Your search keyword '"Yuanlin Song"' showing total 19 results

1. Airway surface liquid depth measured in ex vivo fragments of pig and human trachea: dependence on Na+ and Cl− channel function

Author

Jae-Woo Lee, Wan Namkung, Alan S. Verkman, Walter E. Finkbeiner, Dennis W. Nielson, and Yuanlin Song

Subjects

Pulmonary and Respiratory Medicine, Epithelial sodium channel, Pathology, medicine.medical_specialty, Surface Properties, Physiology, Sus scrofa, Cystic Fibrosis Transmembrane Conductance Regulator, In Vitro Techniques, Sodium Channels, Amiloride, Chloride Channels, Physiology (medical), otorhinolaryngologic diseases, medicine, Animals, Humans, Respiratory system, Cells, Cultured, biology, Chemistry, Reproducibility of Results, Cell Differentiation, Epithelial Cells, Articles, Cell Biology, respiratory system, Cystic fibrosis transmembrane conductance regulator, Trachea, Nasal Mucosa, medicine.anatomical_structure, Chloride channel, biology.protein, Biophysics, Respiratory epithelium, Porosity, Ex vivo, medicine.drug, Respiratory tract

Abstract

The airway surface liquid (ASL) is the thin fluid layer lining the airways whose depth may be reduced in cystic fibrosis. Prior measurements of ASL depth have been made in airway epithelial cell cultures. Here, we established methodology to measure ASL depth to approximately 1-microm accuracy in ex vivo fragments of freshly obtained human and pig tracheas. Airway fragments were mounted in chambers designed for perfusion of the basal surface and observation of the apical, fluorescently stained ASL by scanning confocal microscopy using a high numerical aperture lens immersed in perfluorocarbon. Measurement accuracy was verified using standards of specified fluid thickness. ASL depth in well-differentiated primary cultures of human nasal respiratory epithelium was 8.0 +/- 0.5 microm (SE 10 cultures) under basal conditions, 8.4 +/- 0.4 microm following ENaC inhibition by amiloride, and 14.5 +/- 1.2 microm following CFTR stimulation by cAMP agonists. ASL depth in human trachea was 7.0 +/- 0.7 microm under basal conditions, 11.0 +/- 1.7 microm following amiloride, 17.0 +/- 3.4 microm following cAMP agonists, and 7.1 +/- 0.5 microm after CFTR inhibition. Similar results were found in pig trachea. This study provides the first direct measurements of ASL depth in intact human airways and indicates the involvement of ENaC sodium channels and CFTR chloride channels in determining ASL depth. We suggest that CF lung disease may be caused by the inability of CFTR-deficient airways to increase their ASL depth transiently following secretory stimuli that in non-CF airways produce transient increases in ASL depth.

Published

2009

2. Phenotype analysis of aquaporin-8 null mice

Author

Alan S. Verkman, Baoxue Yang, Yuanlin Song, and Dan Zhao

Subjects

Male, Genetically modified mouse, Cholera Toxin, medicine.medical_specialty, Pathology, Cell Membrane Permeability, Physiology, Aquaporin, Biology, Aquaporins, Ion Channels, Salivary Glands, Kidney Concentrating Ability, Mice, Internal medicine, Testis, medicine, Animals, Diet, Fat-Restricted, Hypertriglyceridemia, Mice, Knockout, Gastrointestinal tract, Kidney, Salivary gland, Osmolar Concentration, Cell Biology, Water-Electrolyte Balance, Phenotype, Small intestine, medicine.anatomical_structure, Endocrinology, Pancreas

Abstract

Aquaporin-8 (AQP8) is a water-transporting protein expressed in organs of the mammalian gastrointestinal tract (salivary gland, liver, pancreas, small intestine, and colon) and in the testes, heart, kidney, and airways. We studied the phenotype of AQP8-null mice, and mice lacking AQP8, together with AQP1 or AQP5. AQP8-knockout mice lacked detectable AQP8 transcript and protein, and had reduced water permeability in plasma membranes from testes. Breeding of AQP8 heterozygous mice yielded AQP8-null mice, whose number, survival, and growth were not different from those of wild-type mice. Organ weight and serum/urine chemistries were similar in wild-type and AQP8-null mice, except for increased testicular weight in the null mice (4.8 ± 0.7 vs. 7.3 ± 0.3 mg/g body wt). Urinary concentrating ability in AQP8-null mice was unimpaired as assessed by urine osmolality (3,590 ± 360 mosmol/kgH2O) and weight loss (22 ± 2%) after 36-h water deprivation; urinary concentrating ability was similarly impaired in AQP1-null mice vs. AQP8/AQP1 double-knockout mice. Agonist-driven fluid secretion in salivary gland was not different in AQP8 vs. wild-type mice (∼1 μl·min−1·g body wt−1) or in AQP5-null mice vs. AQP8/AQP5 double-knockout mice. Closed intestinal loop measurements in vivo indicated unimpaired osmotically driven water transport, active fluid absorption, and cholera toxin-driven fluid secretion in AQP8-null mice. After 21 days on a 50% fat diet, wild-type and AQP8-null mice had similar weight gain (∼15 g), with no evidence of steatorrhea or abnormalities in blood chemistries, except for mild hypertriglyceridemia in the null mice. The mild phenotype of AQP8-null mice was surprising in view of the multiple phenotype abnormalities found in mouse models of AQP1–5 deficiency.

