The present study aims to evaluate the anti-inflammatory effect of methanol extract from leaves of Carpinus tschonoskii (CE) on R848-stimulated primary bone marrow-derived macrophages (BMDMs) and dendritic cells (BMDCs). Primary BMDMs and BMDCs were used for pro-inflammatory cytokine production. Human embryonic kidney cell line 293T (HEK293T) was used to access NF-kappaB activity. In all cases, R848 was used to stimulate the cells. The CE (0~150 microg/ml) was treated to BMDMs, BMDCs, and HEK293T cells. CE pre-treatment in R848-stimulated BMDMs and BMDCs showed a dose-dependent inhibitory effect on pro-inflammatory cytokine (e.g., IL-12 p40, IL-6, and TNF-alpha) production as compared to non-treated controls. In NF-kappaB reporter gene assay, the CE pre-treatment inhibited NF-kappaB-dependent luciferase activity in a dose-dependent manner. Overall, our findings suggest that CE has significant inhibitory effect on pro-inflammatory cytokine production and deserve further studies concerning potentials of CE for medicinal uses.
Betulaceae ; Cell Line ; Corynebacterium ; Dendritic Cells ; Genes, Reporter ; Humans ; Interleukin-12 ; Interleukin-6 ; Kidney ; Luciferases ; Macrophages ; Methanol ; NF-kappa B

PURPOSE: The aim of this study was to evaluate hidden allergens of acute idiopathic urticaria (AIU) in childhood by using the component-resolved diagnostics (CRD). METHODS: We applied CRD using pathogenesis-related protein family number 10 (PR-10) and nonspecific lipid transfer proteins (nsLTP). RESULTS: Twenty-two of the 74 AIU children (29.7%) were found to be positive on CRD. Ten children were positive to nMal d 1 for apple (value range, 1.10–40.59), 6 to rConr a 1 for hazelnut (1.53–11.97), 4 to rPru p 1 for peach (1.32–11.83). 6 to rAra h 8 for peanut (1.20–8.12), 6 to nAct d 8 for kiwi (0.85–3.32), 4 to rBet v 1 for birch (2.49–54.28), and 3 to rAln g 1 for alder (2.32–5.74). Six children were positive to nPru p 3 for peach (1.45–18.77), 4 to rCor a 8 for hazelnut (2.56–9.19), 2 to nArt v 3 for mugwort (3.40–7.42), and 3 to rBet v2 to profilin of birch (2.56–17.46). Ten children with AIU were positive to multiple component proteins. For hazelnut, 5 children were positive to PR-10 (rConr a 1) and nsLTP (rConr a 1). For peach, 3 children were positive to PR-10 (rPru p 1) and nsLTP (nPru p 3). CONCLUSION: IgE sensitization to PR-10 or nsLTP may be allergen components for AIU in childhood.
Allergens ; Alnus ; Arachis ; Artemisia ; Betula ; Child* ; Corylus ; Diagnosis ; Humans ; Immunoglobulin E ; Profilins ; Prunus persica ; Urticaria*

Inflammation is the immune system's response to infection and injury-related disorders, and is related to pro-inflammatory factors (NO, PGE2, cytokines, etc.) produced by inflammatory cells. Atopic dermatitis (AD) is a representative inflammatory skin disease that is characterized by increasing serum levels of inflammatory chemokines, including macrophage-derived chemokine (MDC). Carpinus tschonoskii is a member of the genus Carpinus. We investigated the anti-inflammatory activity of C. tschonoskii by studying the effects of various solvent fractions prepared from its leaves on inflammatory mediators in HaCaT and RAW264.7 cells. We found that the chloroform fraction of C. tschonoskii inhibited MDC at both the protein and mRNA levels in HaCaT cells, acting via the inhibition of STAT1 in the IFN-gamma signaling pathway. In addition, the chloroform fraction significantly suppressed the expression of inflammatory factors induced by lipopolysaccharide stimulation, except COX-2 and TNF-alpha. These results suggest that the chloroform fraction of C. tschonoskii leaves may include a component with potential anti-inflammatory activity.
Betulaceae ; Chemokine CCL22 ; Chemokines ; Chloroform ; Cytokines ; Dermatitis, Atopic ; Dinoprostone ; Inflammation ; Inflammation Mediators ; Keratinocytes ; Macrophages ; RNA, Messenger ; Skin Diseases ; Tumor Necrosis Factor-alpha

