mTOR is required for pulmonary arterial vascular smooth muscle cell proliferation under chronic hypoxia

Krymskaya, Vera P.; Snow, Jennifer; Cesarone, Gregory; Khavin, Irene; Goncharov, Dmitry A.; Lim, Poay N.; Veasey, Sigrid C.; Ihida-Stansbury, Kaori; Jones, Peter; Goncharova, Elena A.

doi:10.1096/fj.10-175018

Cited by 105 publications

(115 citation statements)

References 53 publications

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“…A proliferative/antiapoptotic role of mTORAkt and Notch3 intracellular domain in PAH PAVSMCs had been reported by us and others (5,28,29), and we confirmed activation of HIF1 and Wnt/b-catenin using respective activation assays (see Figure E7). Supporting the bioinformatic predictions, inactivation of LATS1 in nondiseased human PAVSMCs significantly up-regulated mTOR-Akt, as evidenced by increase in P-S473 Akt, mTORC2-specific P-T2481 mTOR, and mTORC1-specific P-S6 (5,14,(30)(31)(32), and led to accumulation of b-catenin, Notch3 intracellular domain, and HIF1a, whereas "restoration" of P-T1079 LATS1 or suppression of Yap in PAH PAVSMCs by LATS1 T1079D or VP had the opposite effect ( Figure 3; see Figure E8). Collectively, these data show that LATS1 inactivation up-regulates proliferative/prosurvival signaling and promotes human PAH PAVSMC proliferation and survival via Yap.…”

Section: Hippo/lats1 Inactivation Promotes Human Pah Pavsmc Proliferasupporting

confidence: 54%

“…Immunohistochemical, Immunocytochemical, and Immunoblot Analyses and Transfection, Infection, DNA Synthesis, Apoptosis, Migration, and Cell Count Assays These were performed as described (5,14,15). siRNAs and shRNAs were purchased from Dharmacon (Lafayette, CO) and Origen (Rockville, MD).…”

Section: Human Tissues and Cell Culturesmentioning

confidence: 99%

“…Treatment with Cpd22 (20 mg/kg, intraperitoneally 5 d/wk) (EMD Millipore, Billerica, MA) or vehicle was performed at Days 22-35. Negative control subjects included normoxia-maintained male agematched animals (5,14). Hemodynamic and histochemical analyses were performed as described (5,19).…”

Section: What This Study Adds To Thementioning

confidence: 99%

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HIPPO–Integrin-linked Kinase Cross-Talk Controls Self-Sustaining Proliferation and Survival in Pulmonary Hypertension

Kudryashova

Goncharov

Pena

et al. 2016

Am J Respir Crit Care Med

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105

183

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Rationale: Enhanced proliferation and impaired apoptosis of pulmonary arterial vascular smooth muscle cells (PAVSMCs) are key pathophysiologic components of pulmonary vascular remodeling in pulmonary arterial hypertension (PAH).Objectives: To determine the role and therapeutic relevance of HIPPO signaling in PAVSMC proliferation/apoptosis imbalance in PAH.Methods: Primary distal PAVSMCs, lung tissue sections from unused donor (control) and idiopathic PAH lungs, and rat and mouse models of SU5416/hypoxia-induced pulmonary hypertension (PH) were used. Immunohistochemical, immunocytochemical, and immunoblot analyses and transfection, infection, DNA synthesis, apoptosis, migration, cell count, and protein activity assays were performed in this study. Measurements and Main Results:Immunohistochemical and immunoblot analyses demonstrated that the HIPPO central component large tumor suppressor 1 (LATS1) is inactivated in small remodeled pulmonary arteries (PAs) and distal PAVSMCs in idiopathic PAH. Molecular-and pharmacology-based analyses revealed that LATS1 inactivation and consequent up-regulation of its reciprocal effector Yes-associated protein (Yap) were required for activation of mammalian target of rapamycin (mTOR)-Akt, accumulation of HIF1a, Notch3 intracellular domain and b-catenin, deficiency of proapoptotic Bim, increased proliferation, and survival of human PAH PAVSMCs. LATS1 inactivation and up-regulation of Yap increased production and secretion of fibronectin that upregulated integrin-linked kinase 1 (ILK1). ILK1 supported LATS1 inactivation, and its inhibition reactivated LATS1, down-regulated Yap, suppressed proliferation, and promoted apoptosis in PAH, but not control PAVSMCs. PAVSM in small remodeled PAs from rats and mice with SU5416/hypoxia-induced PH showed downregulation of LATS1 and overexpression of ILK1. Treatment of mice with selective ILK inhibitor Cpd22 at Days 22-35 of SU5416/hypoxia exposure restored LATS1 signaling and reduced established pulmonary vascular remodeling and PH.Conclusions: These data report inactivation of HIPPO/LATS1, self-supported via Yap-fibronectin-ILK1 signaling loop, as a novel mechanism of self-sustaining proliferation and apoptosis resistance of PAVSMCs in PAH and suggest a new potential target for therapeutic intervention.