Published

2005

3. Fluid transport across cultured rat alveolar epithelial cells: a novel in vitro system

Author

Jan Hirsch, Michael A. Matthay, Yuanlin Song, Xiaohui Fang, and Rachel L. Zemans

Subjects

Male, Pulmonary and Respiratory Medicine, Pathology, medicine.medical_specialty, Physiology, Biology, Amiloride, Rats, Sprague-Dawley, Albumins, Physiology (medical), Electric Impedance, medicine, Animals, Mannitol, Enzyme Inhibitors, Respiratory system, Ouabain, A549 cell, Lung, Biological Transport, Cell Biology, Fluid transport, Epithelium, In vitro, Body Fluids, Rats, Cell biology, Pulmonary Alveoli, Phenotype, medicine.anatomical_structure, In vitro system, Sodium-Potassium-Exchanging ATPase, Sodium Channel Blockers

Abstract

Previous studies have used fluid-instilled lungs to measure net alveolar fluid transport in intact animal and human lungs. However, intact lung studies have two limitations: the contribution of different distal lung epithelial cells cannot be studied separately, and the surface area for fluid absorption can only be approximated. Therefore, we developed a method to measure net vectorial fluid transport in cultured rat alveolar type II cells using an air-liquid interface. The cells were seeded on 0.4-μm microporous inserts in a Transwell system. At 96 h, the transmembrane electrical resistance reached a peak level (1,530 ± 115 Ω·cm2) with morphological evidence of tight junctions. We measured net fluid transport by placing 150 μl of culture medium containing 0.5 μCi of 131I-albumin on the apical side of the polarized cells. Protein permeability across the cell monolayer, as measured by labeled albumin, was 1.17 ± 0.34% over 24 h. The change in concentration of 131I-albumin in the apical fluid was used to determine the net fluid transported across the monolayer over 12 and 24 h. The net basal fluid transport was 0.84 μl·cm−2·h−1. cAMP stimulation with forskolin and IBMX increased fluid transport by 96%. Amiloride inhibited both the basal and stimulated fluid transport. Ouabain inhibited basal fluid transport by 93%. The cultured cells retained alveolar type II-like features based on morphologic studies, including ultrastructural imaging. In conclusion, this novel in vitro system can be used to measure net vectorial fluid transport across cultured, polarized alveolar epithelial cells.

Published

2004

4. Role of airway surface liquid and submucosal glands in cystic fibrosis lung disease

Author

Yuanlin Song, Jay R. Thiagarajah, and Alan S. Verkman

Subjects

Exocrine gland, Pathology, medicine.medical_specialty, Pancreatic disease, Cystic Fibrosis, Surface Properties, Physiology, Cystic Fibrosis Transmembrane Conductance Regulator, Respiratory Mucosa, Biology, Cystic fibrosis, Exocrine Glands, medicine, Animals, Humans, Lung, Submucosal glands, Respiratory disease, Cell Biology, respiratory system, medicine.disease, Cystic fibrosis transmembrane conductance regulator, respiratory tract diseases, medicine.anatomical_structure, Chloride channel, biology.protein

Abstract

Cystic fibrosis (CF) is caused by mutations in the CF transmembrane conductance regulator (CFTR) protein, an epithelial chloride channel expressed in the airways, pancreas, testis, and other tissues. A central question is how defective CFTR function in CF leads to chronic lung infection and deterioration of lung function. Several mechanisms have been proposed to explain lung disease in CF, including abnormal airway surface liquid (ASL) properties, defective airway submucosal gland function, altered inflammatory response, defective organellar acidification, loss of CFTR regulation of plasma membrane ion transporters, and others. This review focuses on the physiology of the ASL and submucosal glands with regard to their proposed role in CF lung disease. Experimental evidence for defective ASL properties and gland function in CF is reviewed, and deficiencies in understanding ASL/gland physiology are identified as areas for further investigation. New model systems and measurement technologies are being developed to make progress in establishing lung disease mechanisms in CF, which should facilitate mechanism-based design of therapies for CF.

