TGF-β regulates Nox4, MnSOD and catalase expression, and IL-6 release in airway smooth muscle cells.
about
Getting 'Smad' about obesity and diabetesSuppression of NADPH Oxidase Activity May Slow the Expansion of Osteolytic Bone MetastasesReciprocal regulation of TGF-β and reactive oxygen species: A perverse cycle for fibrosisRedox-fibrosis: Impact of TGFβ1 on ROS generators, mediators and functional consequencesRegulation of brown adipocyte metabolism by myostatin/follistatin signalingOxidative stress in cancer and fibrosis: Opportunity for therapeutic intervention with antioxidant compounds, enzymes, and nanoparticlesReactive oxygen species and fibrosis: further evidence of a significant liaisonOxidative stress as activators of sensory nerves for coughSensory nerve terminal mitochondrial dysfunction induces hyperexcitability in airway nociceptors via protein kinase CRole of non-coding RNAs in maintaining primary airway smooth muscle cellsStore-operated Ca2+ entry is involved in transforming growth factor-β1 facilitated proliferation of rat airway smooth muscle cells.Redox processes inform multivariate transdifferentiation trajectories associated with TGFβ-induced epithelial-mesenchymal transitionTherapeutic targeting of GSK3β enhances the Nrf2 antioxidant response and confers hepatic cytoprotection in hepatitis C.BET bromodomains regulate transforming growth factor-β-induced proliferation and cytokine release in asthmatic airway smooth muscle.Galangin attenuates airway remodelling by inhibiting TGF-β1-mediated ROS generation and MAPK/Akt phosphorylation in asthmaSmad3 Signaling Promotes Fibrosis While Preserving Cardiac and Aortic Geometry in Obese Diabetic Mice.Dermal delivery of HSP47 siRNA with NOX4-modulating mesoporous silica-based nanoparticles for treating fibrosis.Characterization of a Decapentapletic Gene (AccDpp) from Apis cerana cerana and Its Possible Involvement in Development and Response to Oxidative Stress.Immunosuppressive and Prometastatic Functions of Myeloid-Derived Suppressive Cells Rely upon Education from Tumor-Associated B Cells.Oxidative stress-induced mitochondrial dysfunction drives inflammation and airway smooth muscle remodeling in patients with chronic obstructive pulmonary diseaseTransforming growth factor-β and nuclear factor E2–related factor 2 regulate antioxidant responses in airway smooth muscle cells: role in asthma.Transforming growth factor-β, bioenergetics, and mitochondria in renal diseaseExcess TGF-β mediates muscle weakness associated with bone metastases in mice.Lung extracellular matrix and redox regulationTransforming growth factor-β-induced differentiation of airway smooth muscle cells is inhibited by fibroblast growth factor-2Sensory nerve terminal mitochondrial dysfunction activates airway sensory nerves via transient receptor potential (TRP) channelsParathyroid Hormone-Related Protein Interacts With the Transforming Growth Factor-β/Bone Morphogenetic Protein-2/Gremlin Signaling Pathway to Regulate Proinflammatory and Profibrotic Mediators in Pancreatic Acinar and Stellate Cells.Inhibiting TGFβ1 has a protective effect on mouse bone marrow suppression following ionizing radiation exposure in vitroGlutathione peroxidase 3 localizes to the epithelial lining fluid and the extracellular matrix in interstitial lung disease.The Expression of NOX4 in Smooth Muscles of Small Airway Correlates with the Disease Severity of COPDTranscriptional responses of neonatal mouse lung to hyperoxia by Nrf2 status.Airway smooth muscle in airway reactivity and remodeling: what have we learned?Effect of nitric oxide deficiency on the pulmonary PTHrP system.NADPH oxidase-dependent redox signaling in TGF-β-mediated fibrotic responses.The Role of Mitochondria and Oxidative/Antioxidative Imbalance in Pathobiology of Chronic Obstructive Pulmonary DiseaseHyperoxia induces alveolar epithelial-to-mesenchymal cell transition.Airway smooth muscle hyperproliferation is regulated by microRNA-221 in severe asthma.Redox-mediated and ionizing-radiation-induced inflammatory mediators in prostate cancer development and treatment.Hematopoietic stem cell senescence and cancer therapy-induced long-term bone marrow injury.Mitochondria in lung diseases.