BACKGROUND/OBJECTIVES: Vascular inflammation is an important feature in the atherosclerotic process. Recent studies report that leaves and branches of Carpinus turczaninowii (C. turczaninowii) have antioxidant capacity and exert anti-inflammatory effects. However, no study has reported the regulatory effect of C. turczaninowii extract on the arterial inflammatory response. This study therefore investigated modulation of the arterial inflammatory response after exposure to C. turczaninowii extract, using human aortic vascular smooth muscle cells (HAoSMCs). MATERIALS/METHODS: Scavenging activity of free radicals, total phenolic content (TPC), cell viability, mRNA expressions, and secreted levels of cytokines were measured in LPS-stimulated (10 ng/mL) HAoSMCs treated with the C. turczaninowii extract. RESULTS: C. turczaninowii extract contains high amounts of TPC (225.6 ± 21.0 mg of gallic acid equivalents/g of the extract), as well as exerts time-and dose-dependent increases in strongly scavenged free radicals (average 14.8 ± 1.97 µg/mL IC50 at 40 min). Cell viabilities after exposure to the extracts (1 and 10 µg/mL) were similar to the viability of non-treated cells. Cytokine mRNA expressions were significantly suppressed by the extracts (1 and 10 µg/mL) at 6 hours (h) after exposure. Interleukin-6 secretion was dose-dependently suppressed 2 h after incubation with the extract, at 1–10 µg/mL in non-stimulated cells, and at 5 and 10 µg/mL in LPS-stimulated cells. Similar patterns were also observed at 24 h after incubation with the extract (at 1–10 µg/mL in non-stimulated cells, and at 10 µg/mL in the LPS-stimulated cells). Soluble intracellular vascular adhesion molecules (sICAM-1) secreted from non-stimulated cells and LPS-stimulated cells were similarly suppressed in a dose-dependent manner after 24 h exposure to the extracts, but not after 2 h. In addition, sICAM-1 concentration after 24 h treatment was positively related to IL-6 levels after 2 h and 24 h exposure (r = 0.418, P = 0.003, and r = 0.524, P < 0.001, respectively). CONCLUSIONS: This study demonstrates that C. turczaninowii modulates the arterial inflammatory response, and indicates the potential to be applied as a therapeutic use for atherosclerosis.
Antioxidants ; Arteries ; Atherosclerosis ; Betulaceae ; Cell Survival ; Cytokines ; Free Radicals ; Gallic Acid ; Humans ; Inflammation ; Inhibitory Concentration 50 ; Interleukin-6 ; Muscle, Smooth, Vascular ; Phenol ; RNA, Messenger

PURPOSE: Early sensitization to outdoor aeroallergens such as tree, grass and weed pollen in the early period of infancy is very important in the development of seasonal bronchial asthma or allergic rhinitis. There is a suggestion that pollen contact during the first 6 months of life increases the risk of pollen allergy for 20 years or later. The aim of our investigation was to identify the relationship between sensitization to outdoor aeroallergens and the month and season of birth in childhood respiratory allergic disorders. METHODS: One hundred three seasonal allergic rhinitis and bronchial asthmatic children were enrolled for this study, and skin prick tests done for each patient to detect the sensitized allergens. Ragweed, mugwort, alder, hazelnut, elm, willow, birch, beech, oak, plane tree, orchard and timothy grass were used for outdoor aeroallergens. The relative risk (RR) for development of hypersensitivity to outdoor aeroallergen in children born in certain months was calculated. RESULTS: We found that relative risk of immediate hypersensitivity to each outdoor aeroallergen was dependent on the season and month of birth. Tree pollen was the most common sensitizing allergen in children who were born in spring (RR=2.12, P< 0.001) and May (RR=1.83, P=0.042), grass pollen was most common in summer (RR=2.06, P=0.046) and June-born children (RR=3.69, P< 0.001) ; weed pollen was the in fall (ragweed RR=2.89; mugwort RR=2.23, P< 0.001) and September-born children. (ragweed RR=2.10, P=0.029; mugwort RR=1.98, P=0.026) CONCLUSION: Exposure in early infancy to outdoor aeroallergens is an important risk factor in the subsequent development of bronchial asthma and allergic rhinitis.
Allergens ; Alnus ; Ambrosia ; Artemisia ; Asthma ; Betula ; Child ; Corylus ; Fagus ; Humans ; Hypersensitivity ; Hypersensitivity, Immediate ; Parturition* ; Phleum ; Poaceae ; Pollen ; Rhinitis ; Rhinitis, Allergic, Seasonal ; Risk Factors ; Salix ; Seasons ; Skin ; Skin Tests