Published

2003

5. Airway surface liquid pH in well-differentiated airway epithelial cell cultures and mouse trachea

Author

Alan S. Verkman, Sujatha Jayaraman, and Yuanlin Song

Subjects

Pathology, medicine.medical_specialty, Physiology, Sodium, chemistry.chemical_element, Glibenclamide, Mice, chemistry.chemical_compound, pH indicator, otorhinolaryngologic diseases, medicine, Animals, Respiratory system, Cells, Cultured, Nitrobenzenes, Ion transporter, Fluorescent Dyes, Acid-Base Equilibrium, Chromatography, Cell Differentiation, Epithelial Cells, Cell Biology, Hydrogen-Ion Concentration, Fluoresceins, Body Fluids, Amiloride, Trachea, Kinetics, Microscopy, Fluorescence, chemistry, DIDS, Cattle, Acid–base reaction, medicine.drug

Abstract

Airway surface liquid (ASL) pH has been proposed to be important in the pathophysiology of cystic fibrosis, asthma, and cough. Ratio image analysis was used to measure pH in the ASL after staining with the fluorescent pH indicator 2′,7′-bis(2-carboxyethyl)-5(6)-carboxyfluorescein (BCECF)-dextran. ASL pH in bovine airway cell cultures grown at an air-liquid interface was 6.98 ± 0.06 in the absence and 6.81 ± 0.04 in the presence of HCO[Formula: see text]/CO2. Steady-state ASL pH changed in parallel to changes in bath pH and was acidified by Na+ or Cl− replacement but was not affected by the inhibitors amiloride, glibenclamide, or 4,4′-dinitrostilbene-2,2′-disulfonic acid. In response to sudden acidification or alkalization of the ASL by ∼0.4 pH units by HCl/NaOH, ASL pH recovered to its initial value at a rate of 0.035 pH units/min (−HCO[Formula: see text]) and 0.060 pH units/min (+HCO[Formula: see text]); the pH recovery rate was reduced by amiloride and H2DIDS. In anesthetized mice in which the trachea was surgically exposed for measurement of BCECF-dextran fluorescence through the translucent tracheal wall, ASL pH was 7.14 ± 0.01. ASL pH was sensitive to changes in blood pH created by metabolic (HCl or NaHCO3 infusion) or respiratory (hyperventilation, hypoventilation) mechanisms. ASL pH is thus primarily determined by basolateral fluid pH, and H+/OH− transport between the ASL and basolateral fluid involves amiloride-sensitive Na+/H+ exchange and stilbene-sensitive Cl−/HCO[Formula: see text] exchange. The rapid response of ASL pH to changes in systemic acid-base status may contribute to airway hypersensitivity in asthma and other airway diseases.

Published

2001

6. Defective dietary fat processing in transgenic mice lacking aquaporin-1 water channels

Author

Alan S. Verkman, Jiang Li, Kasper S. Wang, Yuanlin Song, J. Augusto Bastidas, Sujatha Jayaraman, Baoxue Yang, and Tonghui Ma

Subjects

medicine.medical_specialty, Physiology, Digestive System Diseases, Transgene, Immunocytochemistry, Aquaporin, Mice, Transgenic, Biology, Aquaporins, Article, Eating, Mice, chemistry.chemical_compound, Internal medicine, Intestine, Small, medicine, Animals, Pancreas, Food, Formulated, Mice, Knockout, Water transport, Aquaporin 1, Triglyceride, Pancrelipase, Body Weight, Fatty Acids, Age Factors, Gallbladder, Lipase, Cell Biology, Dietary Fats, Small intestine, Celiac Disease, Endocrinology, medicine.anatomical_structure, Liver, chemistry, Digestive System