P2860
Q24630117-FE7A1E30-FF62-4555-894E-37140C62C100Q26738400-FD96497A-EB54-4281-9227-95685DA8670EQ26779846-678564DD-DBA9-4873-94AB-288DB6038E02Q26786129-576DA649-255C-41D4-A6D8-F3DBEDC0DAD8Q26863660-9016B98E-48E5-486E-B256-FC8B937DA912Q28075551-7F89BF84-99ED-4C28-B62E-6BF9DB2C1099Q28077930-605DBFD2-AB03-49E2-B62D-DA2138BC9B59Q28083707-FE492A39-4C23-430C-B47A-8CE3F4095531Q33584619-717416A3-AA55-47C0-B3D8-93500639AEE9Q33690703-807BA2D6-88E7-4911-B719-FF33928523F9Q34604174-515C6E0B-36D0-4028-BB71-7127A0EA37D9Q34623170-47DD3253-5DC2-4520-8FFA-18E4FC41A6CAQ34678974-A0FC43CA-4DDD-4012-B6C1-A743F0CEF68AQ35580851-391E3A48-CA15-4913-9EB8-D59172172F9BQ35834096-40843B00-A19D-4622-B55B-A7D8D6FA0B43Q35883067-4BB63C8E-18F3-4344-ACCA-B8B0E2234C53Q35908995-63C0D3F8-4AD4-4073-BB6E-6452E5412E17Q35924892-BAE538F8-F9ED-4AFB-97FC-ED8B5ACE1195Q36021465-21CF67D1-199A-44CE-A298-3D1C8D423D0FQ36024291-3B8DFE0B-DE9A-457E-9862-9250850BD83BQ36109882-5D019DC2-1574-4C57-9092-B77DA49D6F70Q36239718-D3B0199A-C38E-4386-B7CC-FAAE36F4E4E3Q36258000-C7044F77-66B1-47C1-9C58-1F2DD04039F5Q36650779-3D7D7E58-0647-490E-9A8E-0AB041D8F3AAQ36703971-6754E69F-9000-4716-96D4-F31E370D6D34Q36776716-5BE9BA79-1ADB-4787-9B46-E3B4EA4B40D2Q36803303-E9E8DED2-1B7B-43CE-83C5-61AA12D83378Q37006953-3B3BC7CC-69A4-4218-9787-121A3482FE4EQ37110889-AF7D3965-5A67-4921-9D18-110353DCA0F8Q37253101-E3DC49D5-63DB-435F-94C9-7381A5EFC595Q37419183-3B46CE23-E943-4607-AB0D-1C8FE398FB51Q37440525-31B766E9-8900-4421-945B-FAC3CA995AC7Q37539923-5046B394-1A6F-4362-B45C-9AE4009A0755Q37541098-C2A58BCE-7FEA-40FE-8AFD-A4FB4CFC21D8Q37571664-ABBC80B9-EE53-4554-B7BF-91750F0A8A81Q37576118-5385584E-624A-41E7-8363-3E4FAD15AB89Q37596092-86E0CFA0-D595-4DAC-B856-84985D30F950Q37606662-23BCF948-F9A4-43B0-A6C2-6D5810246D99Q37616321-98460002-AFC4-429E-9237-EBAE639DECB2Q37688339-81D14FEB-7E53-46B4-9CB7-B45004FF23C6
P2860
TGF-β regulates Nox4, MnSOD and catalase expression, and IL-6 release in airway smooth muscle cells.
description
2010 nî lūn-bûn
@nan
2010 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
name
TGF-β regulates Nox4, MnSOD an ...... in airway smooth muscle cells.
@ast
TGF-β regulates Nox4, MnSOD an ...... in airway smooth muscle cells.
@en
TGF-β regulates Nox4, MnSOD an ...... in airway smooth muscle cells.
@nl
type
label
TGF-β regulates Nox4, MnSOD an ...... in airway smooth muscle cells.
@ast
TGF-β regulates Nox4, MnSOD an ...... in airway smooth muscle cells.
@en
TGF-β regulates Nox4, MnSOD an ...... in airway smooth muscle cells.
@nl
prefLabel
TGF-β regulates Nox4, MnSOD an ...... in airway smooth muscle cells.
@ast
TGF-β regulates Nox4, MnSOD an ...... in airway smooth muscle cells.
@en
TGF-β regulates Nox4, MnSOD an ...... in airway smooth muscle cells.
@nl
P2093
P2860
P1476
TGF-β regulates Nox4, MnSOD an ...... in airway smooth muscle cells
@en
P2093
Maria B Sukkar
Nadia M Khorasani
Pankaj K Bhavsar
P2860
P304
P356
10.1152/AJPLUNG.00134.2010
P577
2010-12-03T00:00:00Z