The old calendar of pollens did not reflect current pollen distribution and concentrations that can be influenced by changes of weather and environment of each region in South Korea. A new pollen calendar of allergenic pollens was made based on the data on pollen concentrations obtained in eight regions nationwide between 1997 and 2009. The distribution of pollen was assessed every day at 8 areas (Seoul, Guri, Busan, Daegu, Jeonju, Kwangju, Kangneung, and Jeju) for 12 years between July 1, 1997 and June 30, 2009. Pollens were collected by using Burkard 7-day sampler (Burkard Manufacturing Co Ltd, UK). Pollens which were stained with Calberla's fuchsin staining solution were identified and counted. Pine became the highest pollen in May, and the pollen concentrations of oak and birch also became high. Ragweed appeared in the middle of August and showed the highest pollen concentration in the middles of September. Japanese hop showed a high concentration between the middle of August and the end of September, and mugwort appeared in the middles of August and its concentration increased up until early September. In Kangneung, birch appeared earlier, pine showed a higher pollen concentration than in the other areas. In Daegu, Oriental thuja and alder produced a large concentration of pollens. Pine produced a large concentration of pollens between the middle of April and the end of May. Weeds showed higher concentrations in September and mugwort appeared earlier than ragweed. In Busan the time of flowering is relatively early, and alder and Oriental thuja appeared earliest among all areas. In Kwangju, Oriental thuja and hazelnut appeared in early February. Japanese cedar showed the highest pollen concentration in March in Jeju. In conclusion, update information on pollen calendar in South Korea should be provided for allergic patients through the website to manage and prevent the pollinosis.
Allergens ; Alnus ; Ambrosia ; Artemisia ; Asian Continental Ancestry Group ; Betula ; Corylus ; Cryptomeria ; Flowers ; Humans ; Humulus ; Pollen ; Republic of Korea ; Rhinitis, Allergic, Seasonal ; Rosaniline Dyes ; Thuja ; Weather

PURPOSE: The pollen calendar is the simplest forecasting method for pollen concentrations. As pollen concentrations are liable to seasonal variations due to alterations in climate and land-use, it is necessary to update the pollen calendar using recent data. To attenuate the impact of considerable temporal and spatial variability in pollen concentrations on the pollen calendar, it is essential to employ a new methodology for its creation.METHODS: A pollen calendar was produced in Korea using data from recent observations, and a new method for creating the calendar was proposed, considering both risk levels and temporal resolution of pollen concentrations. A probability distribution was used for smoothing concentrations and determining risk levels. Airborne pollen grains were collected between 2007 and 2017 at 8 stations; 13 allergenic pollens, including those of alder, Japanese cedar, birch, hazelnut, oak, elm, pine, ginkgo, chestnut, grasses, ragweed, mugwort and Japanese hop, were identified from the collected grains.RESULTS: The concentrations of each pollen depend on locations and seasons due to large variability in species distribution and their environmental condition. In the descending order of concentration, pine, oak and Japanese hop pollens were found to be the most common in Korea. The pollen concentrations were high in spring and autumn, and those of oak and Japanese hop were probably the most common cause of allergy symptoms in spring and autumn, respectively. High Japanese cedar pollen counts were observed in Jeju, while moderate concentrations were in Jeonju, Gwangju and Busan.CONCLUSIONS: A new methodology for the creation of a pollen calendar was developed to attenuate the impact of large temporal and spatial variability in pollen concentrations. This revised calendar should be available to the public and allergic patients to prevent aggravation of pollen allergy.
Alnus ; Ambrosia ; Artemisia ; Asian Continental Ancestry Group ; Betula ; Busan ; Climate ; Corylus ; Cryptomeria ; Forecasting ; Ginkgo biloba ; Gwangju ; Humans ; Hypersensitivity ; Jeollabuk-do ; Korea ; Methods ; Poaceae ; Pollen ; Rhinitis, Allergic, Seasonal ; Seasons

