼15% and ∼20% in Asgpr2−/− mice, compared to WT mice. Sialidase (NA, Clostidium perfringens, 50mU/mice) maximally desialylated circulating platelets when injected intravenously, as evidenced by increased RCA1 binding. Sialidase injection resulted in a ∼60% depletion of circulating platelets after 24h in Asgpr2−/− mice, compared to >90% in WT mice, indicating that desialylated platelets were partially removed by Asgpr1/2. In contrast to platelets, red blood cell counts were unaffected by sialidase treatment. Sialidase injection for 72h resulted in a 2.3-fold and 1.2-fold increase in megakaryocyte numbers in the spleen and bone marrow of WT mice, respectively, but not in Asgpr2−/− mice. In contrast to sialidase treatment, injections of rabbit anti-mouse platelet serum (RAMPS) depleted >95% of circulating platelets and increased by 70% bone marrow, but not spleen MK numbers in both WT and Asgpr2−/− mice. The data shows that removal of desialylated, i.e, senescent, platelets by the hepatic Ashwell-Morell receptor differs to that of antibody-mediated platelet clearance. Disclosures: No relevant conflicts of interest to declare.

scholarly journals Disease implication of hyper-Hippo signalling

Open Biology ◽  
2016 ◽  
Vol 6 (10) ◽  
pp. 160119 ◽  
Author(s):  
Shu-Ping Wang ◽  
Lan-Hsin Wang
Keyword(s):  
Cellular Proliferation ◽  
Current Knowledge ◽  
Hippo Pathway ◽  
Living Cells ◽  
Regulatory Mechanisms ◽  
Arrhythmogenic Cardiomyopathy ◽  
Tumour Suppressor Function ◽  
The Hippo Pathway ◽  
Lateral Sclerosis ◽  
Hippo Signalling

The Hippo signalling pathway regulates cellular proliferation, apoptosis and differentiation, thus exerting profound effects on cellular homeostasis. Inhibition of Hippo signalling has been frequently implicated in human cancers, indicating a well-known tumour suppressor function of the Hippo pathway. However, it is less certain whether and how hyperactivation of the Hippo pathway affects biological outcome in living cells. This review describes current knowledge of the regulatory mechanisms of the Hippo pathway, mainly focusing on hyperactivation of the Hippo signalling nexus. The disease implications of hyperactivated Hippo signalling have also been discussed, including arrhythmogenic cardiomyopathy, Sveinsson's chorioretinal atrophy, Alzheimer's disease, amyotrophic lateral sclerosis and diabetes. By highlighting the significance of disease-relevant Hippo signalling activation, this review can offer exciting prospects to address the onset and potential reversal of Hippo-related disorders.

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