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Section: Hippo/lats1 Inactivation Promotes Human Pah Pavsmc Proliferasupporting

confidence: 54%

Section: Human Tissues and Cell Culturesmentioning

confidence: 99%

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HIPPO–Integrin-linked Kinase Cross-Talk Controls Self-Sustaining Proliferation and Survival in Pulmonary Hypertension

Kudryashova

Goncharov

Pena

et al. 2016

Am J Respir Crit Care Med

Self Cite

105

183

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“…mPMVEC and A549 human lung epithelial cells were grown at 37°C in Dulbecco's modified Eagle's medium (DMEM)-low glucose medium supplemented with 10% fetal bovine serum (FBS) (HyClone, Logan, UT), 25 mM HEPES, and 5 mM L-glutamine without antibiotics; for endothelial cells, growth supplement from bovine neural tissue was added at 1.5 mg/ 100 ml (E2759; Sigma-Aldrich). Immortalized hPASMCs, a gift from Dr. Elena Goncharova (Krymskaya et al, 2011), were grown in DMEM-low glucose medium supplemented with 5% FBS, 2 mM L-glutamine with antibiotics, and 1% insulin, transferrin, and selenium.…”

Section: Methodsmentioning

confidence: 99%

A Novel Nontoxic Inhibitor of the Activation of NADPH Oxidase Reduces Reactive Oxygen Species Production in Mouse Lung

Lee

Dodia

Chatterjee

et al. 2013

J Pharmacol Exp Ther

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1-Hexadecyl-3-trifluoroethylglycero-sn-2-phosphomethanol (MJ33) is a fluorinated phospholipid analog that inhibits the phospholipase A 2 (PLA 2 ) activity of peroxiredoxin 6 (Prdx6). Prdx6 PLA 2 activity is required for activation of NADPH oxidase 2 and subsequent generation of reactive oxygen species (ROS). In vitro, MJ33 inhibited agonist-stimulated production of ROS by the isolated perfused mouse lung, lung microvascular endothelial cells, and polymorphonuclear leukocytes. MJ33 (0.02-0.5 mmol MJ33/kg body weight) in mixed unilamellar liposomes was administered to C57BL/6 mice by either intratracheal (i.t.) or i.v. routes. Lung MJ33 content, measured by liquid chromatography/mass spectroscopy, showed uptake of 67-87% of the injected dose for i.t. and 23-42% for i.v. administration at 4 hours postinjection. PLA 2 activity of lung homogenates was markedly inhibited (.85%) at 4 hours postadministration. Both MJ33 content and PLA 2 activity gradually returned to near control levels over the subsequent 24-72 hours. Mice treated with MJ33 at 12.5-25 mmol/kg did not show changes (compared with control) in clinical symptomatology, body weight, hematocrit, and histology of lung, liver, and kidney during a 30-to 50-day observation period. Thus, the toxic dose of MJ33 was .25 mmol/kg, whereas the PLA 2 inhibitory dose was approximately 0.02 mmol/kg, indicating a high margin of safety. MJ33 administered to mice prior to lung isolation markedly reduced ROS production and tissue lipid and protein oxidation during ischemia followed by reperfusion. Thus, MJ33 could be useful as a therapeutic agent to prevent ROS-mediated tissue injury associated with lung inflammation or in harvested lungs prior to transplantation.

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“…By contrast, the vasculature responds to long-term hypoxia by promoting new blood vessel growth-angiogenesis, which in turn, restores O 2 to deprived tissues. Hypoxic stress is a key driving force in the vascular remodelling observed in pulmonary hypertension, and HIFs activate pulmonary artery endothelial and smooth muscle cell proliferation, which is mediated by both mTORC1 and mTORC2 [83][84][85]. Currently, the mechanisms by which hypoxia/HIFs signal to activate mTOR in ECs and VSMCs are poorly understood [86][87][88][89][90].…”

Section: Mtor Signalling In Hypoxia-induced Pulmonary Hypertensionmentioning

confidence: 99%

Hypoxia and Pulmonary Hypertension

Charolidi¹,

Carroll²

2017

Hypoxia and Human Diseases

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Vasoconstriction in response to low oxygen tension (hypoxia) in pulmonary arteries is an important physiological adaptation to reroute blood low to areas of higher oxygenation for efective gaseous exchange. However, chronic hypoxia is a common feature of lung disease, such as chronic obstructive pulmonary disease (COPD). Hypoxic stress triggers cellular phenotypic alterations including increased proliferation and migration of vascular smooth muscle cells (VSMCs), as well as synthesis of extracellular matrix (ECM) proteins that remodel lung vasculature. Remodelling of vessels increases the risk of pulmonary hypertension (PH)-elevated pulmonary arterial pressure-and eventually right heart failure. This chapter will summarise the major pathways and mechanisms involved in hypoxia-driven pulmonary hypertension (PH).

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mTOR is required for pulmonary arterial vascular smooth muscle cell proliferation under chronic hypoxia

Cited by 105 publications

References 53 publications

HIPPO–Integrin-linked Kinase Cross-Talk Controls Self-Sustaining Proliferation and Survival in Pulmonary Hypertension

HIPPO–Integrin-linked Kinase Cross-Talk Controls Self-Sustaining Proliferation and Survival in Pulmonary Hypertension

A Novel Nontoxic Inhibitor of the Activation of NADPH Oxidase Reduces Reactive Oxygen Species Production in Mouse Lung

Hypoxia and Pulmonary Hypertension

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