Mucociliary clearance system is the primary innate defense mechanism of the lung. It plays a vital role in protecting airways from microbes and irritants infection. Mucociliary clearance system, which is mediated by the actions of airway and submucosal gland epithelial cells, plays a critical role in a multilayered defense system via secreting fluids, electrolytes, antimicrobial and anti-inflammatory proteins, and mucus onto airway surfaces. Changes in environment, drugs or diseases can lead to mucus overproduction and cilia dysfunction, which in turn decrease the rate of mucociliary clearance and enhance mucus gathering. The dysfunction of mucociliary clearance system often occurs in several respiratory diseases, such as primary ciliary dysfunction, cystic fibrosis, asthma and chronic obstructive pulmonary disease, which are characterized by goblet cell metaplasia, submucosal gland cell hypertrophy, mucus hypersecretion, cilia adhesion, lodging and loss, and airway obstruction.
Humans ; Mucociliary Clearance ; Respiratory Tract Diseases ; Pulmonary Disease, Chronic Obstructive/metabolism* ; Mucus/metabolism* ; Lung ; Respiratory System

Animals ; Humans ; Thymic Stromal Lymphopoietin ; Pyroglyphidae/metabolism* ; Cytokines/metabolism* ; Asthma/metabolism* ; Respiratory System ; Epithelial Cells/metabolism*

Allergic airway diseases have been identified as chronic inflammatory diseases of respiratory membranes, characterized by infiltration of many inflammatory cells, especially eosinophils. The expression of CCR3 is abundant on the cell surface of eosinophils. Increased accumulation of CCR3-driven inflammatory cells is thought to favor the development of allergy. In this review, we survey the properties of CCR3 and its ligands and highlight the roles of CCR3 signaling in allergic airway diseases.
Animals ; Humans ; Hypersensitivity ; metabolism ; Receptors, CCR3 ; metabolism ; Respiratory System ; metabolism ; Signal Transduction

Arachidonic acid (AA) in the cell membrane produces a variety of metabolites by different enzymatic pathways. These lipid metabolites, along with other mediators, play an important role in the inflammatory processes. Many of them can bind directly to the receptors on the sensory endings and initiate electrical impulses to be transmitted to the central nervous system, causing reflex responses. These bioactive AA metabolites may also alter the lung mechanics (mechanical environment of the sensory ending), and in turn, stimulate sensory afferents. In addition, some metabolites may sensitize the sensory endings and make them more responsive to other mechanical or chemical stimulation. These metabolites may also induce other mediators and modulators to cause physiological effects. Furthermore, some of them may attract inflammatory cells to produce a localized effect. In short, AA metabolites may come from different sources and act through multiple pathways to stimulate airway sensors. This brief review is intended to illustrate the underlying mechanisms and help elucidate the inflammatory process in the airways.
Animals ; Arachidonic Acid ; metabolism ; Humans ; Inflammation ; physiopathology ; Respiratory Physiological Phenomena ; Respiratory System ; metabolism ; Sensory Receptor Cells ; physiology ; Vagus Nerve ; physiology

The experiments of this study was performed to investigate the effects of sulfur dioxide on the changes of glycoconjugates of respiratory system of the rat. Sprague -Dawley male rats weighing about 200 ~250g were divided into a control group and SO2 exposed groups. Again SO2 exposed groups were divided into 10 ppm, 25 ppm, 50 ppm, 100 ppm and 200 ppm subgroups according to concentrations of SO2 and each SO2 exposed groups were divided into 1, 3 and 6 hours groups. For the histological changes, H -E(hematoxylin -eosin) and PAS(periodic acid Schiff) staining were used and to investigate the change of sugar residues of glycoconjugates, biotinylated lectins(DBA, SBA, PNA, BSL -1, sWGA, UEA -1, LCA and Con A) were applied. Generally, the effects of SO2 on the rat nasal respiratory region were more serious at the high concentrations. Moreover, as the exposed time was longer even at the low concentrations, the effects of SO2 were similar to those of high concentration. Compared with all SO2 concentrations, the longer exposed time was, the more serious the effects of SO2 were. In the SO2 exposed groups the binding of PNA, RCA -1 and UEA -1 of cilia in the nasal septal respiratory epithelium tended to increase in the 10 ppm and 25 ppm SO2 exposed groups but it tended to decrease in the 100 ppm and 200 ppm SO2 exposed groups. In the cytoplasm of columnar cells of nasal septal respiratory epithelium, Con A binding increased in all the SO2 exposed groups. In the goblet cells DBA, SBA, PNA, RCA -1 and UEA -1 binding increased remarkably in the 50 ppm SO2 exposed groups but it decreased largely or disappeared in the 100 ppm and 200 ppm SO2 exposed groups. The binding of SBA, PNA, BSL -1, UEA -1 and Con A in the intraepithelial mucous cells which were not detected in the control group, increased in the 25 ppm and 50 ppm SO2 exposed groups while it tended to decrease in the 100 ppm and 200 ppm SO2 exposed groups. The binding of sWGA increased according to the concentrations of SO2 were higher and exposed times were longer. In the superior nasal septal gland, the binding of PNA increased in the 50 ppm and 100 ppm SO2 exposed groups and that of Con A increased in the 25 ppm and 50 ppm SO2 exposed groups. In the inferior nasal septal gland, except for LCA, the binding of the other lectins increased remarkably in the 25 ppm and 50 ppm SO2 exposed groups but it tended to decrease in the 100 ppm and 200 ppm SO2 groups. In the mucous duct cells, the reaction of PNA and RCA -1 increased compared with that of the control group. And the reaction of BSL -1 and UEA -1 increased in the lower concentrations of 50 ppm SO2 exposed group but it decreased in the 100 ppm and 200 ppm SO2 exposed groups. The binding of Con A increased in the 25 ppm and 50 ppm SO2 exposed groups. Consequently, from the results above mentioned that SO2 affected serious changes on glycoconjugates metabolism in the nasal cavity.
Animals ; Cilia ; Cytoplasm ; Glycoconjugates* ; Goblet Cells ; Humans ; Lectins ; Male ; Metabolism ; Nasal Cavity* ; Rats* ; Respiratory Mucosa* ; Respiratory System ; Sulfur Dioxide

