Interaction between transcellular and paracellular water transport pathways through Aquaporin 5 and the tight junction complex.
about
Molecular mechanism of pancreatic and salivary gland fluid and HCO3 secretionProinflammatory cytokines tumor necrosis factor-alpha and interferon-gamma alter tight junction structure and function in the rat parotid gland Par-C10 cell lineMiR-874 promotes intestinal barrier dysfunction through targeting AQP3 following intestinal ischemic injuryPhysiological role of aquaporin 5 in salivary glands.Tight junctions in salivary epitheliumCa²⁺-dependent K⁺ channels in exocrine salivary glands.Interleukin-12 induces salivary gland dysfunction in transgenic mice, providing a new model of Sjögren's syndrome.Activation of transient receptor potential vanilloid subtype 1 increases expression and permeability of tight junction in normal and hyposecretory submandibular gland.A novel role for aquaporin-5 in enhancing microtubule organization and stability.Localization of AQP5 during development of the mouse submandibular salivary glandShear stress regulates aquaporin-5 and airway epithelial barrier functionALX/FPR2 Modulates Anti-Inflammatory Responses in Mouse Submandibular Gland.Salivary gland cell differentiation and organization on micropatterned PLGA nanofiber cratersMechanisms Underlying Activation of α₁-Adrenergic Receptor-Induced Trafficking of AQP5 in Rat Parotid Acinar Cells under Isotonic or Hypotonic Conditions.The protein kinase A pathway contributes to Hg2+-induced alterations in phosphorylation and subcellular distribution of occludin associated with increased tight junction permeability of salivary epithelial cell monolayers.Fluid reabsorption in proximal convoluted tubules of mice with gene deletions of claudin-2 and/or aquaporin1.Channels and transporters in salivary glands.Mechanisms of cell polarity and aquaporin sorting in the nephron.Osmoregulation and epithelial water transport: lessons from the intestine of marine teleost fish.Current cell models for bioengineering a salivary gland: a mini-review of emerging technologies.Osmoregulation and excretion.Defective channels lead to an impaired skin barrier.Biphasic influence of Staphylococcus aureus on human epidermal tight junctions.Current trends in salivary gland tight junctions.Claudin-4 is required for AMPK-modulated paracellular permeability in submandibular gland cells.Temporal Expression Patterns of Clock Genes and Aquaporin 5/Anoctamin 1 in Rat Submandibular Gland Cells.Implantable three-dimensional salivary spheroid assemblies demonstrate fluid and protein secretory responses to neurotransmitters.Continuous monitoring of the bronchial epithelial lining fluid by microdialysis.Truncation of monocyte chemoattractant protein 1 by plasmin promotes blood-brain barrier disruption.TNF-α inhibits aquaporin 5 expression in human salivary gland acinar cells via suppression of histone H4 acetylation.Activation of transient receptor potential vanilloid subtype 1 increases secretion of the hypofunctional, transplanted submandibular gland.Ca2+-CaMKKβ pathway is required for adiponectin-induced secretion in rat submandibular gland.AQP5 is differentially regulated in astrocytes during metabolic and traumatic injuries.Functional Epitopes for Anti-Aquaporin 5 Antibodies in Sjögren Syndrome.Decreased interaction between ZO-1 and occludin is involved in alteration of tight junctions in transplanted epiphora submandibular glands.Acute experimental stress evokes a differential gender-determined increase in human intestinal macromolecular permeability.Interleukin-17 Impairs Salivary Tight Junction Integrity in Sjögren's Syndrome.Significant water absorption goes paracellular in kidney proximal tubules.Interferon-gamma increased epithelial barrier function via upregulating claudin-7 expression in human submandibular gland duct epithelium.Knockdown of aquaporin 3 is involved in intestinal barrier integrity impairment.