Abstract

Immunocytochemistry showed expression of aquaporin-1 (AQP1) water channels at sites involved in dietary fat processing, including intrahepatic cholangiocytes, gallbladder, pancreatic microvascular endothelium, and intestinal lacteals. To determine whether AQP1 has a role in dietary fat digestion and/or absorption, mice were placed on a diet that contained 50% fat. Whereas wild-type mice (3–3.5 wk of age, 10–12 g) gained 49 ± 5% (SE, n = 50) body weight in 8 days, and heterozygous mice gained 46 ± 4%, AQP1 null mice gained only 4 ± 3%; weights became similar after return to a 6% fat diet after 6 days. The null mice on a high-fat diet acquired an oily appearance, developed steatorrhea with increased stool triglyceride content, and manifested serum hypotriglyceridemia. Supplementation of the high-fat diet with pancreatic enzymes partially corrected the decreased weight gain in null mice. Absorption of [14C]oleic acid from small intestine was not affected by AQP1 deletion, as determined by blood radioactivity after duodenal infusion. Lipase activity in feces and small intestine was remarkably greater in AQP1 null than wild-type mice on low- and high-fat diets. Fluid collections done in older mice (that are less sensitive to a high-fat diet) by ductal cannulation showed threefold increased pancreatic fluid flow in response to secretin/cholecystokinin, but volumes, pH, and amylase activities were affected little by AQP1 deletion, nor were bile flow rates and bile salt concentrations. Together, these results establish a dietary fat misprocessing defect in AQP1 null mice.

Published

2001

7. Aquaporin water channels and lung physiology

Author

Alan S. Verkman, Michael A. Matthay, and Yuanlin Song

Subjects

Pulmonary and Respiratory Medicine, Pathology, medicine.medical_specialty, Lung, Water transport, Physiology, Water, Aquaporin, Cell Biology, Respiratory physiology, respiratory system, Biology, Aquaporins, Fluid transport, respiratory tract diseases, Cell biology, medicine.anatomical_structure, Physiology (medical), medicine, Animals, Humans, Membrane channel, Pulmonary alveolus, Respiratory system

Abstract

Fluid transport across epithelial and endothelial barriers occurs in the neonatal and adult lungs. Biophysical measurements in the intact lung and cell isolates have indicated that osmotic water permeability is exceptionally high across alveolar epithelia and endothelia and moderately high across airway epithelia. This review is focused on the role of membrane water-transporting proteins, the aquaporins (AQPs), in high lung water permeability and lung physiology. The lung expresses several AQPs: AQP1 in microvascular endothelia, AQP3 in large airways, AQP4 in large- and small-airway epithelia, and AQP5 in type I alveolar epithelial cells. Lung phenotype analysis of transgenic mice lacking each of these AQPs has been informative. Osmotically driven water permeability between the air space and capillary compartments is reduced ∼10-fold by deletion of AQP1 or AQP5 and reduced even more by deletion of AQP1 and AQP4 or AQP1 and AQP5 together. AQP1 deletion greatly reduces osmotically driven water transport across alveolar capillaries but has only a minor effect on hydrostatic lung filtration, which primarily involves paracellular water movement. However, despite the major role of AQPs in lung osmotic water permeabilities, AQP deletion has little or no effect on physiologically important lung functions, such as alveolar fluid clearance in adult and neonatal lung, and edema accumulation after lung injury. Although AQPs play a major role in renal and central nervous system physiology, the data to date on AQP knockout mice do not support an important role of high lung water permeabilities or AQPs in lung physiology. However, there remain unresolved questions about possible non-water-transporting roles of AQPs and about the role of AQPs in airway physiology, pleural fluid dynamics, and edema after lung infection.

Published

2000

8. Human mesenchymal stem cells reduce mortality and bacteremia in gram-negative sepsis in mice in part by enhancing the phagocytic activity of blood monocytes

Author

Naveen Gupta, Jae-Woo Lee, Mario Petrini, Anna Krasnodembskaya, Xiao Su, Gianluca Samarani, Yuanlin Song, Hanjing Zhuo, and Michael A. Matthay

Subjects

Pulmonary and Respiratory Medicine, Male, Physiology, Phagocytosis, Colony Count, Microbial, Peritonitis, Spleen, Bacteremia, Mesenchymal Stem Cell Transplantation, Monocytes, Sepsis, Mice, Antigens, CD, Physiology (medical), medicine, Animals, Humans, biology, Macrophages, Mesenchymal stem cell, Mesenchymal Stem Cells, Cell Biology, Articles, Fibroblasts, medicine.disease, Mice, Inbred C57BL, Survival Rate, Disease Models, Animal, medicine.anatomical_structure, Integrin alpha M, Immunology, Injections, Intravenous, Pseudomonas aeruginosa, biology.protein, Cytokines, CD163

