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Cap1–claudin-4 regulatory pathway is important for renal chloride reabsorption and blood pressure regulation
Cap1–claudin-4 regulatory pathway is important for renal chloride reabsorption and blood pressure regulation
by Miao Yu , Ronaldo Perez , Jing Yang , L. Lee Hamm , Piyush Tripathi , Ernie Gonzales , Kathleen S. Hering-Smith , Jianghui Hou , Mingli Hou , Yongfeng Gong
in absorption / Animals / Biological Sciences / Blood pressure / Blood Pressure - drug effects / blood-brain barrier / Cell Membrane - drug effects / Cell Membrane - metabolism / Cell Membrane Permeability - drug effects / Chlorides - metabolism / Claudin-4 - metabolism / Deregulation / Electrolytes - blood / Electrolytes - urine / epithelium / HEK293 Cells / Homeostasis / Humans / intestines / Kidney - drug effects / Kidney - metabolism / Kidney Tubules, Collecting - drug effects / Kidney Tubules, Collecting - metabolism / Kidneys / Mice, Knockout / Mutation / Organ Specificity - drug effects / Permeability / PNAS Plus / Proteases / Protein Binding - drug effects / Protein Transport - drug effects / proteinases / Recombinant Proteins - pharmacology / Renal Reabsorption - drug effects / RNA Interference - drug effects / salivary glands / Serine Endopeptidases - metabolism / Telemetry / tight junctions / Tissues / Trypsin - metabolism
2014
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Cap1–claudin-4 regulatory pathway is important for renal chloride reabsorption and blood pressure regulation
by Miao Yu , Ronaldo Perez , Jing Yang , L. Lee Hamm , Piyush Tripathi , Ernie Gonzales , Kathleen S. Hering-Smith , Jianghui Hou , Mingli Hou , Yongfeng Gong
in absorption / Animals / Biological Sciences / Blood pressure / Blood Pressure - drug effects / blood-brain barrier / Cell Membrane - drug effects / Cell Membrane - metabolism / Cell Membrane Permeability - drug effects / Chlorides - metabolism / Claudin-4 - metabolism / Deregulation / Electrolytes - blood / Electrolytes - urine / epithelium / HEK293 Cells / Homeostasis / Humans / intestines / Kidney - drug effects / Kidney - metabolism / Kidney Tubules, Collecting - drug effects / Kidney Tubules, Collecting - metabolism / Kidneys / Mice, Knockout / Mutation / Organ Specificity - drug effects / Permeability / PNAS Plus / Proteases / Protein Binding - drug effects / Protein Transport - drug effects / proteinases / Recombinant Proteins - pharmacology / Renal Reabsorption - drug effects / RNA Interference - drug effects / salivary glands / Serine Endopeptidases - metabolism / Telemetry / tight junctions / Tissues / Trypsin - metabolism
2014
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Cap1–claudin-4 regulatory pathway is important for renal chloride reabsorption and blood pressure regulation
Cap1–claudin-4 regulatory pathway is important for renal chloride reabsorption and blood pressure regulation
by Miao Yu , Ronaldo Perez , Jing Yang , L. Lee Hamm , Piyush Tripathi , Ernie Gonzales , Kathleen S. Hering-Smith , Jianghui Hou , Mingli Hou , Yongfeng Gong
in absorption / Animals / Biological Sciences / Blood pressure / Blood Pressure - drug effects / blood-brain barrier / Cell Membrane - drug effects / Cell Membrane - metabolism / Cell Membrane Permeability - drug effects / Chlorides - metabolism / Claudin-4 - metabolism / Deregulation / Electrolytes - blood / Electrolytes - urine / epithelium / HEK293 Cells / Homeostasis / Humans / intestines / Kidney - drug effects / Kidney - metabolism / Kidney Tubules, Collecting - drug effects / Kidney Tubules, Collecting - metabolism / Kidneys / Mice, Knockout / Mutation / Organ Specificity - drug effects / Permeability / PNAS Plus / Proteases / Protein Binding - drug effects / Protein Transport - drug effects / proteinases / Recombinant Proteins - pharmacology / Renal Reabsorption - drug effects / RNA Interference - drug effects / salivary glands / Serine Endopeptidases - metabolism / Telemetry / tight junctions / Tissues / Trypsin - metabolism
2014

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Cap1–claudin-4 regulatory pathway is important for renal chloride reabsorption and blood pressure regulation
Cap1–claudin-4 regulatory pathway is important for renal chloride reabsorption and blood pressure regulation
Journal Article

Cap1–claudin-4 regulatory pathway is important for renal chloride reabsorption and blood pressure regulation

Miao Yu,
Ronaldo Perez,
Jing Yang,
L. Lee Hamm,
Piyush Tripathi,
Ernie Gonzales,
Kathleen S. Hering-Smith,
Jianghui Hou,
Mingli Hou,
Yongfeng Gong
2014
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Overview
Significance How the kidney handles chloride reabsorption has long been a mystery. Here, we have discovered a pathway in the kidney that utilizes channel-activating protease 1 and claudin-4 to physiologically regulate tight junction permeability to chloride. Such a pathway not only is important in renal regulation of chloride but also may play key roles in chloride transport across many other epithelia such as the lung, the salivary gland, and the skin. This discovery also attests to a concept of “druggable” tight junction. Proteases or protease-dependent mechanisms may be developed as pharmacological tools to transiently regulate tight junction permeability in the kidney, the intestine, and the blood–brain barrier.
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Publisher
National Academy of Sciences,National Acad Sciences
Subject

absorption

/ Animals

/ Biological Sciences

/ Blood pressure

/ Blood Pressure - drug effects

/ blood-brain barrier

/ Cell Membrane - drug effects

/ Cell Membrane - metabolism

/ Cell Membrane Permeability - drug effects

/ Chlorides - metabolism

/ Claudin-4 - metabolism

/ Deregulation

/ Electrolytes - blood

/ Electrolytes - urine

/ epithelium

/ HEK293 Cells

/ Homeostasis

/ Humans

/ intestines

/ Kidney - drug effects

/ Kidney - metabolism

/ Kidney Tubules, Collecting - drug effects

/ Kidney Tubules, Collecting - metabolism

/ Kidneys

/ Mice, Knockout

/ Mutation

/ Organ Specificity - drug effects

/ Permeability

/ PNAS Plus

/ Proteases

/ Protein Binding - drug effects

/ Protein Transport - drug effects

/ proteinases

/ Recombinant Proteins - pharmacology

/ Renal Reabsorption - drug effects

/ RNA Interference - drug effects

/ salivary glands

/ Serine Endopeptidases - metabolism

/ Telemetry

/ tight junctions

/ Tissues

/ Trypsin - metabolism

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