P2860
Q26852694-7EC13F39-951A-4128-B3B7-415C0F9607B3Q28568696-A0662922-4648-4C03-B68B-4BF86300555EQ28975613-9F66DBD9-7544-44F2-8CA3-3EFC79769025Q31018062-99E4B149-125F-4422-8241-B400D8BD921EQ33674271-86957C7B-0F7C-4DAC-B577-F98C91D574E2Q33758431-4EAB155F-671A-4323-98F3-E60DA7A8BC99Q33767896-7CAA0AC7-A933-4C25-8D19-71DE80CBD63EQ34185245-2696B9E1-C4FB-44C6-BED7-47B657501EF9Q34310350-3FB8A716-61DF-47F0-B13D-2CE103AF6128Q34716910-0165D8FE-50D5-4BFB-B0FB-F292136CD996Q36491366-6778A2BC-BB62-4F25-83C5-5B459E4CBDB0Q36785406-9F69FE89-D206-4647-85F2-FE40B7419C1DQ37127816-7C8BF875-77B0-4119-8117-7A872447E24AQ37134378-CCC3969B-A21C-43F4-B995-5BC8145F6B9EQ37179982-95187DAD-F452-445D-B2E3-1E76D0C49A85Q37342025-44AE1FB8-C2E5-4F31-8E99-6794B3D144EAQ37814189-ECCF1444-2CE2-47CD-85C9-365F3A91F41AQ37843809-3E8ADD97-7DAA-475C-A34B-769BBDC437EDQ37898569-889855FA-2AA9-49F4-9F2F-567531009123Q38027022-E9E378F2-D0F3-47EE-B925-0D0652C20CD8Q38203222-8D9DFB4A-564A-40CD-A5F6-134E5DF9B1C4Q38245401-29CA14A9-06E8-46E4-AA9D-7762CE3B2E0FQ38696206-56B80BD6-6C56-402B-AB61-A1A95AF8FCDAQ38825519-B5C518C3-374C-4C74-B795-3AB38E67EA46Q38928944-E3F3C61C-3FFA-48B9-AEDF-1C5748EC7DBAQ40170141-ADC7C77B-79E4-4577-8515-CEB32F3FB621Q41097945-9AD27D34-0495-49CF-8509-E4DB1E63C36DQ41762566-7BF30B98-D7EB-4D3A-B888-DF6520F6291FQ41825648-773FF363-5D0D-4B84-81C1-626EF3C4A92CQ42702827-47AD2D12-C1E7-4D9D-8DE1-2A8038F01315Q43111732-EC31F735-1581-4CC3-8B27-08D55B430F3FQ47291387-1C601A11-708B-42C2-B43F-7779C731C982Q47841570-9421BF68-1B83-4F73-854E-FB7E1CBC8894Q50914847-18439E1F-7E85-4595-8DA1-02CB55277CDBQ51090200-33986365-5A2A-43F8-9118-E54BEFEB2984Q51337691-9A24AAFB-74C9-4F7A-810B-2CB03B8078FEQ52668875-C06A69FB-EBF4-4F72-A7E3-852E028C47CBQ52882074-BFC3BB31-10B3-46D7-8F54-2B104A7313FDQ53153713-1538696E-6F44-4667-AA56-16C6EF35F147Q54353192-C561C095-5B11-48B9-B7AD-79D665AB7851
P2860
Interaction between transcellular and paracellular water transport pathways through Aquaporin 5 and the tight junction complex.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Interaction between transcellu ...... nd the tight junction complex.
@ast
Interaction between transcellu ...... nd the tight junction complex.
@en
type
label
Interaction between transcellu ...... nd the tight junction complex.
@ast
Interaction between transcellu ...... nd the tight junction complex.
@en
prefLabel
Interaction between transcellu ...... nd the tight junction complex.
@ast
Interaction between transcellu ...... nd the tight junction complex.
@en
P2093
P2860
P356
P1476
Interaction between transcellu ...... nd the tight junction complex.
@en
P2093
Anil G Menon
Arthur R Hand
Gregory P Boivin
James E Melvin
Jitesh D Kawedia
John N Lorenz
Ken-Ichiro Kikuchi
Michelle L Nieman
P2860
P304
P356
10.1073/PNAS.0608384104
P407
P577
2007-02-21T00:00:00Z