Abstract

The potential therapeutic value of cell-based therapy with mesenchymal stem cells (MSC) has been reported in mouse models of polymicrobial peritoneal sepsis. However, the mechanisms responsible for the beneficial effects of MSC have not been well defined. Therefore, we tested the therapeutic effect of intravenous bone marrow-derived human MSC in peritoneal sepsis induced by gram-negative bacteria. At 48 h, survival was significantly increased in mice treated with intravenous MSC compared with control mice treated with intravenous fibroblasts (3T3) or intravenous PBS. There were no significant differences in the levels of TNF-α, macrophage inflammatory protein 2, or IL-10 in the plasma. However, there was a marked reduction in the number of bacterial colony-forming units of Pseudomonas aeruginosa in the blood of MSC-treated mice compared with the 3T3 and PBS control groups. In addition, phagocytic activity was increased in blood monocytes isolated from mice treated with MSC compared with the 3T3 and PBS groups. Furthermore, levels of C5a anaphylotoxin were elevated in the blood of mice treated with MSC, a finding that was associated with upregulation of the phagocytosis receptor CD11b on monocytes. The phagocytic activity of neutrophils was not different among the groups. There was also an increase in alternately activated monocytes/macrophages (CD163- and CD206-positive) in the spleen of the MSC-treated mice compared with the two controls. Thus intravenous MSC increased survival from gram-negative peritoneal sepsis, in part by a monocyte-dependent increase in bacterial phagocytosis.

Published

2012

9. Integrin αvβ5 inhibition protects against ischemia-reperfusion-induced lung injury in an autophagy-dependent manner.

Author

Dan Zhang, Chichi Li, Yuanlin Song, Jian Zhou, Yuping Li, Jing Li, and Chunxue Bai

Subjects

INTEGRINS, ISCHEMIA, LUNG injuries

Abstract

Integrin αvβ5 mediates pulmonary endothelial barrier function and acute lung injury (LI), but its roles in cell apoptosis and autophagy are unclear. Thus, the aims of this study were to investigate the significance of αvβ5 in ischemia-reperfusion (I/R)-induced apoptosis and LI and to explore the relationship between αvβ5 and autophagy. Human pulmonary microvascular endothelial cells (HPMVECs) were pretreated with an αvβ5-blocking antibody (ALULA) and challenged with oxygen-glucose deprivation/oxygen-glucose restoration, which mimics I/R; then, cellular autophagy and apoptosis were detected, and cell permeability was assessed. In vivo, mice were pretreated with the autophagy inhibitor chloroquine (CLQ), followed by treatment with ALULA. The mice then underwent operative lung I/R. LI was assessed by performing a pathological examination, calculating the wet/dry lung weight ratio and detecting the bronchial alveolar lavage fluid (BALF) protein concentration. αvβ5 inhibition promoted HPMVEC autophagy under I/R in vitro, alleviated cell permeability, decreased the apoptosis ratio, and activated caspase-3 expression. These outcomes were significantly diminished when autophagy was inhibited with a small-interfering RNA construct targeting autophagy-related gene 7 (siATG7). Moreover, ALULA pretreatment alleviated I/R-induced LI (I/R-LI), which manifested as a decreased wet/dry lung weight ratio, an altered BALF protein concentration, and lung edema. Preinhibiting autophagy with CLQ, however, eliminated the protective effects of ALULA on I/R-LI. Therefore, inhibiting αvβ5 effectively ameliorated I/R-induced endothelial cell apoptosis and I/R-LI. This process was dependent on improved autophagy and its inhibitory effects on activated caspase-3. [ABSTRACT FROM AUTHOR]

Published

2017

10. Corrigendum

Author

Rachel L. Zemans, Yuanlin Song, Michael A. Matthay, Luis J. V. Galietta, Xiaohui Fang, Alan S. Verkman, Jan Hirsch, Gregory Dolganov, and Nicoletta Pedemonte

Subjects

Pulmonary and Respiratory Medicine, Pathology, medicine.medical_specialty, Lung, Physiology, Cell Biology, Biology, Fluid transport, Cell biology, medicine.anatomical_structure, Physiology (medical), medicine, Molecular physiology

Published

2006

11. Human mesenchymal stem cells reduce mortality and bacteremia in gram-negative sepsis in mice in part by enhancing the phagocytic activity of blood monocytes.

Author

Krasnodembskaya, Anna, Samarani, Gianluca, Yuanlin Song, Hanjing Zhuo, Xiao Su, Jae-Woo Lee, Gupta, Naveen, Petrini, Mario, and Matthay, Michael A.