Cell Line ; Glucocorticoids ; pharmacology ; HSP90 Heat-Shock Proteins ; metabolism ; Humans ; Mucin 5AC ; metabolism ; Respiratory System ; drug effects ; metabolism

OBJECTIVE: To compare adverse event reporting patterns between ethical-the-counter and over-the-counter drugs from community pharmacies and outpatient settings. METHODS: We conducted a descriptive study using the adverse event reporting database, wherein data were collected from the regional pharmacovigilance centers of the Korean Pharmaceutical Association between January 1, 2016 and December 31, 2016. The reported drugs were classified into either ethical-the-counter or over-thecounter drugs, and we compared the distribution of patient age and gender, frequent adverse events and medications, serious adverse events, and causality assessment results, where causality assessments were performed according to the World Health Organization-The Uppsala Monitoring Centre's system. RESULTS: We included 17,570 reports (75,451 drug-adverse event pairs). Ethical-the-counter and over-the-counter drugs accounted for 81.4% and 18.6% of the total adverse event reports, respectively. The use of over-the-counter drugs was higher in females and patients aged <18 years, whereas the use of ethical-the-counter drugs was higher in those aged >65 years. Alimentary tract and metabolism drugs, and respiratory system drugs were the most frequent ethical-the-counter and over-the-counter drugs, respectively. From causality assessment results, “possible” (75.4%) was the most commonly assigned category for ethical-the-counter drugs, while “possible” (44.0%) and “unlikely” (47.7%) were the most common categories for over-the-counter drugs. The distribution of serious adverse events were similar for both ethical-thecounter and over-the-counter drugs. CONCLUSION: Differences were observed in age, gender, reported medications, and symptoms for both ethical-the-counter and over-the-counter drugs. Further pharmacovigilance activities considering the adverse event characteristics of over-the-counter drugs, which are comparable to ethical-the-counter drugs, should be performed.
Female ; Global Health ; Humans ; Metabolism ; Nonprescription Drugs* ; Outpatients ; Pharmacies* ; Pharmacovigilance ; Prescription Drugs ; Respiratory System

The purpose of this study is to define requisite content of physiology for nursing education. This study classifies the subjects of physiology into 15 areas. The areas are cell and cell membrane, body fluid, nervous system, special sense, muscular system, blood, cardiovascular system, respiratory system, urinary system, digestive system. energy metabolism, body temperature, immune system. endocrine system, and reproductive system. Each subject area is further classified into subarea, resulting in a total of 194 subarea. The importance of each subarea is measured with a 3-point scale using a questionnaire. The subjects of this study were full-time professors teaching nursing in Korean universities. The analysis of the data collected from 68 respondents is as follows. 1. The areas of physiology necessary for nursing education in the order of importance are : body fluid, blood, endocrine, immune system, body temperature, urinary system, respiratory system, digestive system, reproductive system, energy metabolism, nervous system, cardiovascular system, cell and cell membrane, muscular system, and special sense. 2. Depending on the specific areas of nursing(such as pediatric nursing, maternity nursing), the importance of each physiology area may differ. For instance, the most important area for maternity nursing is reproductive physiology, whereas one for the psychiatric nursing is neurophysiology. 3. The importance of each physiology area does not determine the importance of its subarea. For example, while the importance of cell and cell membrane was relatively very low across the respondents from different areas of nursing science, the importance of such subarea as osmosis, diffusion, and filtration reported by most respondents were high.
Body Fluids ; Body Temperature ; Cardiovascular System ; Cell Membrane ; Surveys and Questionnaires ; Diffusion ; Digestive System ; Education, Nursing* ; Endocrine System ; Energy Metabolism ; Filtration ; Immune System ; Infant, Newborn ; Maternal-Child Nursing ; Nervous System ; Neurophysiology ; Nursing* ; Osmosis ; Pediatric Nursing ; Physiology* ; Pregnancy ; Psychiatric Nursing ; Respiratory System