In a large number of a1lergic cases, inhalant allergens, particularly airborne pollens and mo1ds am important causative, triggering agents in respiratory, even in skinanergy. It is essential for diagnosis and treatment of airborne allergy to survey the airborne pollen and mo1d in the patient's living area. Rotorod samp1er was installed on the well-ventilated rooftop of Hanyang Kuri Hospital in Kuri-shi, Kyunggi-do as the vicinity of Seoul. Airborne allergens were collected from October 1, 1995 to September 30, 1996 daily and were stained with Calberla`s fuchsin and were identified, counted under the light microscope (400Xfor pollen, 1000Xfor mold). The data were compared with the local daily weather report. The airborne pollen was found from 12th February to 22nd December. The maximal period for pollen collection was 7th-25th May (Maximal count:492 grains/ August. There were Alnus, Betula, Pinus, Quercus, Acer, Ulmus, PopuluS, Cupressaceae, Ginkgo, Corylus, Salk in the tree season from middle of February to middle of July. The grass season ranged from middle of March to end of November. There were Artemisia, Ambrosia, HumuluS, Chenopodium-Amaranthus, rumex, Plantago, Trifoium, Humulus, Chrysanthemum, Cyperus in the weed season ranged from middle of July to end of December. Airborne molds were collected all through the year except JanuaIgamma but, counted maximally from the middle of June to end l August. There were CladosPorium, Alternaria, ascospore of Leptospheria, Periconia, Myxomycete, Drechs1era, Rust urediniospores, Basidiospore, ToruIa, Xylariaceae, IOidimn, Nigrospom, Stempi1y1ium, Amphispheda, Fusarium, Aspergil1us. In Korea, there are great number of the allergic patients, but we have had a little records and data about study of relationship between the allergic diseases and airborne environmental allergens. we will reported those results completely in future.
Acer ; Allergens ; Alnus ; Alternaria ; Ambrosia ; Artemisia ; Betula ; Chrysanthemum ; Cladosporium ; Corylus ; Cupressaceae ; Cyperus ; Diagnosis ; Fungi* ; Fusarium ; Ginkgo biloba ; Gyeonggi-do* ; Humans ; Humulus ; Hypersensitivity ; Korea ; Myxomycetes ; Pinus ; Plantago ; Poaceae ; Pollen ; Populus ; Quercus ; Rosaniline Dyes ; Rumex ; Seasons ; Seoul ; Trees ; Ulmus ; Weather

No abstract available.
Corylus* ; Hypersensitivity*

Air-borne pollen is known as one of the major causal agents to respiratory allergic reactions. The daily number of pollen grains was monitored using Burkard volumetric spore traps at eight locations including Seoul and Jeju during 1997-2005. Pollen grains were observed throughout the year especially from February to November. They showed similar distribution patterns of species among locations except Jeju, where Japanese cedar vegetation is uniquely found. The peak seasons for pollen grains from trees, grasses, and weeds were from March to May, May to September, and August to October. Tree pollens were mainly composed of pine, oak, alder, and birch. Weed pollens were mainly from Japanese hop, sagebrush, and ragweed. The diameter of pollen grains, which has a typical range of 20~60 micrometer, has close relationship with allergenicity. The allergenicity of trees and weed pollens is higher than that of grass pollens in general. Daily fluctuations in the amount of pollens have to do with a variety of meteorological factors such as temperature, rainfall, and the duration of sunshine. Temperature and rainfall are especially decisive in determining pollen concentrations. Ten weather elements that are thought to affect the concentration of pollens are used to develop equations for the pollen forecasts. Predictive equations for each pollen species and month are developed based on statistical analyses using observed data during the last 5 years in Seoul through a co-work with the Committee of Pollen Study in Korean Academy of Pediatric Allergy and Respiratory Diseases and National Institute of Meteorological Research.
Alnus ; Ambrosia ; Artemisia ; Asian Continental Ancestry Group ; Betula ; Cryptomeria ; Humans ; Humulus ; Hypersensitivity ; Meteorological Concepts ; Poaceae ; Pollen ; Seasons ; Spores ; Sunlight ; Weather