Abstract

The potential therapeutic value of cell-based therapy with mesenchymal stem cells (MSC) has been reported in mouse models of polymicrobial peritoneal sepsis. However, the mechanisms responsible for the beneficial effects of MSC have not been well defined. Therefore, we tested the therapeutic effect of intravenous bone marrow-derived human MSC in peritoneal sepsis induced by gram-negative bacteria. At 48 h, survival was significantly increased in mice treated with intravenous MSC compared with control mice treated with intravenous fibroblasts (3T3) or intravenous PBS. There were no significant differences in the levels of TNF-α, macrophage inflammatory protein 2, or IL-10 in the plasma. However, there was a marked reduction in the number of bacterial colony-forming units of Pseudomonas aeruginosa in the blood of MSC-treated mice compared with the 3T3 and PBS control groups. In addition, phagocytic activity was increased in blood monocytes isolated from mice treated with MSC compared with the 3T3 and PBS groups. Furthermore, levels of C5a anaphylotoxin were elevated in the blood of mice treated with MSC, a finding that was associated with upregulation of the phagocytosis receptor CD11b on monocytes. The phagocytic activity of neutrophils was not different among the groups. There was also an increase in alternately activated monocytes/macrophages (CD163- and CD206-positive) in the spleen of the MSC-treated mice compared with the two controls. Thus intravenous MSC increased survival from gram-negative peritoneal sepsis, in part by a monocyte-dependent increase in bacterial phagocytosis. [ABSTRACT FROM AUTHOR]

Published

2012

12. Reduced urea flux across the blood-testis barrier and early maturation in the male reproductive system in UT-B-null mice.

Author

Lirong Guo, Dan Zhao, Yuanlin Song, Yan Meng, Huashan Zhao, Xuejian Zhao, and Baoxue Yang

Subjects

UREA, SERTOLI cells, TESTIS, SPERMATOGENESIS, GENITALIA, BLOOD flow

Abstract

A urea-selective urine-concentrating defect was found in transgenic mice deficient in urea transporter (UT)-B. To determine the role of facilitated urea transport in extra- renal organs expressing UT-B, we studied the kinetics of [14C]urea distribution in UT-B-null mice versus wild-type mice. After renal blood flow was disrupted, [14]urea distribution was selectively reduced in testis in UT-B-null mice. Under basal conditions, total testis urea content was 335.4 ± 43.8 µg in UT-B-null mice versus 196.3 ± 18.2 µg in wild-type mice (P < 0.01). Testis weight in UT-B-null mice (6.6 ± 0.8 mg/g body wt) was significantly greater than in wild-type mice (4.2 ± 0.8 mg/g body wt). Elongated spermatids were observed earlier in UT-B-null mice compared with wild type mice on day 24 versus day 32, respectively. First breeding ages in UT-B knockout males (48 ± 3 days) were also significantly earlier than that in wild-type males (56 ± 2 days). In competing mating tests with wild-type males and UT-B-null males, all pups carried UT-B-targeted genes, which indicates that all pups were produced from breeding of UT-B-null males. Experiments of the expression of follicle-stimulating hormone receptor (FSHR) and androgen binding protein (ABP) indicated that the development of Sertoli cells was also earlier in UT-B-null mice than that in wild-type mice. These results suggest that UT-B plays an important role in eliminating urea produced by Sertoli cells and that UT-B deletion causes both urea accumulation in the testis and early maturation of the male reproductive system. The UT-B knockout mouse may be a useful experimental model to define the molecular mechanisms of early puberty. [ABSTRACT FROM AUTHOR]

Published

2007

13. Hyperacidity of secreted fluid from submucosal glands in early cystic fibrosis.

Author

Yuanlin Song, Salinas, Danieli, Nielson, Dennis W., and Verkman, A. S.

Subjects

*CYSTIC fibrosis, *LUNG diseases, *BODY fluids, *HYDROGEN-ion concentration, *AIRWAY (Anatomy), *BIOPSY