PURPOSE: If cholesterol in the cell membrane is depleted by treating cells with methyl-beta-cyclodextrin (MbetaCD), the activities of transmembrane receptors are altered in a cell-specific and/or receptor-specific manner. The proinflammatory cytokines, IL-1beta is potent inducers of MUC5AC mRNA and protein synthesis in human airway epithelial cells. Cells activated by IL-1beta showed increased phosphorylation of extracellular signal regulated kinase (ERK) and p38 mitogen-activated protein kinase (MAPK). Thus, we investigated the effects of cholesterol depletion on the expression of MUC5AC in human airway epithelial cells and whether these alterations to MUC5AC expression were related to MAPK activity. MATERIALS AND METHODS: After NCI-H292 cells were pretreated with 1% MbetaCD before adding IL-1beta for 24 hours, MUC5AC mRNA expression was determined by reverse transcription-polymerase chain reaction (RT-PCR) and real time-PCR. Cholesterol depletion by MbetaCD was measured by modified microenzymatic fluorescence assay and filipin staining. The phosphorylation of IL-1 receptor, ERK and p38 MAPK, was analyzed by western blot. RESULTS: Cholesterol in the cell membrane was significantly depleted by treatment with MbetaCD on cells. IL-1beta-induced MUC5AC mRNA expression was decreased by MbetaCD and this decrease occurred IL-1-receptor-specifically. Moreover, we have shown that MbetaCD suppressed the activation of ERK1/2 and p38 MAPK in cells activated with IL-1beta. This result suggests that MbetaCD-mediated suppression of IL-1beta-induced MUC5AC mRNA operated via the ERK- and p38 MAPK-dependent pathway. CONCLUSION: Cholesterol depletion in NCI-H292 cell membrane may be considered an anti-hypersecretory method since it effectively inhibits mucus secretion of respiratory epithelial cells.
Cell Membrane/drug effects/*metabolism ; Cholesterol/*metabolism ; Epithelial Cells/metabolism ; Gene Expression ; Humans ; Mucin 5AC/genetics/*metabolism ; Respiratory System/*metabolism/pathology ; beta-Cyclodextrins/pharmacology

OBJECTIVETo observe the effect of repeated esophageal acid infusion on specific airway resistance (sRaw) and airway reactivity in the guinea pigs and explore the mechanism.

METHODSsRaw and airway reactivity were measured by double-chamber plethysmography in normal control group (group N), saline control group (group NS), and repeated acid irrigation group (group H). The initial measurement was used as the baseline sRaw and airway reactivity (1d1), and 2 h after the initial measurement, sRaw and airway reactivity were measured again (1d2). Similarly, such measurements were repeated on the 15th day for all the guinea pigs (15d1, 15d2) with a 2-h interval. The content of Substance P (SP) and vasoactive intestinal peptide (VIP) in lung tissue, trachea, BALF and ganglion were detected by ELISA.

RESULTSThe percent change of sRaw, (15d2-1d1)/1d1 in group H was significantly higher than that in group N. The differences in the airway reactivity of the group N, group NS, and group H were not statistically significant. The SP content in the lung, trachea, ganglion and bronchoalveolar lavage fluid (BALF) in group H was significantly higher than those in group N. The SP content in ganglion showed a significant positive correlation to that in the trachea. No significant differences were found in the VIP content in the lung, trachea, ganglion or BALF between the groups.

CONCLUSIONRepeated esophageal acid infusion increases the airway resistance, but not the airway reactivity in normal guinea pigs. SP may be involved in development of high sRaw through the esophageal-tracheobronchial reflex.

Airway Resistance ; Animals ; Bronchoalveolar Lavage Fluid ; chemistry ; Esophagus ; Gastroesophageal Reflux ; metabolism ; physiopathology ; Guinea Pigs ; Lung ; metabolism ; Male ; Respiratory System ; Substance P ; metabolism ; Trachea ; metabolism ; Vasoactive Intestinal Peptide ; metabolism