Abstract

Prior studies have shown that fluid secretions from airway submucosal glands in cystic fibrosis (CF) are reduced and hyperviscous, possibly contributing to the pathogenesis of CF airway disease. Because the CF transmembrane conductance regulator (CFTR) protein can transport both chloride and bicarbonate, we investigated whether gland fluid pH is abnormal in early CF, using nasal biopsies from pediatric subjects having minimal CF lung disease. Gland fluid pH, measured in freshly secreted droplets under oil stained with BCECF-dextran, was 6.57 ± 0.09 (mean ± SE) in biopsies from six CF subjects, significantly lower than 7.18 ± 0.06 in eight non-CF biopsies (P < 0.01). To rule out the possibility that the apparent gland fluid hyperacidity in CF results from modification of fluid pH by the airway surface, a microcannulation method was used to measure pH in fluid exiting gland orifices. In pig trachea and human bronchi, gland fluid pH was reduced by up to 0.45 units by CFTR inhibitors, but was not affected by amiloride. Acid base transport in the surface epithelium of pig trachea was studied from pH changes in 300-nl fluid droplets deposited onto the oil-covered airway surface. The droplets had specified ionic composition/pH and/or contained transporter activators/inhibitors. We found evidence for CFTR-dependent bicarbonate transport by the tracheal surface epithelium as well as ATP/histamine-stimulated proton secretion, but not for sodium/proton or chloride/bicarbonate exchange. These results provide evidence for intrinsic hyper- acidity in CF gland fluid secretions, which may contribute to CF airway pathology. [ABSTRACT FROM AUTHOR]

Published

2006

14. Contribution of CFTR to apical-basolateral fluid transport in cultured human alveolar epithelial type II cells.

Author

Xiaohui Fang, Yuanlin Song, Hirsch, Jan, Galietta, Luis J. V., Pedemonte, Nicoletta, Zemans, Rachel L., Dolganov, Gregory, Verkman, A. S., and Matthay, Michael A.

Subjects

*LUNG disease diagnosis, *EPITHELIAL cells, *EXTRACELLULAR matrix proteins, *CHLORIDE channels, *GENE expression, *BIOLOGICAL membranes

Abstract

Previous studies in intact lung suggest that CFTR may play a role in cAMP-regulated fluid transport from the distal air spaces of the lung. However, the potential contribution of different epithelial cells (alveolar epithelial type I, type TI, or bronchial epithelial cells) to CFTR-regulated fluid transport is unknown. In this study we determined whether the CFTR gene is expressed in human lung alveolar epithelial type II (AT II) cells and whether the CFTR chloride channel contributes to cAMP-regulated fluid transport in cultured human AT II cells. Human AT II cells were isolated and cultured on collagen I-coated Transwell membranes for 120-144 h with an air-liquid interface. The cultured cells retained typical AT H-like features based on morphologic studies. Net basal fluid transport was 0.9 ± 0.1 μl·m-2 h-1 and increased to 1.35 ± 0.11 μlcm-2h-1 (mean ± SE, n = 18, P < 0.05) by stimulation with cAMP agonists. The CFTR inhibitor, CFTRinh-172, inhibited cAMP stimulated but not basal fluid transport. In short-circuit current (Lsc) studies with an apical-to-basolateral transepithelial CI- gradient, apical application of CFTRinh-172 reversed the forskolin-induced decrease in Isc. Real time RT-PCR demonstrated CFFR transcript expression in human AT II cells at a level similar to that in airway epithelial cells. We conclude that CFTR is expressed in cultured human AT II cells and may contribute to cAMP-regulated apical-basolateral fluid transport. [ABSTRACT FROM AUTHOR]

Published

2006

15. Phenotype analysis of aquaporin-8 null mice.

Author

Baoxue Yang, Yuanlin Song, Dan Zhao, and Verkman, A S.

Subjects

*AQUAPORINS, *PHENOTYPES, *PROTEINS, *GASTROINTESTINAL system, *LABORATORY mice, *CELL membranes, *SECRETION, *BIOLOGICAL transport

Abstract

Aquaporin-8 (AQP8) is a water-transporting protein expressed in organs of the mammalian gastrointestinal tract (salivary gland, liver, pancreas, small intestine, and colon) and in the testes, heart, kidney, and airways. We studied the phenotype of AQP8-null mice, and mice lacking AQP8, together with AQP1 or AQP5. AQP8-knockout mice lacked detectable AQP8 transcript and protein, and had reduced water permeability in plasma membranes from testes. Breeding of AQP8 heterozygous mice yielded AQP8-null mice, whose number, survival, and growth were not different from those of wild-type mice. Organ weight and serum/urine chemistries were similar in wild-type and AQP8-null mice, except for increased testicular weight in the null mice (4.8 ± 0.7 vs. 7.3 ± 0.3 mg/g body wt). Urinary concentrating ability in AQP8-null mice was unimpaired as assessed by urine osmolality (3,590 ± 360 mosmol/ kgH2O) and weight loss (22 ± 2%) after 36-h water deprivation; urinary concentrating ability was similarly impaired in AQP1-null mice vs. AQP8/AQP1 double-knockout mice. Agonist-driven fluid secretion in salivary gland was not different in AQP8 vs. wild-type mice (∼1 µl·min-1·g body wt-1) or in AQP5-null mice vs. AQP8/ AQP5 double-knockout mice. Closed intestinal loop measurements in vivo indicated unimpaired osmotically driven water transport, active fluid absorption, and cholera toxin-driven fluid secretion in AQP8-null mice. After 21 days on a 50% fat diet, wild-type and AQP8-null mice had similar weight gain (∼15 g), with no evidence of steatorrhea or abnormalities in blood chemistries, except for mild hypertriglyceridemia in the null mice. The mild phenotype of AQP8-null mice was surprising in view of the multiple phenotype abnormalities found in mouse models of AQP1-5 deficiency. [ABSTRACT FROM AUTHOR]

Published

2005

16. Fluid transport across cultured rat alveolar epithelial cells: a novel in vitro system.

Author

Xiaohui Fang, Yuanlin Song, Zemans, Rachel, Hirsch, Jan, and Matthay, Michael A.

Subjects

*BODY fluids, *PROTEINS, *PERMEABILITY, *EDEMA, *EPITHELIAL cells, *CELL culture, *ALBUMINS

Abstract

Fang, Xiaohui, Yuanlin Song, Rachel Zemans, Jan Hirsch, and Michael A. Matthay. Fluid transport across cultured rat alveolar epithelial cells: a novel in vitro system. Am J Physiol Lung Cell Mol Physiol 287: L104-L110, 2004. First published February 27, 2004; 10.1152/ajplung.00176.2003.--Previous studies have used fluid-in- stilled lungs to measure net alveolar fluid transport in intact animal and human lungs. However, intact lung studies have two limitations: the contribution of different distal lung epithelial cells cannot be studied separately, and the surface area for fluid absorption can only be approximated. Therefore, we developed a method to measure net vectorial fluid transport in cultured rat alveolar type II cells using an air-liquid interface. The cells were seeded on 0.4-μm microporous inserts in a Transwell system. At 96 h, the transmembrane electrical resistance reached a peak level (1,530 ± 115 Ω·cm2) with morpho- logical evidence of tight junctions. We measured net fluid transport by placing 150 μl of culture medium containing 0.5 μCi of 131I-albumin on the apical side of the polarized cells. Protein permeability across the cell monolayer, as measured by labeled albumin, was 1.17 ± 0.34% over 24 h. The change in concentration of 131I-albumin in the apical fluid was used to determine the net fluid transported across the monolayer over 12 and 24 h. The net basal fluid transport was 0.84 μl·cm-2·h-1. cAMP stimulation with forskolin and IBMX increased fluid transport by 96%. Amiloride inhibited both the basal and stimulated fluid transport. Ouabain inhibited basal fluid transport by 93%. The cultured cells retained alveolar type II-like features based on morphologic studies, including ultrastructural imaging. In conclusion, this novel in vitro system can be used to measure net vectorial fluid transport across cultured, polarized alveolar epithelial cells. [ABSTRACT FROM AUTHOR]

Published

2004

17. Airway surface liquid pH in well-differentiated airway epithelial cell cultures and mouse trachea.

Author

Jayaraman, Sujatha, Yuanlin Song, and Verkman, A.S.

Subjects

*HYDROGEN-ion concentration, *EPITHELIAL cells

Abstract

Characterizes airway surface liquid hydrogen-ion concentration (pH) airway epithelial cell cultures and mouse trachea. Methods in the conduct of the study; Evaporation of perfluorocarbon; Manifestation of fluorescence in the tracheal wall; Reduction of pH recovery rate by amiloride.

Published

2001

18. Defective dietary fat processing in transgenic mice lacking aquaporin-1 water channels.

Author

Tonghui Ma, Jayaraman, Sujatha, Wang, Kasper S., Yuanlin Song, Baoxue Yang, Jiang Li, Bastidas, J. Augusto, and Verkman, A.S.

Subjects

FOOD of animal origin -- Fat content, TRANSGENIC mice

Abstract

Examines the lack of aquaporin-1 water channels in the processing of dietary fat in transgenic mice. Employment of immunocytochemistry in detecting the presence of aquaporin-1; Factors leading to dietary fat processing abnormality.

Published

2001

19. Role of aquaporin water channels in pleural fluid dynamics.

Author

Yuanlin Song and Baoxue Yang

Subjects

*FLUID dynamics, *PLEURA

Abstract

Examines the role of aquaporin water channels in pleural fluid dynamics. Aquaporin expression in pleura; Osmotically induced water transport across the pleural barrier; Isosmolar fluid absorption from the pleural space.

Published

2000